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Contents
OCTOBER 2010 • VOL 23, NO 10 • www.MT-ONLINE.com
M A I N T E N A N C E
TECHNOLOGY
®
YEARS
Your Source For CAPACITY ASSURANCE SOLUTIONS
FEATURES CAPACITY ASSURANCE STRATEGIES 14
Measuring Reliability & Maintenance Effectiveness On A Global Basis © INGMARSAN — FOTOLIA.COM
Industries everywhere are finding themselves operating in a new reality. Here’s a new standard for dealing with it. Al Poling, CMRP and Richard B. Jones, Ph.D, HSB Solomon Associates LLC
MAINTENANCE LOG 22
Extending Chain Life Internal chain wear can be a killer. Don’t ignore these lubrication tips.
DEPARTMENTS
C. David Larson, A. W. Chesterton Co.
UTILITIES MANAGER 27
6 8 12 21 38 40 41 42 46 46 47 48
■ Big Money Talks William C. Livoti
■ Part I: Making Energy Savings Happen Through People Henry Molise, P.E., HCM Energy Consulting, LLC
PROCESS IMPROVEMENTS 34
3 More Reasons For Premature Bearing Failure (And How To Avoid Them)
Listening to what your failed bearings are telling you today can help you minimize problems tomorrow.
Special To MT From NSK
www. www.MT-online.com • exclusive online-only content • late-breaking industry news • 12 years of article archives OCTOBER 2010
My Take Uptime For On The Floor Lubrication Checkup The Green Edge Supply Chain Links Solution Spotlight Marketplace Information Highway Classified Supplier Index Viewpoint
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Capacity Assurance Solutions
• suppliers/products/services • comprehensive events calendar • professional development opportunities and more. . . MT-ONLINE.COM | 3
M A I N T E N A N C E
M A I N T E N A N C E
TECHNOLOGY
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Your Source For
CAPACITY ASSURANCE SOLUTIONS
TECHNOLOGY
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YEARS
Your Source For CAPACITY ASSURANCE SOLUTIONS
October 2010 • Volume 23, No. 10 ARTHUR L. RICE President/CEO arice@atpnetwork.com
BILL KIESEL Executive Vice President/Publisher bkiesel@atpnetwork.com
JANE ALEXANDER
Editor-In-Chief jalexander@atpnetwork.com
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Executive Editor rcarter@atpnetwork.com
ROBERT “BOB” WILLIAMSON KENNETH E. BANNISTER RAYMOND L. ATKINS Contributing Editors
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Director of Creative Services rbuttstadt@atpnetwork.com
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Maintenance Technology® (ISSN 0899-5729) is published monthly by Applied Technology Publications, Inc., 1300 S. Grove Avenue, Barrington, IL 60010. Periodicals postage paid at Barrington, Illinois and additional offices. Arthur L. Rice, III, President. Circulation records are maintained at Maintenance Technology®, Creative Data, 440 Quadrangle Drive, Suite E, Bolingbrook, IL 60440. Maintenance Technology® copyright 2010 by Applied Technology Publications, Inc. Annual subscription rates for nonqualified people: North America, $140; all others, $280 (air). No subscription agency is authorized by us to solicit or take orders for subscriptions. Postmaster: Please send address changes to Maintenance Technology®, Creative Data, 440 Quadrangle Drive, Suite E, Bolingbrook, IL 60440. Please indicate position, title, company name, company address. For other circulation information call (630) 739-0900. Canadian Publications agreement No. 40886011. Canada Post returns: IMEX, Station A, P.O. Box 54, Windsor, ON N9A 6J5, or email: cpcreturns@ wdsmail.com. Submissions Policy: Maintenance Technology® gladly welcomes submissions. By sending us your submission, unless otherwise negotiated in writing with our editor(s), you grant Applied Technology Publications, Inc. permission, by an irrevocable license, to edit, reproduce, distribute, publish, and adapt your submission in any medium, including via Internet, on multiple occasions. You are, of course, free to publish your submission yourself or to allow others to republish your submission. Submissions will not be returned. “Maintenance Technology®” is a registered trademark of Applied Technology Publications, Inc. Printed in U.S.A.
OCTOBER 2010
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MY TAKE
Jane Alexander, Editor-In-Chief
Fear Doesn’t Work Here
H
alloween may still be several weeks off as I write this column, but some of us have already had the beejeebers scared out of us. Here’s my story. It was Tuesday, September 28. I was minding my own business at an industry conference in San Antonio, when I received an e-mail from back home. “What’s this all about?” it asked (meaning, “How does this impact our readers?”). The message referred to a “headline” that evidently had been scrolling silently across television screens around the country as people ate lunch that day— pertaining to a report that projected new EPA boiler standards would lead to the loss of 800,000 U.S. jobs. I, too, would probably have choked on my soup, had I seen this claim in HD. Maybe I was sitting in the wrong room at the conference that afternoon, listening to speakers discuss proven solutions to some of industry’s toughest challenges: I just wasn’t hearing any buzz related to the doomsday, boiler-standards scenario—despite the fact that bloggers of all stripes had apparently been chewing up the report and spitting it out for hours. Later, as I waited in the hotel lobby for my airport shuttle, I still wasn’t sensing any fear among the many folks gathered together in little groups, doing a lot of business, it seemed to me. Back in my office the next day, I contacted a couple of trusted, go-to industry experts about their perspectives on the issue. They sounded almost as perplexed as I was, other than to speculate that since climate-change legislation is off the table until after the 2012 elections, EPA standards have become Washington’s football du jour. Who among us doesn’t like clean air, if not for ourselves, at least for our children and their children? That said, boiler-using industries are NOT going to shut down across the board, NOR will they be shut down across the board by EPA—cutting 800,000 U.S. jobs in the process. Plenty of solutions are available to keep this from happening. Of course, that’s just my take on the matter. Maybe you have another. (I know some of you won’t hesitate to let me know. All I ask is that you do it nicely. “Check your guns and knives at the door” before you write to me, please.) Speaking of solutions for the future, wherever I go, I’m seeing lots of them. I’m also seeing real confidence in the economy, as when I visited Siemens in Atlanta last month, and when I spent two days at the information-packed Schneider Electric/Square D 2010 Energy & Power Distribution Conference (in Atlanta). As for the San Antonio event I attended? Solutions and confidence were all over the place. It was the 2010 Emerson Global Users Exchange, where I was just one amid throngs of eager, energized participants (almost 2400) from across industry, including operations that use boilers. Paraphrasing the conference theme, most were there to build on their knowledge “to innovate, diversify, inspire and lead.” If that’s not a winning approach to tomorrow, what is? The future needn’t frighten us: Siemens, Schneider, Emerson and others already have the solutions you need to stay up and running safely, cleanly and efficiently—and are constantly working on new ones. You’ll find some of them in this issue, and many more in the months to come. Check them out. MT jalexander@atpnetwork.com
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maintenance technology
OCTOBER 2010
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UPTIME
Bob Williamson, Contributing Editor
Hide-And-Seek: Find The Hidden Losses “We have too many equipment problems: Too much downtime, too many breakdowns. Maintenance is out of control around here!” What does that mean? Why is it that, in many cases, “downtime” is perceived as “maintenance downtime”—or in other words, time for maintenance to come and fix something that should not have failed? Is it “normal” for maintenance to be blamed while the actual causes of the downtime and other equipment-related losses go unseen? When maintenance is incorrectly blamed, it may keep the true causes and other losses hidden inside an equipmentperformance-history time warp. In many cases, maintenance by itself is unable to eliminate the problems because the causes are simply outside its control. While breakdowns and downtime may be clear, all too often, many chronic interruptions (and causes) remain concealed from view. Despite the best of intentions, they go undetected or overlooked and continue to plague an operation’s reliability. In our never-ending quest for improved reliability and competitiveness, this costly game of “hide-and-seek” must end. Equipment losses Let’s begin our game of hide-and-seek by defining types of equipment-related losses. First, the obvious ones:
n Scrap or damaged output n Off-spec product that is reworked n Yield losses due to startups and changeovers The equipment could be considered 100% reliable when you factor these 15 losses out of the equation. Is that possible? It sure is! The common gap is NOT having the data that shows where the downtime is—and which losses are the most penalizing. Or the opposite: That is, having TOO MUCH DATA, thus making it practically impossible to sort things out. The most important consideration is to concentrate on the most critical processes and the problem-prone, constraint equipment within them. Stay focused… Operational timeline… OK, so we’re staying focused, collecting and analyzing all the data. We still have to deal with “hidden losses,” though (i.e., losses that are silently eroding equipment utilization and increasing operating costs). Let’s start with a basic hour-by-hour equipment-operating timeline covering 422 hours:
n Scheduled downtime n Scheduled maintenance shutdowns n Equipment failures or breakdowns n Changeovers n Startup and adjustment n Routine tooling or part changes
Hour 000: Equipment startup
Then there are the often not-so-obvious losses:
Hour 396: Operational
n Waiting for operators n No incoming raw materials (kanban empty) n No room for output (kanban full)
Hour 420: Planned maintenance (PM)
Equipment losses frequently result from running at less than capacity: n Minor stops (jams, breaker trips, idling) n Reduced speed or cycle time n Operational interruptions 8|
Even when equipment appears to be running just fine, it can be causing product losses:
MAINTENANCE TECHNOLOGY
Hour 285: Equipment failure Hour 299: Equipment startup Hour 300: Operational Hour 348: Operational
Hour 422: Operational Equipment failure and repair… The obvious equipment loss occurred between the scheduled operating hours of 285 and 299. This 14-hour downtime was attributed to an “equipment failure.” What really happened during those hours? We need to drill a bit deeper into the hidden-loss time warp. octoBER 2010
UPTIME
Hour 285: Equipment Failure • Call maintenance • Fill out downtime report • Maintenance dispatch looks for mechanic • Mechanic closes up current work (to be completed later) • Mechanic and planner assess the problem • Electrician called to assess control issues (potential problem) • Electrician tests controls, looks for faults (finds none) • Lock, tag, try • Secure parts and tools • Call for “rush” part delivery from local supplier • Clear product out of the equipment
Hour 288: • Repairs actually begin
Hour 296: • Process technician tests equipment • Mechanic makes fine adjustments • Instrument is re-calibrated
Hour 298: • Repair completed
Hours 299 to 420: • Operational (121 hours) Can you spot the hidden losses? What happened between hours 285 and 288? There were three hours of “stuff ” being done before the repairs actually began. How much of that is preventable? Without more data and further analysis we could only guess. Hide-and-Seek: Document what actually happened. At a minimum, the maintenance work order should capture man-hours worked, who worked, parts and supplies used, description of the actual problem, likely cause and corrective action taken. The production report should capture the downtime event start- and end-time, products being run, process settings, reasons or causes for downtime, maintenance work-order number, etc. Here are some improvements to consider: n Keep spare parts IN the plant rather than with your suppliers. n Keep critical spare parts and special tools in a secure area AT the equipment location. n Encourage operators and front-line supervisors to more accurately identify the problem(s). OCTOBER 2010
What actually happened between hours of 288 and 298? This was the actual “repair time” (wrench time) that also included “test” time by the process technician, re-calibration and fine-tuning. Again, without more data and further analysis we could only guess. Ask these questions: n How much time was spent “waiting” for parts? n How much time was spent waiting for the process technician? n How much time was spent looking for information (prints, manuals)? Hide-and-Seek: What actually happened in that hour from 298 to 299? Were folks looking for the operators who went on break? Was it shift-change time? Was more paperwork being done? During the total 14 hours of downtime, could it have been that there were three hours of unproductive activities or wasted time? If so, that means the loss could have been three hours less. Those additional hours of operational time could have a sizeable advantage for the business. An even bigger question: Could the cause of the downtime have been prevented altogether? Consider the likelihood of a more effective preventive maintenance program, more robust replacement parts, better-trained operators, variations or flaws in raw materials, etc. Planned maintenance losses I tend to think of “planned maintenance” like a pit stop in racing. The priority has to be “right the first time, every time.” And the speed—or efficiency—has to be as fast as possible (as long as effectiveness or accuracy is not compromised). Look again at the foregoing operational timeline (the PM from hours 420 to 422). Suppose this is the typical two-hour PM performed by maintenance.
Hour 420: Shut down for two-hour PM • PM paperwork • Inspect equipment • Lock, tag, try • Get parts • PM tasks on the equipment • Remove lock and tag • Clean up • Wait for operator • Check out and test the equipment • Wait for supervisor to sign off the paperwork
Hour 422: Operational
mt-online.com | 9
UPTIME
In our quest for improved reliability and competitiveness, this costly game of ‘hide-and-seek’ must end. Hide-and-Seek: Are there any hidden losses in this twohour PM? Here are a few improvements to consider: n Inspect the equipment BEFORE the PM actually begins. n Get the PM paperwork set BEFORE the PM begins. n Get the parts before starting the PM (kitting helps here). n Involve the operator WITH the PM tasks. n Allow the operator to sign off on the PM completion. Operational losses In many plants, the BIGGEST hidden losses are lurking just under the surface in “Operational Availability.” They’re hidden so deep in the data (or absence of data) that they’re almost undetectable—but they are there all the same. Hide-and-Seek: In our operational time line, what actually happened between operating hours 299 and 420? Was it truly 100% operational running time or “utilized” for 121 hours? That’s 15.125 shifts (days) of uninterrupted operation. Here’s what we might find if we were to dig deeper:
ations. If this equipment is not a process constraint, why focus on these types of losses? They don’t really penalize the business. Or do they? What if some of these losses could be reduced or eliminated? The business would produce more in a shorter operating time as increasing numbers of needless hidden losses are eliminated. That is a real business advantage. If this equipment IS a process constraint, however, these hidden losses could have a significant impact on the overall process flow. Because such losses are represented by “just-a-little-time-here” and “a-little-time-there,” this form of downtime rarely appears as one lump. Yet, when you total 36.65 hours of actual downtime (and when it occurs at one time) everyone will rally around eliminating the problem: “Call maintenance!” Such problems clearly are NOT maintenance problems. As Rick Hendrick said to me years ago about his NASCAR race teams, “We win or lose together.” It’s the same for those of us working in industrial facilities: The little “operational” problems—the little “operational” losses— ARE our problem. They belong to everyone in the plant. It’s not about pointing fingers and blaming others, either, but rather about getting to the causes of the most penalizing problems and eliminating them in a cost-effective manner.
Find ‘em We must seek out new ways to Operator-performed maintenance (OPM) @ 0.25hrs/day x 15 days ......= 3.75 hours make our equipment and processes more reliable if we are to maintain Daily startup @ 0.25 hrs/day x 15 days………….………………….= 3.75 hours a competitive advantage or grow Daily breaks/meals @ 1.0 hrs/day x 15 days…….………………..…= 15.00 hours our businesses. In many operaDaily safety talk @ 0.25 hrs/day x 15 days ………………………… = 3.75 hours tions, a “hidden capacity” often goes untapped. If that capacity Waiting: kanban full and kanban empty 20 times……………………= 1.40 hours isn’t exploited, investment in new QC/lab checks, 4x per day @ 0.1 hrs each x 15 day …………….……= 6.00 hours equipment may be required (at a Benefits meeting by HR ………………………………….…………= 1.00 hour high cost). The quest for hidden losses was TPM meeting (monthly)………..…………………………………..= 2.00 hours a core principle taught in the early TOTAL OPERATIONAL DOWNTIME………………… = 36.65 HOURS days of Total Productive Maintenance (TPM). No matter what we Hide-and-Seek: Look at the hidden losses above (likely call our efforts, rooting out hidden losses must become unseen because nobody ever looked for them). What’s a top priority. What was of key importance in the early NOT measured here are the “minor stops” caused by jams, days of TPM was the emphasis on TOTAL (i.e., everyone circuit-breaker trips, control trips and resets—or waiting involved in the elimination of the major losses and causes of on something, someone or some information to proceed with poor performance). Keep in mind, maintenance alone can’t operations. These types of delays disrupt steady-state, make equipment reliable if the causes of “unreliability” are reliable operation. In many cases, such interruptions are outside its control. MT rationalized or explained away as “normal” operating situRobertMW2@cs.com
Hidden Interruptions within Operational Availability:
10 |
MAINTENANCE TECHNOLOGY
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FOR ON THE FLOOR An outlet for the views of today’s capacity assurance professionals Rick Carter, Executive Editor
Fixing The Skills Shortage From The Inside Out No one in manufacturing disputes the severity of this nation’s skills crisis. But now that the manufacturing sector has begun to show signs of renewed vigor, it’s worth checking to see how (or if) individual manufacturers are taking advantage of this momentum to address the crisis head-on. Efforts within their own operations to attract and retain skilled workers and find potential new ones can help paint a picture of the sector’s “on-the-ground” ability and willingness to ensure that real U.S. manufacturing jobs are viable and attractive in the 21st century. We asked our Maintenance Technology Reader Panelists to tell us what they see. Salaries and incentives: 50/50 Salaries and benefits are usually the best “first line of attack” in any employer’s strategy to keep good workers and reel in new ones. Our Reader Panelists are just about evenly divided between those whose employers do a good job in this area and those who don’t. While union members, of course, typically have contracts that protect against rapid changes in salaries and benefits, a number of non-union Panelists report that their salaries and incentives have, in fact, held steady or improved over the past decade. “We receive education assistance, a 401(k) plan, bonuses for performance and health benefits,” reports a maintenance technician at a process operation in the Northeast. Employee stockownership levels have increased in the past decade, he adds, and, despite the recession, he and his team members have received regular raises. Benefits are even better for a condition-based maintenance leader at a utility in the upper South. “We receive all of those,” he says, referring to a list of examples that includes health benefits, bonuses, cash and non-cash awards for jobs well done, stockownership plans, profit-sharing, 401(k) plans and education assistance. “To my knowledge,” he notes, “these have changed little in the past 10 years. We also receive yearly raises.”
12 |
MAINTENANCE TECHNOLOGY
A maintenance supervisor at a heavyequipment manufacturer in the South receives a “401(k) plan, competitive health insurance and an annual bonus,” adding that in the past decade “our insurance has gone up considerably, but it is still very competitive. Most other incentives have not changed,” he says. He and his team receive annual salary increases “based on company profit and a review process.” Less fortunate Panelists include a maintenance supervisor for a light-manufacturing operation in New England. While he receives health benefits, a company pension and “the possibility of annual bonuses,” he tells us that his company has “seen considerable cuts in incentives over the past 10 years, from overtime compensation reductions to employees paying a much higher percentage toward health care. And raises,” he continues, “have been suspended for the past 30 months.” Similarly, the maintenance manager for an engineering service in the Midwest receives standard health benefits, but no bonuses and no company-matching 401(k) plan. “All company incentives were cut in the past three years,” he says, noting that raises were replaced by a 7% salary reduction. And a Canada-based consultant who makes a distinction between his “best-practices” clients and those who fall short of that mark says the best-practices organizations are far more likely to offer solid incentive packages. He has observed, however, that in the past 10 years, incentive offerings for all of his clients have been reduced. Outreach: A slow start As the skills shortage has sunk in for manufacturers, outreach—a strategy to connect with local communities in a way that influences student career choices and skills training—is increasingly seen as a way to ensure a steady flow of future workers. But, as with salaries and benefits, Panelists’ employers are not fully on board with the concept.
OCTOBER 2010
FOR ON THE FLOOR
Some may be unsure of what it involves: “If we do this, it would be through local job fairs,” says one. Most Panelists simply say that their companies don’t conduct outreach activities. Those that do, however, report success. “With the greening of the world and the need for more base load, nuclear has soared to the forefront and our efforts to recruit have had to go into high gear,” states a journeyman maintenanceteam member at a nuclear facility in the Northeast. “We are active on our Website, we send our people into the school system, we sponsor and participate in high-school science fairs, we are in the technical colleges and do presentations at universities. We even furnish instructors for some classes.” This individual reports that his operation’s efforts seem to be producing the desired effects. “Our biggest bang for the buck,” he says, “has been from regular employees going out to the schools and spreading the word about the safety of our units and the opportunities that exist.” Others are beginning to catch on about outreach. “We recently had a few openings and were not seeing the applicants we wanted to see,” says the heavy-industry maintenance supervisor in the South. “But after contacting local technical colleges, we received some promising resumes.” How to fix things Despite the seeming lack of widespread participation in outreach efforts among their employers, most Panelists themselves believe the practice is a key element in the fight to combat the skills shortage. “If every industrial plant or facility in the Fortune 500 were to ‘adopt’ a local high school or junior college, and offer technical courses, tours, etc. to our young people,” a West Coast consultant suggests, “maybe we could rekindle some of the hands-on ‘hardware’ interests that used to exist with teenagers when we were growing up.” Similarly, the maintenance supervisor in New England calls for an emphasis on encouraging young people to consider the trades. “We are not seeing any programs to spark interest in the schools for students to become maintenance techs,” he laments. Another Panelist makes the point that “local technical schools and businesses need to advertise the need and benefits of attending technical colleges and pursuing
OCTOBER 2010
careers in these areas.” For another, “educational institutions should educate and train on curricula developed with the help of the industry, and industries should pool their needs by similarities to develop the kinds of workers they need.” Finally, says one, manufacturers should “support and hire from good two-year technical/industrial schools, and create job-shadowing programs and student-training programs.” Panelists have other ideas, too. “We need a database of qualified, skilled workers,” says a corporate engineer with a New England-based manufacturer. “With current unemployment levels, there should be a lot of talent out there looking for work.” And in the Midwest, a training coordinator contends that networking sessions like those used by “white collar workers” would help. “Things like business breakfast groups before work,” he says, “would bring industrial workers into a more mainstream business model.” Most important may be the need to simply get involved and always send the right signal about industrial opportunities. “Any job where you just go to work, do your job and go home without getting involved is one of the main reasons why there is so much dissatisfaction in the marketplace,” the nuclear-industry journeyman states. “You can always find detractors, but positive attitude goes a long way. Whenever I represent my company in paid or unpaid status,” he says, “I am upbeat about where I work and who I work for. And that attitude carries through.” MT
Join the MT Reader Panel! Have your comments and observations included in this column by joining the Maintenance Technology Reader Panel. Send an e-mail to rcarter@atpnetwork.com with the following: your name, title, contact information, years of professional experience, and the name and location of your company. If qualified, you’ll be admitted to the Reader Panel, and will receive requests for your thoughts on industry topics approximately every other month. After one year of active participation, you’ll be entered into a drawing for a cash prize, as a token of our thanks.
MT-ONLINE.COM | 13
CAPACITY ASSURANCE STRATEGIES A bright new perspective…
Measuring Reliability & Maintenance Effectiveness On A Global Basis
Industries everywhere are finding themselves operating in a new reality. Here’s a new standard for dealing with it.
Al Poling, CMRP and Richard B. Jones, Ph.D HSB Solomon Associates LLC
14 |
MAINTENANCE TECHNOLOGY
A
s some markets flourish and others recover from economic recession, it’s clear that the onetime buzzword “globalization” is now a reality. Today, industries compete on a global scale where, given acceptable product reliability and quality, price is the ultimate currency of success. With instant global communication capabilities available at virtually all levels, it is getting harder to sustain business performance at those companies that choose to isolate themselves and operate in a self-imposed cocoon or vacuum. Successful manufacturing performance is no longer tied to a technology, process or location. Instead, it’s basically a function of who can make a quality product at the lowest cost. OCTOBER 2010
CAPACITY ASSURANCE STRATEGIES
The value of performance benchmarking All for-profit businesses operate under the same simple equation: Profit = Revenue – Cost. From this equation, it is easier to earn a dollar more profit by reducing expenses (which is your choice) than to earn an additional dollar of revenue (which is someone else’s choice.) In practice, there are interactions between expense reductions and revenue growth that also need to be understood to effectively optimize this deceptively simple equation. While there is no single business model to do this, one general strategy that can provide valuable insights is performance benchmarking—or, using Solomon’s terminology, Comparative Performance Analysis™ (CPA). Benchmarking enables a company to measure and compare its performance against peer companies in a constructive and confidential manner. The quantitative differences computed between a plant and other similar plants using a detailed data taxonomy can provide invaluable information regarding improvement opportunities. This is a way of effectively extending a “lessons learned” exercise across multiple companies. A critical attribute of effective reliability and maintenance benchmarking is the ability to compare disparate assets. But even small differences for similar plants can alter the value of the comparison. Each asset-performance value (e.g., maintenance cost) is divided by a computed standard to normalize the results. Our company computes these standards using patented methodologies [Ref. 1 and 2] that are accepted around the world as integral parts of CPA studies in refining, petrochemicals, power generation, pipelines and terminals (see Sidebar below). Historically, maintenance cost performance has been measured by dividing expense data by the plant replacement value (PRV). The generally accepted assumption is that the amount of money required to maintain a plant’s physical assets varies directly with the amount of money required to replace it. Intuitively, there is a logical connection in the sense that the more equipment a specific type of plant has, the higher the replacement and maintenance cost.
Individual companies use various methods to calculate or estimate PRV for insurance and other internal purposes— and in most cases, these values are accepted, internal standards. Aside from The Society for Maintenance and Reliability Professionals (SMRP) Work Management Guideline 1.0, Determining Asset Replacement Value, published in 2009, there’s no generally accepted common method for computing and auditing PRV calculations [Ref. 3]. Consequently, using PRV divisors for intercompany comparisons can add uncertainty to performance metric comparisons. Moreover, PRV inherently contains additional uncertainty because these calculations are seldom, if ever, verified in practice. There is little actual data on the true cost of plant replacement at a given site in a given year since companies do not actually undergo such an ordeal. For CPA studies of reliability and maintenance (RAM), our company has developed a new maintenance normalizer called Equivalent Maintenance Complexity (EMC™). The intent is not to displace the use of PRV, but rather to provide a more accurate means of benchmarking that does not possess the financial, market and computational uncertainties inherent in PRV. Since the objective of a standard is to bisect the actual performance data, roughly 50% of the actual performance is above and below the standard values. It’s not intended to be a predictor of future or past performance. Prediction techniques are intended as precise estimates that aren’t relevant to performance assessment. For example, if a prediction model were completely accurate, all asset ratios (Actual/ Divisor) would be one—there would be no assets with aboveor below-par performance. The prediction model would include this modeling as part of its calculation, resulting in little comparative analysis value. How EMC works The EMC standard is computed as the nominal number of routine maintenance labor hours required to maintain a plant with its specific characteristics. For RAM
About HSB Solomon Associates LLC Driving world-class performance improvement for energy-intensive assets… A subsidiary of the Hartford Steam Boiler organization, HSB Solomon is a provider of benchmarking services and performance improvement consulting for the global energy industry. Headquartered in Dallas, TX, the company focuses specifically on the petroleumrefining, petrochemical, pipeline, terminal and powergeneration markets.
OCTOBER 2010
Regarding the Comparative Performance Analysis (CPA) product referenced in this article, while Solomon maintains this intellectual property and uniquely applies it in energy-related industries, the method is available for license to companies in industries or work areas that the company does not service. For more info, enter 01 at www.MT-freeinfo.com
MT-ONLINE.COM | 15
CAPACITY ASSURANCE STRATEGIES
Fig. 1. Rotating-equipment labor hours using PRV
Fig. 2. Rotating-equipment labor hours using EMC
16 |
MAINTENANCE TECHNOLOGY
OCTOBER 2010
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benchmarking analyses, Solomon has chosen routine maintenance labor hours as the standard variable (instead of labor or other costs) because of uncertainties in exchange rates and regional labor cost differences. Labor costs required to maintain similar assets can vary widely across regions or countries, but labor hours should be the same. Our method first determines, from data and expert opinion, the primary, direct drivers of routine maintenance labor hours. These variables are called “first principle characteristics.” In general, these characteristics fall into the following categories: location, process unit size, process type, process severity and the equipment counts for specific types like centrifugal pumps, electric motors, etc. After these variables are identified, a database of unit information is compiled and a non-linear optimization model is used to calculate the EMC coefficients as a function of first-principle characteristics. Value limitations or constraints are applied to these coefficients to ensure that the results reflect realistic relationships. For example, all coefficients may be required to be positive, because increasing values can imply more (not fewer) labor hours. Although PRV usage will continue to be a valid normalizing methodology, intercompany variability associated with the determination of PRV can and does influence this normalizing methodology—as illustrated in Fig. 1, which plots the actual rotating-equipment routine maintenance labor hours for refining process units as a function of the stated PRV. While the general correlation is apparent in Fig. 1, the large amount of variation illustrates the limitations of using PRV as a performance-normalization variable. Using the same data set, EMC provides a more robust standard for comparison, as seen in Fig. 2. Continued on page 18 OCTOBER 2010
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MT-ONLINE.COM | 17
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CAPACITY ASSURANCE STRATEGIES
The EMC standard is computed using non-turnaround maintenance labor hours and first-principle-characteristic data from study participants. One advantage of this methodology is that any plant with the same first principle characteristics values will have the same EMC. Variations in performance compared with the standard using the quotient [Actual/Standard] can point to weaknesses in specific types of maintenance practices using the data-collection taxonomy. The measurement aspect of using EMC is just the beginning. The detailed data collected enables opportunity areas and the amount of savings to be identified. It is from these types of activities that CPA studies can be applied on a periodic basis to assess competitive positions. To provide more insight in the benchmarking analysis, we divide total routine maintenance labor hours into the following four mutually exclusive categories. Other categories can be used given the accessibility of sufficient data. ■ Rotating Equipment — Includes pumps, compressors, etc. ■ Fixed Plant — Includes piping, process vessels, etc. ■ Electrical — Includes motors, transformers, etc. ■ Instrumentation and Control — Includes analyzers, control valves, etc. EMC calculations are performed on each data set. The sum of the categorylevel EMC standards represents the standard for the total routine maintenance labor hours. (Solomon currently has more than 8000 process units in its database that supports validation of the computed EMC values.) The equipment-category-level EMC analysis provides more precision in identifying and quantifying areas of opportunity and areas that are performing well than by looking solely at the total number of hours. For example, a plant may perform better than standard performance overall, but show sub-par performance in one or more of the equipment categories [Ref. 4]. We selected routine maintenance labor hours as the foundation for this new normalization variable because they are within the control of the local facility management team—as opposed to other financial measures that aren’t. The objective is to provide a means for measuring reliability and maintenance performance by expressing it in terms of a metric that the maintenance manager can control. All too often, decisions are made regarding fixed costs that do not take into account the full impact of the maintenance function. Arbitrary cost cuts have been the norm, often resulting in ineffective or non-productive outcomes. This brings us to the second major component of reliability and maintenance benchmarking: reliability or, more precisely, availability. The second piece The second piece of RAM benchmarking focuses on lost margin that is attributable to reliability and maintenance causes. This value often far exceeds the total maintenance budget. By capturing and quantifying the value of reliability and maintenance-induced production losses, we can study the potential benefits derived by not cutting cost but by improving reliability. Empirical data suggests that corporations have finally begun to understand what their maintenance organizations have been telling them for decades. Although the motivation for improving reliability may historically have been driven by a desire to lower maintenance cost, it is the increase in profitability that warrants taking the time to understand the balance between reliability and maintenance from a strategic perspective. 18 |
MAINTENANCE TECHNOLOGY
OCTOBER 2010
CAPACITY ASSURANCE STRATEGIES
In the next generation of the International Study of Plant Reliability and Maintenance Effectiveness (RAM Study), scheduled for 2011, our company will utilize published industry data to calculate the value of lost margin for each process family (i.e., a unique family of refining or process chemicals) that is attributable to reliability and maintenance causes. Examples of cost and margin quantifications have shown that EMC comparative performance analysis can identify opportunities. Specific decisions to change any work practices, however, are business decisions, not analytical decisions. Payback There are many reasons to benchmark reliability and maintenance performance. Among the most common reasons are: ■ The knowledge or belief that the competition has developed or adopted better practices
In the new global reality, successful manufacturing performance is basically a function of who can make a quality product at the lowest cost.
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■ The introduction of previously nonexistent factors as a result of global competition
• Verify all circuits have been grounded and are properly connected
■ Ensuring the long-term viability of a business or manufacturing operation
• Inspect all insulation, weatherproofing, junction boxes, connection boxes and sensor connections • Verify proper circuit breakers are in place (always use 30mA trip GFI type breakers) and circuit lengths are within manufacturers’ specified limits • Verify all proper safety warnings are in place • Verify all end seal, splice/tee locations are marked on lagging
■ The need to set realistic performanceimprovement targets ■ Prioritizing of alternative improvement opportunities. It’s been demonstrated, time and again, that by adopting reliability and maintenance best practices, asset availability goes up and maintenance costs come down. The EMC metric provides a new standard to help plants improve their performance in the new reality of the global marketplace. MT Continued on page 20 OCTOBER 2010
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MT-ONLINE.COM | 19
CAPACITY ASSURANCE STRATEGIES
References 1. System and method for determining equivalency factors for use in comparative performance analysis of industrial facilities, U.S. Patent #7,233,910. 2. Method and system for greenhouse gas emissions performance assessment and allocation, U.S. Patent #7,693,725. 3. Society for Maintenance and Reliability Professionals
(www.SMRP.org), Work Management Guideline 1.0, Determining Replacement Asset Value (RAV), June 2009. 4. Poling, A., Jones, R., Hernu, M., “Increasing Profitability and Competitive Position by Comparing the Maintenance Effectiveness of Process Plants Based on all Plant Factors,” NPRA Maintenance Conference, San Antonio, May 2010.
Al Poling is project manager for the International Study of Plant Reliability and Maintenance Effectiveness for HSB Solomon Associates LLC. Starting out as a professional educator, he later became a maintenance and reliability engineer and held various plant and leadership roles with several companies over the years. Poling served as Technical Director for the Society for Maintenance and Reliability Professionals (SMRP) from 2008 to 2010. He has presented at numerous conferences nationally and internationally, and has published several white papers and articles on maintenance and related topics. He completed his technical and educational undergraduate work at Fairmont State University and earned a clinical Master of Arts degree in Technology Education from West Virginia University. Telephone: (972)Breadth 739-1731; CRC ofe-mail: Line Al.Poling@SolomonOnline.com. 7x4.875 1/11/10 3:50 PM Page
Rick Jones has over 28 years of experience in corporate and industrial risk management, insurance and risk-based methods. As the director of Statistics and Risk Modeling with Solomon, he’s responsible for the development and application of numerical and statistical methods to measure and analyze operational performance from Solomon’s and customers’ databases. A frequent speaker on the role of risk management as a tool to improve reliability, Jones also has more than 50 publications and meeting contributions on various topics relating to reliability and risk management. The author of two books, Risk-Based Management: A Reliability-Centered Approach, and 20% Chance of Rain: Your Personal Guide to Risk, he received his B.S. in Aerospace Engineering and Ph.D. in Nuclear Science and Engineering from Virginia Tech. Telephone: (972) 739-1740; e-mail: Rick.Jones@SolomonOnline.com.
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MAINTENANCE TECHNOLOGY
OCTOBER 2010
Lubrication Checkup
More than an oil. A business tool.
By Dr. Lube, aka Ken Bannister
Symptom: “Are there consistent values for the acceptable limits of oil properties, such as viscosity and TAN, before the oil needs to be changed?
Diagnosis: Throughout its life, oil is subjected to load-induced shear stresses, thermal degradation, water, induced aeration, wear-metal catalyzing and possible contamination. These outside influences produce fluid-property-altering effects that primarily manifest as major thickening or dilution in viscosity, acid buildup and sludge. We analyze oil’s fluid properties to determine the effective remaining life before an oil change is required. Two of the most effective tests are the analysis of viscosity change and the increase in TAN (Total Acid Number or acidity) against a benchmark virgin-oil sample.
Prescription: The viscosity rating of new oil is typically expressed in centistokes (cSt), which is the oil’s kinematic viscosity rating depicting its measured resistance to flow and shear by the force of gravity. As oil thickens or dilutes, its specific gravity changes, which can lead to gravity-based testing errors. Absolute viscosity is a more consistent measurement; it depicts resistance to flow and shear through measurement of the oil’s internal friction. Because absolute viscosity is measured by multiplying kinematic viscosity by actual specific gravity, it provides errorfree trending, making it the preferred measurement for most oil labs. (Absolute viscosity is measured in centipoise [cPs].) Work with a laboratory that has experience in setting caution and critical limits for YOUR industry. For industrial oils, most labs usually start with clearly defined viscosity limits of -10% CL (Critical Lower), -5% CaL (Caution Lower), +5% CaU (Caution Upper) and +10% CU (Critical Upper). In more severe conditions, the CaU and CU limits can be reduced to +4% and +8%, respectively. For oils with viscosity improvers, the lower limits are usually doubled. The AN (Acid Number), which reflects acid concentration in oil—not strength— is greatly affected by water. Most oils start with ANs under 2. Setting acidity limits is not as easy as viscosity, since caution and critical limits depend on the additive package. Most standard mineral oils are considered corrosive over AN 4, whereas AW (AntiWear) or R & O (Rust and Oxidation) oils are considered critical well below AN 3. Working with your supplier and/or a reputable lab experienced in your industry is the best way to set meaningful acceptable limits for YOUR environment. Remember, the rate of change is more important than the actual change number, as it signifies a specific change that likely needs immediate investigation. MT Lube questions? Ask Dr. Lube, aka Ken Bannister, author of the book Lubrication for Industry and the Lubrication section of the 28th edition Machinery’s Handbook. He’s also a contributing editor for Maintenance Technology and Lubrication Management & Technology. E-mail: doctorlube@atpnetwork.com. For more info, enter 02 at www.MT-freeinfo.com OCTOBER 2010
Which brings us to Mobil SHC. A full family of scientifically engineered supreme-performance lubricants designed to stay on the job 6 to 8 times longer than mineral oils in severe conditions. Developed to provide better protection of your capital investment, extend machine life, and reduce energy consumption. All of which adds up to one thing: increased productivity. Mobil SHC products are endorsed for use in over 5,800 applications by more than 1,100 major equipment builders around the world. They’re backed by state-of-the-art services and technical support. And they’re reason enough to rethink the role lubricants play in your operation. Don’t just make it run. Make it fly. For more information on Mobil SHC, visit mobilindustrial.com.
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Acceptable Limits
If you think of oil as a line item, or simply an operating cost, perhaps it’s time to think of it as something more: an opportunity. Better lubricants can smooth the way to maximized productivity, reduced expenses and less down time.
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MT-ONLINE.COM | 21
MAINTENANCE LOG
Extending Chain Life Internal chain wear can be a killer. You can’t afford to ignore these tips for proper lubrication. C. David Larson A. W. Chesterton Co.
22 |
MAINTENANCE TECHNOLOGY
T
hey’re some of the most unseen, unsung heroes in a production process. Chains (typically of the metal-pin-and-bushing design) are used throughout industry, primarily for the transmission of power or transfer of goods. Sadly, proper lubrication practices are often disregarded when it comes to these workhorses, leading to shortened chain life and increased costs. Here are some tips to ensure that these critical links keep moving your operations in the direction of profitability.
OCTOBER 2010
MAINTENANCE LOG The metal-pin-and-bushing design is the most common chain used in industry, primarily for the transmission of power or transfer of goods.
(CAUTION: The primary wear on a chain occurs when there is relative motion between the pin and bushing. In some applications, this occurs on only a portion of the chain. This is the area that should be checked. An example would be a chain hoist, wherein some of the chain is always in tension and does not experience relative movement. This section would normally see limited wear and should not be the location chosen for elongation measurement. )
The challenges Poor chain lubrication may be indicated by noise, stiffness or a high rate of what is often referred to as “chain stretch” (i.e., elongation of the chain resulting from internal wear on the pin and bushing). The correct time to replace a chain is frequently overlooked. In many cases, the first notice of wear is when the chain breaks. At this point, the elongation is excessive, leading to additional costs—such as those related to drive-sprocket damage. Stretch or elongation of 2.5% to 3% is generally considered the limit. While chains should be replaced once they reach this limit, often they aren’t. Instead, their tensioning mechanisms might be adjusted or some links removed. These are not true “repairs,” though, as the pins continue to wear. In time, the chain breaks. You can easily measure the amount of stretch with a chain elongation gauge. This simple tool helps “predict” the optimum time for chain replacement—before collateral damage is done or failure occurs.
Effective lubrication While there are many causes of chain failure, the most common is internal wear of the pin and bushing—parts that are fit to close tolerances. This is where the chain flexes and also where the load is carried. For all practical purposes, this can be considered as the bearing area of the chain; as such, it needs periodic re-lubrication. In times past, chains were often removed from a machine, solvent-cleaned and placed into a bath of hot oil. While effective, this procedure is generally not practical. In order to lubricate a chain effectively, the lubricant must have several key properties: The critical requirement is the ability to penetrate to the interior of the chain to lubricate between the pin and bushing. Most chains are relatively static, preventing any possibility of creating a hydrodynamic lubricant layer. To prevent excessive metal contact and wear, the lubrication should possess high film strength. In addition, the lubricant must be able to remove built-up residues from the inside and outside of the chain. For conditions such as water, high temperature or load, the lubricant must have the ability to remain in place and maintain a lubricating film. Lubrication methods for chains fall into three main categories: Manual, semi-automatic and automatic (see Table I). The size, speed and operating conditions of chains often determine the best application method.
A chain elongation gauge helps “predict” the optimum time for chain replacement, before collateral damage is done or failure occurs.
OCTOBER 2010
MT-ONLINE.COM | 23
MAINTENANCE LOG
Table I. The Three Main Categories of Chain Lubrication Methods
Method of Lubrication
Non-Automatic
SemiAutomatic
Automatic
Application of Lubricant
The ideal lube point for a chain would be between its side plates, since the lubricant must creep between the plates and along the bushing.
Kind of Equipment
between the side plates, given the fact that the lubricant must creep between the plates and along the bushing. Choice of lubricant Operating conditions will largely dictate the lubricant choice for a chain. The most common types and/or applications are: 1. Petroleum-based — These economical products are used in applications up to 250 F (120 C). 2. Open-gear — These are tacky, cohesive lubricants used on the surface of open gears. Unlike grease, they don’t squeeze out under pressure. They’re often used together with a petroleum-based internal lubricant on the exterior of chains to protect against surface wear and prevent water washout of the lubricant inside. In severely dusty environments, open-gear lubricants can collect dirt.
More-advanced lubrication approaches may include removal of dirt and dust using mechanical means or a high-pressure air nozzle. Timed application can be made by a precise mist or drops applied to the exact location, maximizing the lubrication, while reducing the amount of lubricant used. Where to lubricate Where a chain is lubricated is an important factor in extending its life. The application should be performed before a sprocket or sheave as this is where the chain will flex the most and, thus, assist in the lubricant’s penetration. In situations where a chain is subjected to high temperatures for an extended period—as in ovens, for example— the recommended locations for lubricating are typically before the chain enters the oven and on the return, after it has cooled somewhat. The ideal lubrication point would be 24 |
MAINTENANCE TECHNOLOGY
3. High-temperature — In operating conditions up to 520 F (270 C), a synthetic lubricant with improved oxidative stability is normally used. These are most commonly based on polyalfaolefins (PAOs), polyalkalene glycols (PAGs) or esters (such as di-ester or polyol ester). The primary considerations are evaporation rate and residue formation at elevated temperatures. 4. Extreme high-temperature — Solid lubricants are usually the only option. They might include: ■ Graphite — 1000 F (540 C) ■ MoS2 — 840 F (450 C) ■ Copper, Nickel, or inorganic powders — up to 2600 F (1425 C) OCTOBER 2010
MAINTENANCE LOG
5. Incidental food contact — NSF registered H1 is normally required where there is any possibility of contact with food. 6. Dry-chain — In applications where any liquid may contaminate the product, a dry lubricant, such as microscopic PTFE powder, is often used. Experience has shown that up to four times longer chain life is possible with lubrication, compared to no lubrication. 7. Plastic chain — These applications could be plastic-tometal or plastic-to-plastic. Although such chains are frequently promoted as self-lubricated, a silicone-based chain lubricant is often effective. Frequency of lubrication How often to re-lubricate depends on the chain design, speed and environmental conditions, such as water or temperature. Experience is typically used to determine the lubrication frequency—and is often done when the chain “appears dry.”
On a chain with consistent load, the amperage draw can often be used to judge the correct time for re-lubrication. As it begins to increase, re-lubricating will return the power to the base line. Lubrication frequency can then be set based on this data. Strengthening your chain-lube program There’s no ideal approach to chain lubrication: It depends on many factors such as chain design, operating conditions and plant constraints. Still, the potential benefits suggest that a comprehensive review of the chain-lubrication practices around your operations would make sense. Typical benefits of an effective program can include improving chain life two to four times; reducing energy consumption by 5 to 10%; and cutting lubricant usage by 50%—while at the same time assuring smooth, reliable operation of your chain system(s). What’s keeping you from moving forward? MT C. David Larson is a business development manager for the A.W. Chesterton Co., located in Groveland, MA. E-mail: larsond@chesterton.com. For more info, enter 03 at www.MT-freeinfo.com
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9/23/10 2:30| PM MT-ONLINE.COM 25
Get Ready!
Get Set!
Get Going!
Put MARTS 2011 On Your Calendar Now!
Education, Networking, Solutions To Your Problems!
APRIL 26-29, 2011
Know any good books? CALL FOR ENTRIES:
We thank all attendees, presenters and exhibitors for helping us make MARTS 2010 a rousing success. MARTS 2011 promises to be even bigger and better! Check regularly on www.MARTSconference.com for event news and scheduling updates.
Reliability Keeps Giving Voice To Autism As in 2010, MARTS 2011 will kick off with another “Reliability Gives Voice to Autism” (RGVA) charity event. This gala evening of fun, food and entertainment at MARTS 2010 was this year’s #1 industrial contributor to the Autism Society of Illinois. Stay tuned for details on how you and your company can be part of this great cause. “I am forever grateful for the efforts made by the organizers and volunteers of RGVA on behalf of the Autism Society - Illinois. With the success of the inaugural event, I am looking forward to the 2011 Reliability Gives Voice to Autism with exuberant anticipation.” … Michael Gallivan, President, Board of Directors, Autism Society - Illinois
We’re grateful, too… Applied Technology Publications is delighted that others across the reliability community have chosen to join us in the battle to raise awareness and funding for autism. To all of you, thank you for your contributions and good luck in your fight. For more information, contact Bill Kiesel at bkiesel@atpnetwork.com
MAINTENANCE and RELIABILITY TECHNOLOGY SUMMIT
Reliability Gives Voice to Autism
Book Awards
Calling all authors and publishers of reliability, maintenance and autism-related books! Submit your entries for the first Reliability Gives Voice to Autism (RGVA) Book Awards. Honoring the best titles in each category, these awards are co-sponsored by Applied Technology Publications and SUCCESS by DESIGN, with proceeds going to the Autism Society of Illinois.
The RGVA Book Awards competition is open to all writers and publishers who produce books written in English that are intended for the reliability, maintenance and autism genres. Independent spirit and expertise comes from publishers of all sizes and budgets, and books will be judged with that in mind. Awards will be presented during the Reliability Gives Voice To Autism dinner on April 27, 2011, at MARTS (Maintenance & Reliability Technology Summit),
The Capacity Assurance Conference!
at the Hyatt Regency O’Hare, Rosemont (Chicago, Illinois).
APRIL 26-29, 2011
For complete rules and guidelines on submitting reliability, maintenance or autism-related books for judging (including entry-fee info), visit:
Hyatt Regency O’Hare, Rosemont (Chicago), IL
www.MARTSconference.com
For more info, enter 72 at www.MT-freeinfo.com
www.MARTSconference.com
BIG MONEY TALKS XX UM William C. Livoti
Today’s Entitlement / Tomorrow’s Privilege
T
he North American electricity system is one of the great engineering achievements of the past 100 years. This infrastructure represents more than $1 trillion in asset value, more than 200,000 miles of transmission lines operating at 230,000 volts and greater, 950,000 megawatts of generating capability and nearly 3500 utility organizations, serving more than 100 million customers (or well over 300 million people). Providing reliable electricity is an enormously complex technical challenge, even on the most routine of days. Unfortunately, this incredible feat of engineering is destined to failure. It’s a sad testament to a country that still leads the world in manufacturing and quality of life. Few of us have control over our electric service. Most of us don’t give it a second thought— except when our monthly bill comes or lights go out. The average American considers electricity an entitlement, rather than a privilege. That’s not the way it is in much of the world. Imagine living in Iraq or India, where countless people rely on generators for their power requirements and are lucky to have electricity only four to eight hours per day. Whoa! That could never happen “here,” you say. Don’t count on it. The issues There are a number of issues facing the power industry that will impact each and every American (and whether we’ll have enough electricity in the future). The most significant of these, in my opinion, involves the clean-air legislation Washington is debating. Ask any investor-owned power-company executive about cap and trade, clean coal and carbon sequestration, and you’ll hear general concern about rising costs and profit margins. A utility must be able to pay investors some return or it won’t have any investors. If it isn’t making money or is constantly operating on the edge, no one will want to lend it any money. What does all this have to do with keeping your lights on? If the Clean Air Act passes as it’s currently written, a number of older (coal) plants won’t be able to meet
VOLUME VOLUME 52 // NO. NO. 42
the new standard. In fact, several large utilities are already planning to shut down older coal plants in anticipation of the new legislation—due to the cost of bringing them into compliance. What then? Don’t bet on wind or solar to match the power generated by the base-loaded facilities we shut down.
Energy conservation will only cover a portion of the gap between our electricity supply and demand. Utility companies must look out for their investors. They can’t run the risk of building new coal plants only to find out they don’t meet the “new” standards. Nor can they invest in nuclear plants without some government loan guarantee to assist in the high cost of construction. And don’t forget, plans for new coal- and nuclear-powered plants can’t go anywhere without the need—and high costs— to deal with various special-interest groups that dot the power-industry landscape. The reality Energy conservation will only cover a portion of the gap between our electricity supply and demand. The remaining portion must come from base-loaded power plants. Proactive utilities are building gas-fired combined-cycle plants to meet customer demands. It’s a calculated risk, given the spike in natural gas prices in the late ’90s. When all is said and done, however, it is the path of least resistance. UM Reference: U.S.-Canada Power System Outage Task Force—Causes of the August 14th Blackout Bill Livoti is a fluid power and power industry engineer with Baldor Electric Company. Telephone: (864) 281-2118; e-mail: wclivoti@baldor.com.
UTILITIES UTILITIES MANAGER MANAGER || 27 27
UM UTILITIES MANAGER Part I of II…
Making Energy Savings Happen Through People ©DMITRIY MEINIKOV - FOTOLIA.COM
Energy-efficiency isn’t just about technology. If your organization hasn’t adjusted its culture to help raise and sustain the energy consciousness of your human assets, now’s the time to do it. Henry Molise, P.E. HCM Energy Consulting, LLC
F
requently, even successful world-class organizations have difficulty conserving energy and cutting the cost of utilities. This is despite the availability of more costeffective energy-management technologies than ever before. Some may be satisfied with implementing a few immediate, finite savings—proverbial “low-hanging fruit.” Such a strategy often captures only part of the potential savings for existing facilities, without ensuring that future operations will be energy-efficient. For those that wish to achieve energy savings over the long haul, modest adjustments in the culture of an organization can motivate people toward continuous improvement.
The most successful—sustained—energy-management system is developed as a business process within the organization. Most employees really want to help cut costs and reduce energy-related emissions; they’ll do just that if provided with the needed direction, training, resources, incentives, recognition and rewards. It may take a few years for energy-management to fully gain momentum in an organization, but it’s worth the effort for both the bottom line and the environment. In this first installment of a two-part series, the focus is on a framework of business principles for initiating and administering an organizational energy-management system. The second installment (coming in a special UTILITIES MANAGER follow-up in the December issue of MT) will discuss actual energysaving implementation strategies. 28 | utilities manager
Volume 5 / no. 4
UTILITIES MANAGER UM
Understanding the energy perspective of the site manager To understand the challenge of achieving energy savings, consider the priorities of a site manager—which often can be summed up as follows: n Get the product or service out the door. n Have the work performed safely. n Comply with laws and regulations. n Keep facilities maintained for reliability and longevity. n Minimize costs. In the above list, energy-management would fall into the fifth priority. A further challenge is that energy costs are often a small percentage of the total expense budget. Yet most site managers and their bosses would welcome a reduction in energy costs and a reduction in environmental impact— as long as these reductions are consistent with financial and other organizational objectives. Energy policy: Support from the top The most successful approach to an energy-management culture is to begin from the top down—in the form of a commitment from the top. Thus, the first action to develop the needed organizational culture is development of an energy policy that is endorsed by senior management. The energy policy needs to be only a short, simple statement of what is to be achieved from a broad perspective, and it can be drafted at almost any level of the organization. A few paragraphs can be written to express that the organization, with respect to energy-efficiency, will have a policy to: n Reduce the life-cycle costs of energy and utilities. n Reduce energy-related emissions, on-site and off-site.
Senior management will also have a follow-up role in recognizing and praising energy-related achievements. Without the up-front commitment of senior management, progress in energy reduction and the associated cost savings is likely to be limited and slow. Steering the effort Once an energy policy is in place, the use of a steering team is the best way to develop a strategy for implementation of the policy. Ideally, the team should represent a cross-section of the organization in terms of: 1) function and/or division; 2) geography; 3) specialists in engineering, operations and maintenance; and 4) ad-hoc representatives of procurement, finance, environmental affairs and communications. The team can be led best by a person designated as the organization’s “energy champion” or energy manager. The steering team should make use of the ideas of others wherever possible, such as: n The U.S. Environmental Protection Agency (EPA)/Dept. of Energy (DOE) Energy Star and state energy programs n Trade organizations n Your local utility suppliers’ Websites n “Sister” facilities within the same organization n Competitors or comparable outside organizations n Consultants Even in businesses where competitors would never share production technology, research technology or other trade secrets, they often are very willing to share information on how to conserve energy and utilities. Goal development Measurable goals need to be developed by the steering team. The improvements can be expressed in terms of:
n Be a good citizen in conserving resources. n Enhance public image.
n Percentage reductions or absolute reductions—These include units of energy usage, costs and related emissions.
After internal reviews, endorsement and internal publication of the energy policy needs to come from as high in the organization as possible (preferably from the chief executive officer).
n Public-relations image and community relations—These include favorable news coverage and public recognition by community leaders.
REMEMBER: The greatest chance of success will occur when the regular performance reviews of all levels of management include demonstrated progress toward the energy policy. Volume 5 / no. 4
n Local, regional or national awards In the setting of goals, the steering team needs to address this question: What counts besides energy? Other potential measurable savings from energy-management include: utilities manager | 29
UM UTILITIES MANAGER
n Savings in utilities-system equipment procurement. Examples include: ◆ Potential capital-spending avoidance or postponement
for an additional air compressor, pump, chiller, boiler, electric substation, air handler, piping or duct system ◆ Capital savings from bulk-purchasing of energy-efficient equipment
n Total energy usage, all expressed in a single unit (e.g., BTUs, Joules, kilocalories). (Note that the energy represented by electricity can be expressed in two ways—as delivered [3413 BTU/kWhr], or as produced [often about 10,000 BTU/ kWhr]. The off-site impact is expressed as the latter of the two.)
n Water- and sewer-use savings
n On-site utilities production (e.g., steam, compressed air, chilled water)
n Energy-related maintenance and safety improvements
Demand-side information to keep includes:
n Increased equipment production capacity and reliability
n Sub-meter data
n Improved human productivity due to increased levels of comfort
n Energy usage per unit (e.g., BTU/square ft., BTU per unit of product, energy input per unit of output)
Counting these additional related savings will substantially increase peoples’ interest in managing energy.
n Results of energy and cost-saving actions taken (metered or calculated), to identify progress toward the goals (including savings per unit of time [e.g., monthly and annually] expressed as energy units, cost and emission reductions [tons carbon dioxide])
Goal-related measurements The two basic types of energy-saving-initiative measurements are: 1) metered; and 2) calculated. In a perfect world, all energy savings would be metered. In reality, the cost of metering the exact savings is most often not justified by the accuracy gained. Therefore, engineering calculations must often be accepted to determine savings in lieu of metering. In calculating annual savings—or attempting to meter savings—there’s often difficulty in making adjustments for effects of year-to-year production activity, weather-related energy usage and/or other variables. The simplest goal is, perhaps, expressed as an annual percentage reduction, whereby the numerator is the metered or calculated savings for all initiatives implemented in the present year, and the denominator is the total energy usage or cost from the previous year. Reporting the results Whatever measurement system is developed, it must reflect the organization’s energy policy and goals. For operations with multiple sites or units, a uniform reporting system is necessary. Results need to be kept in a spreadsheet format that is capable of statistical analysis. Assistance of specialists may be needed—for example, in calculating emission reductions related to energy conservation. If at all possible, the results should be available for viewing by anyone in the organization, such as on an Intranet Website. Supply-side information that needs to be kept by time period includes: n Purchased utility usage and cost (e.g., electricity, natural gas, water, sewage-treatment services) 30 | utilities manager
Benchmarking performance Where possible, comparison of a site’s energy performance should be made against similar facilities. Seek indices that compare unit values, such as BTU/square foot, BTU per unit of production or input versus output. In addition, perform benchmarking of unit energy and utility costs if available. Weatherrelated adjustments may be made using local degree-day data. A site’s performance can be compared with other facilities within the same organization—or from outside the organization. The most confidence in the results of benchmarking comes when more than one benchmark measurement is used. Use the findings from benchmarking to prioritize future efforts. Financial criteria The financial specialist is a key ally in energy management: He/she must define the approved hurdle rate for capital investments in energy reductions. The hurdle rate may be expressed in terms of payback period or rate of return. Energy investments can typically use the organization’s normal process for capital and expense appropriations, for which the financial specialist is an advisor. REMEMBER: More energy-saving initiatives will be implemented where projects with returns not quite meeting the hurdle rate can be packaged together with projects that surpass the hurdle rate. This results in the largest possible package of savings, while still meeting the required hurdle rate. Continued on page 32 Volume 5 / no. 4
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UM UTILITIES MANAGER
Furthermore, an understanding is needed as to whether non-monetary factors can be used to help justify energyimprovement projects, such as associated improved reliability, safety or public image. Energy-improvement projects tend to have lower risk than most other investments, and therefore may justify a less stringent hurdle rate than some other projects. For example, compare the risk of return on an energy-savings project with the risk of investing in the research and development of a new product, building facilities to manufacture it and then hoping that customers will buy it. Too many times, systems that use large amounts of energy are specified and selected based on capital cost only. Design and selection decisions for such facilities need to be made based on life-cycle cost (LCC), rather than first cost. Consider the total cost of ownership (TCO) of a boiler, chiller, air compressor, pump or HVAC system—or, perhaps, even an entire building or production process. Frequently, less than 10 to 20% of the TCO is represented by the capital cost, while more than 80 to 90% of cost is for energy expenses. The lowest LCC alternative is not always the one with the lowest capital cost. The most common reason for making decisions
based only on capital cost(s) is that it takes more effort and understanding to calculate LCC than it does to identify capital costs. The financial specialist can assist engineers and managers with LCC calculation methods. The extra effort is well worth it—and can literally help pay dividends. A framework for success In summary, the framework described here in Part I of this series, is for initiating and administering energy management as a good business practice. This can usually be accomplished consistent with the long-standing objectives of the organization, beginning with an energy policy. Look for the concluding installment, Part II, in December, when we will discuss implementation and follow-up strategies for success. MT Henry Molise is president of HCM Energy Consulting, LLC. A registered professional engineer in Michigan, he has 30 years of experience as a corporate energy manager and environmental engineer in the pharmaceutical industry. Molise is past chairman of the Energy Committee of the Michigan Manufacturers Association. E-mail: hcmolise@juno.com.
UM WHAT’S HOT
Versatile, Portable Heat Pump For Low-Ambient-Temp Applications
A KRYTOX® FLUORINATED LUBRICANTS Krytox® Fluorinated Greases and Oils are: Chemically inert. Insoluble in common solvents. Thermally stable. Wide temperature range (-103º to 800º F). Nonflammable. Nontoxic. Oxygen Compatible – safe for oxygen service. Low Vapor Pressure. Low Outgassing. Useful in Vacuum Systems. Krytox® offers Extreme Pressure, Anticorrosion and Antiwear properties. Contains no silicones or hydrocarbons. Mil-spec, Aerospace and Food Grades available! 203 743-4447 or 800 992-2424 www.miller-stephenson.com
MILLER-STEPHENSON CHEMICAL CO. For more info, enter 74 at www.MT-freeinfo.com
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tlas Sales & Rentals is offering an updated portable heat pump that delivers 1.8 tons (21,240 BTU/hr) of heating capacity and 1.5 tons (17,700 BTU/ hr) of cooling. The company notes that the SHAC Model 1811 provides supplemental heating in environments with ambient temperatures of 45 F, unlike other units that may need higher temperatures to operate. The small-footprint product (20.25” wide x 42” deep x 42.5” high) runs on a 115-volt/20-amp circuit and can switch over from heating to cooling at the touch of a button. It features an indoor/outdoor condenser that provides maximum efficiency through a balanced condenser air pressure; a high-lift condensate pump; independent evaporator and condenser motors; and auto restart in the event of power failure.
Atlas Sales & Rentals, Inc. Torrance, CA For more info, enter 261 at www.MT-freeinfo.com Volume 5 / no. 4
REPRINTS: Design your marketing Take Advantage of Your Editorial Exposure Reprints create a powerful marketing tool of instant credibility and endorsement. Use this resource to amplify exposure of a product, company, or service that has been featured in this publication. Customize your reprints to create a sharp message for your media kits, conference materials, direct mail pieces, and more. Profit today from this costeffective method of personalizing your marketing content.
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PROCESS IMPROVEMENTS This is a follow-up to an NSK-supplied article on three other reasons for bearing failure— creep, flaking and smearing—that ran in the November 2009 issue of MT.
More
3 Reasons For Premature Bearing Failure (And How To Avoid Them) Listening to what your failed bearings are telling you today can help minimize problems tomorrow. Special To MT From NSK
Y
ou’ve heard it before: Every failed bearing tells a story—one that can help you identify machinery problems, maintenance issues, bearing-selection errors, installation problems and more. Are you listening?
Fig. 1. What seizure looks like
34 | MAINTENANCE TECHNOLOGY
OCTOBER 2010
PROCESS IMPROVEMENTS
Fig. 2. What cage damage looks like
Premature bearing failure is costly, both in terms of component replacement and unscheduled downtime. Fortunately, many types of bearing damage can be spotted, assessed and addressed—before failure occurs. The ability to proactively identify issues that affect bearing performance and wear is key to ensuring that your facility stays up and running as required. Understanding types of bearing damage, along with their causes and solutions, can help boost reliability and cut maintenance. A previous article (“3 Reasons for Premature Bearing Failure,” pgs. 14-16, LMT, September/October 2009) discussed creep, flaking and smearing. In this followup, the focus is on three more killers: seizure, cage damage and fretting. #1. Seizure When sudden overheating occurs during rotation, bearings can become discolored. The raceway rings, rolling elements and cage begin to soften, melting and becoming deformed as damage accumulates.
Possible causes… ■ Poor lubrication ■ Excessive load ■ Excessive rotational speed ■ Excessively small internal clearance ■ Entry of water and debris ■ Poor precision of shaft and housing, excessive shaft bending Solutions… ■ Review lubricant and lubrication method. ■ Investigate suitability of bearing type. ■ Study the preload, bearing clearance and fitting.
WHAT TO LOOK FOR: Discolored bearing elements and melting of the roller surface, resulting in adhesion of worn particles from the cage
■ Improve the sealing mechanism and mounting method. ■ Check precision of the shaft and housing.
Being proactive in identifying issues that affect bearing performance and wear is key to ensuring that your facility stays up and running as required. OCTOBER 2010
MT-ONLINE.COM | 35
PROCESS IMPROVEMENTS
Fig. 3. What fretting looks like
#2. Cage damage Several types of cage damage can affect the life of a bearing. These include fracture of the cage pillar, deformation of the side face and wear of pocket or guide surfaces.
WHAT TO LOOK FOR: Fractured cage
■ Poor handling ■ Large moment load
Possible causes… ■ Shock or large vibration ■ Poor mounting or bearing misalignment
■ Excessive rotation speed, sudden acceleration and deceleration ■ Poor lubrication ■ Rise in temperature
4-20 mA vibration monitoring Continuous monitoring of critical assets and balance of plant 4-20 mA data is a standard input for a PLC, DCS or SCADA system Ideal for real-time monitoring, alarming and simplified analysis Makes distributed condition monitoring cost effective and scalable Wilcoxon Research Inc 20511 Seneca Meadows Parkway Germantown, MD 20876 USA Tel: 301 330 8811 Fax: 301 330 8873 Email: wilcoxon@meggitt.com
Solutions… ■ Review mounting method. ■ Reduce vibration. ■ Re-select cage type, lubrication method and lubricant. ■ Assess temperature, rotation and load conditions. #3. Fretting Fretting is the specific type of wear that occurs as a result of repeated sliding between two surfaces. It occurs at the fitting surface and the contact area between the raceway ring and rolling elements.
www.wilcoxon.com www.meggitt.com
For more info, enter 76 at www.MT-freeinfo.com cmyk
36 | MAINTENANCE TECHNOLOGY
OCTOBER 2010
PROCESS IMPROVEMENTS
When a bearing is damaged, it doesn’t affect just a single piece of equipment: It can cause entire operations to grind to a halt. No facility or machinery is immune. WHAT TO LOOK FOR: Reddish-brown or black worn particles Possible causes (of fretting)… ■ Poor lubrication ■ Vibration with a small amplitude ■ Insufficient interference Solutions…
■ Apply a preload.
It’s like having a night watchman. 24 hours a day.
■ Check the interference fit.
Rockwell Automation Services &
■ Use appropriate lubrication for bearing type and application.
Support. Providing comprehensive
■ Apply a film of lubricant to the fitting surface. Remember this When a bearing is damaged, it doesn’t affect just a single piece of equipment: it can cause entire operations to grind to a halt. No facility or machinery is immune to unexpected bearing failure. When this type of failure occurs, the right response is crucial. While your immediate concern may be to install a replacement component, a proper assessment of the bearing damage should follow in order to pinpoint its actual cause. Failure to find the root cause of the problem increases the risk of unnecessary repeated failures, downtime and expense. Proactive bearing-failure analysis prolongs bearing life, improves productivity and reduces maintenance costs. Take the time to identify and resolve issues around bearing selection, mounting, lubrication and application. When additional technical expertise is needed, ask an industrial specialist from the manufacturer to perform a failure analysis and recommend the most appropriate solution. MT
automation services 24/7. Global support. Local address. Peace of mind. For information, visit RockwellAutomation.com/ services
To learn about the many NSK products designed to withstand demanding operating conditions, as well as a wealth of resources, tools and services to help you achieve maximum uptime, please visit www.thinknsk.com. For more info, enter 04 at www.MT-freeinfo.com
Copyright © 2010 Rockwell Automation, Inc. All Rights Reserved. AD RS2174-R1/3P
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MT-ONLINE.COM | 37 1007833-2 AD RS2175-R1-3P.indd 1
7/15/10 3:20:38 PM
THE GREEN EDGE
Solar-Powered Snackmaker Adds More Sun to Mix Energy-efficiency and sustainability have long been on Frito-Lay’s front burner, and that appears to be where they’ll stay.*
P
epsiCo’s Frito-Lay North America plant in Modesto, CA, has strengthened its solar-based sustainability efforts with the installation of an innovative cylindrical solar photovoltaic (PV) system on the facility’s rooftop. The project consists of some 5600 panels that cover 247,000 square feet. The system’s installed capacity of one megawatt will reduce the site’s electricity use from outside sources at peak production by 25%, based on its year-ago electricity consumption rate. It also is expected to reduce CO2 emissions by 1000 metric tons per year. Overseen by solar-system designer/ manufacturer Solyndra, the project took eight weeks. According to this California-based company, the new lightweight, modular, thin-film non-
penetrating system delivers the lowestcost electricity possible for typical low-slope rooftops. This particular system is the second solar project at the Modesto plant—which makes a number of snack products, including more than 145,000 bags per day of the company’s multigrain SunChips. In 2008, the facility installed a five-acre solar concentrator field made up of 54,000 square feet of concave mirrors. The energy captured by the system’s 384 solar collectors generates steam that helps heat the cooking oil for the SunChips manufacturing process. Energy-efficient, sustainable initiatives are nothing new at the Modesto site. Since 2000, its resource conservation program has reduced the facility’s use of electricity by 19%, its
natural gas consumption by 30% and its water usage by 44% per pound of manufactured product. Other recent sustainable efforts at Frito-Lay include switching to a 100% compostable bag for SunChips. Since March of this year, these bags have been made of a plant-based material that fully biodegrades within 14 weeks when left in a hot, active compost bin. The Modesto plant also has achieved LEED® Existing Buildings Gold certification from the U.S. Green Building Council (USGBC) and is verified by the Green Building Certification Institute (GBCI). *To learn more about steps Frito-Lay is taking to a healthier planet, go to: www.fritolay.com/our-planet/steps-toa-healthier-planet.html
DOES YOUR COMPANY HAVE A GREEN EDGE? E-mail your product and service news to: gpietras@atpnetwork.com For information on advertising in the Green Edge section, contact KATHY JAROS at: Phone: (847) 382-8100 ext. 117 / Fax: (847) 304-8603 / E-mail: kjaros@atpnetwork.com
38 |
MAINTENANCE TECHNOLOGY
OCTOBER 2010
THE GREEN EDGE
New NEMA-Approved, Premium Efficiency Transformers
S
chneider’s Square D Premium 30 Energy Efficient Transformers are designed to help reduce lost energy and exceed minimum efficiency-program standards while delivering high performance and quality. These new low-voltage products comply with the National Electrical Manufacturers Association’s (NEMA’s) recently introduced Premium Efficiency Transformer Program that calls for 30% fewer losses than existing Department of Energy (DOE) regulations and encourages utilities, commercial buildings and industrial plants to incorporate high-efficiency electrical transformers into their operations. The line includes distribution transformers, non-linear transformers and harmonic-mitigating transformers that can reduce power consumption regardless of the loading profile. Schneider Electric Palatine, IL
For more info, enter 31 at www.MT-freeinfo.com
Wind-Turbine Lube System
T
he Timken® Wind Energy Lubrication System supplies wind-turbine main shaft bearings with continuous lubrication via a single pump working with either a seriesprogressive or injectorbased form delivery. The HP (series-progressive) system uses a conventional method for the pressure-purging of old grease. The LP (injectorbased) system has an active-purge system to remove old grease without internal bearing-cavity pressure. Both systems deliver up to NLGI No. 2 grease. Both feature an 8-liter standard grease reservoir for one-time yearly maintenance, with stirring paddle and wiper to minimize air pockets and grease separation. The Timken Co. Canton, OH For more info, enter 33 at www.MT-freeinfo.com
Advanced Electronic Boiler Control
S
pirax Sarco has introduced a line of Electronic Steam Boiler Controllers that incorporate infrared, “inter-controller” communication capabilities and remote RS485 “read-only” access to settings and parameters. A unique enclosure design allows chassis, panel or DIN rail mounting. Commissioning can be carried out using only the front panel keypad and user-friendly software menu. The new controllers’ LC3050/LP30 low-level alarm system has been approved for SIL2 and SIL3 applications. Spirax Sarco, Inc. Blythewood, SC
For more info, enter 32 at www.MT-freeinfo.com For more info, enter 78 at www.MT-freeinfo.com
OCTOBER 2010
MT-online.com | 39
SUPPLY CHAIN LINKS Sensors, switches and more…
A Total Source For Industries Everywhere
I
MI Sensors, a division of PCB Piezotronics, Inc. (see below), is dedicated to addressing the machinery vibration sensing needs for condition-monitoring, predictive-maintenance and process-control requirements across industry. The company is one of the world’s most recognized manufacturers of industrial accelerometers, 4-20 mA transmitters and switches for vibration monitoring and predictive-maintenance applications. All IMI sensors and vibration switches are designed to withstand the rigors of harsh industrial environments. Included among these products are sensors that interface directly with vibration data collectors and analysis equipment, as well as with process monitoring equipment, PLC, DCS, alarm and SCADA systems. IMI proudly states that 100% of its products are made in the USA and backed by a Total Customer Satisfaction policy. Virtually all IMI Sensor products are certified for use in hazardous areas through CSA and ATEX. That includes the company’s Series 686B USB Programmable Smart Vibration Switch (shown here) that recently received ATEX approval. This “smart” product is designed for 24/7 continuous protection of cooling towers, fin fans, pumps, HVAC systems and other critical machinery operated in hazardous areas. IMI Sensors Depew, NY For more info, enter 34 at www.MT-freeinfo.com
PCB Piezotronics is a global leader in the design and manufacture of force, torque, load, strain, pressure, acoustic and vibration sensors, as well as the pioneer of ICP® technology. This instrumentation is used for test, measurement, monitoring and feedback-control requirements in automotive, aerospace, industrial, R&D, military, educational, commercial and OEM applications.
40 |
MAINTENANCE TECHNOLOGY
The Series 686B Programmable Smart Vibration Switch is hermetically sealed and mounts with a single stud, like a sensor. It includes an embedded piezoelectric accelerometer for accurate measurement; monitors vibration velocity for more consistent results; and, according to the company, provides the type of reliability not found in mechanical switches. Among other things, the product offers a remote reset capability and USB-programmable threshold and time delays to avoid false trips. A user-friendly, drop-in retrofit for most popular mechanical vibration switches, the Series 686B only requires two wires and can replace legacy units without the need for additional cable runs. OCTOBER 2010
SOLUTION SPOTLIGHT
Mobile ESP Test Unit Reduces Plant Downtime It offers electrostatic precipitator (ESP) operators a convenient option for on-site testing and optimization of collecting efficiency.
E
lectrostatic precipitators (ESP) filter exhaust gases emitted from industrial, utility power and refuse incineration plants, and collect and remove pollutants such as dust, soot and aerosols. Changes in operational conditions or new emissions regulations can require an increase in ESP collecting efficiency. To comply, plant operators can either mechanically expand the precipitator itself or increase performance by installing new control equipment. The process, however, can be more efficient. Siemens Industry, Inc., has introduced a mobile test unit for electrostatic precipitators to the U.S. market. Now, plant operators can gather information about the status of an ESP and its optimization potential by installing a temporary controls upgrade. The new container-based system helps maximize uptime and reduce testing costs by giving plant operators information about the status of a connected ESP— while also providing data for performance improvement and energy savings. Easy transport and quick installation eliminate the need for complete precipitator shutdown. On the outside, this testing unit looks like a standard 20-ft.-long shipping container. Looking inside, though, it’s an entirely different story. OCTOBER 2010
The container houses a high-voltage mid-frequency power supply and all the control- and optimization-systems necessary to operate one ESP field. The pre-installed equipment includes an insulated gate bipolar transistor (IGBT) mid-frequency inverter, a high-voltage transformer rectifier, a PC with monitoring and optimization software and all required cables for conducting pre-installed test procedures. Advanced power electronics and proprietary software optimize energy usage and reduce harmful plant emissions. All that’s needed are some minor adjustments to adapt the unit to specific local conditions. Setup and commissioning of the Siemens mobile ESP test unit generally takes just one business day—that’s roughly a third of the time required to construct a test installation on-site from the ground up. More important is the fact that this containerized system can be installed with little or no interruptions to a facility’s ESP operation. A typical test installation duration is 30 days. Siemens Industry, Inc. Atlanta, GA For more info, enter 35 at www.MT-freeinfo.com MT-ONLINE.COM | 41
CAPACITY ASSURANCE MARKETPLACE
Measurement Tooling Alignment
S
eiffert Industrial’s FixturLaser XA Geometric Alignment System enhances measurement tooling for straightness, flatness and bore position with technologies such as touch-screen navigation, Bluetooth wireless communication and live position data while making alignment adjustments. According to the company, the system can provide better accuracy while reducing setup and measurement time by 60-80%. The user instantly sees a display of the measured object’s position, along with color-coded measured points related to alignment tolerances.
Seiffert Industrial, Inc. Richardson, TX For more info, enter 36 at www.MT-freeinfo.com
Floor-Marking Products
B
rady’s Toughstripe™ Floor Marking product line includes industrial floor tape, corner marks, die-cut shapes and floor signs. All feature a low-profile design, durable polyester material and a one-man dispensing system. The tape’s stiff material and a liner prevent it from stretching, and reduce the chance of wrinkles and wavy, uneven lines. Floors can be prepped with common facility cleansers; no special preparation is required. Brady Corp. Milwaukee, WI For more info, enter 37 at www.MT-freeinfo.com
High-Speed, Stand-Alone Data-Logger Modules
T
he LGR-5320 Series from Measurement Computing are high-speed, stand-alone data-loggers for analog and digital signals. Each module offers 16 analog inputs, 16 industrial digital inputs (up to 30V), one single Form C relay (0.5 A) digital output for triggering/ alarming and four counter/encoder inputs. All inputs are sampled synchronously, with data stored on the included 4 GB SD memory card. DAQLog is included with each module for easy, spreadsheet-style set-up, configuration and data-viewing capabilities. Measurement Computing Corp. Norton, MA
For more info, enter 79 at www.MT-freeinfo.com 74 at www.MT-freeinfo.com For more info, enter 77
42 | MAINTENANCE TECHNOLOGY
For more info, enter 38 at www.MT-freeinfo.com OCTOBER 2010
CAPACITY ASSURANCE MARKETPLACE
Personal Multi-Gas Detector
C
rowcon has added a toxic gas sensor for ammonia to its Tetra:3 (T3) personal multi-gas detector. Its range also includes flammable gases, oxygen, hydrogen sulfide, carbon dioxide, ozone, sulfur dioxide and carbon monoxide. It can detect up to four gases at once, and provides over 18 hours of continuous operation from a single charge. The unit also provides a 30-day countdown warning of the calibration due date.
Dust-Collector Filter
T
he HemiPleatŽ Nano dust-collector filter from Camfil Farr Air Pollution Control offers high filtration efficiencies, long service life and low pressure drop, leading to energy savings and enhanced performance. A thick layer of durable nano fibers is applied to the filter’s surface, yielding a MERV 14 efficiency rating. The HemiPleat Nano media is strong enough to handle dust challenges such as laser and plasma cutting, welding and thermal spray, as well as pulsecleaning in all types of dry-dust applications.
Crowcon Detection Instruments, Ltd. A Halma Co. Erlanger, KY For more info, enter 41 at www.MT-freeinfo.com
Camfil Farr APC Jonesboro, AR For more info, enter 39 at www.MT-freeinfo.com
Gauge Sensor Fits Tight Spaces
T
he GS-4630 linear gauge sensor from Ono Sokki Technology measures dimensions, thickness, displacement, height, depth, flatness and more. Its linear glass scale technology maintains consistent accuracy throughout its entire range, according to the company. The slim sensor was built to fit tight quarters, including inside of machinery with limited access space. A waterproof seal and a dust bellow provide extra protection in harsh environments. Ono Sokki Technology, Inc. Addison, IL For more info, enter 40 at www.MT-freeinfo.com
OCTOBER 2010
For more info, enter 80 at www.MT-freeinfo.com MT-ONLINE.COM | 43
CAPACITY ASSURANCE MARKETPLACE
Retaining Rings, Wave Springs For Bearing Retention
R
otor Clip’s retaining rings and wave springs are designed to provide a cost-saving method to pre-load and retain bearings. The radial wall of the multi-turn wave spring offers a wide supporting surface, and the bearing load in the waves guarantees 100% axial transmission of the load. In place of a cover plate, the entire assembly can be held in place using a two-turn spiral retaining ring that offers a 360° closed surface of contact for the wave spring. Rotor Clip Company, Inc. Somerset, NJ
Ambient-Condition Monitor
T
esto’s hygrometer models 622 and 623 are designed to monitor temperature, humidity and barometric pressure in all types of facilities. Large, easy-to-read displays show information on-site, and a histogram of data for up to 12 weeks, including date and time, can be recalled without a PC or accessories. Optional calibration software allows for adjustment using existing reference standards. Testo, Inc. Sparta, NJ
For more info, enter 42 at www.MT-freeinfo.com
For more info, enter 43 at www.MT-freeinfo.com
Advanced Motor-Protection Relay MACHINING WITHOUT COOLANT The Cold Gun Aircoolant System™ increases tool life, tolerances and production rates by eliminating heat build-up. The quiet Cold Gun produces cold air at 20°F from compressed air to extend tool life, stop burning, and reduce wheel loading. No moving parts assures maintenance-free operation. The Cold Gun is ideal for dry machining or to replace messy mist systems. Applications include milling, tool and carbide grinding, drill sharpening, plastics machining. (800) 903-9247. E-mail: techelp@exair.com. www.exair.com/48/199.htm
EXAIR CORPORATION For more info, enter 81 at www.MT-freeinfo.com
44 | MAINTENANCE TECHNOLOGY
L
ittelfuse’s PGR-6300 Motor Protection System, part of the company’s comprehensive POWR-GARD® product line, offers multi-function protection, including dynamic thermal modeling, metering and overcurrent reduction setting for maintenance, for 3-phase low- and medium-voltage, medium- to high-horsepower asynchronous motors. These types of units are used in virtually all industries, including processing, manufacturing, petroleum, chemical, mining and water/wastewater treatment. Motor starter control functionality is programmable for all common starter types. The modular PGR-6300 consists of an operator interface (pictured here) and a control unit (not pictured). Littelfuse, Inc. Chicago, IL For more info, enter 44 at www.MT-freeinfo.com OCTOBER 2010
CAPACITY ASSURANCE MARKETPLACE
Laser Level For Oiler Installation
T
rico’s Opto Laser Level is designed to make installation of the company’s Opto-Matic Constant Level Oiler quicker and more accurate than in the past. No measuring, leveling or marking is needed. Made of nickel-plated die-cast aluminum to withstand harsh environments, it automatically adjusts oil-levels, verifies existing oil-level set-ups and can be used on both existing and new oilers.
ptional zero-maintenance sealed bearings for Schmidt Offset couplings from Zero-Max feature needle bearings with internal micro-poly lubrication, eliminating the need for coupling lubrication. The absence of lube fittings makes for a cleaner coupling setup. The couplings are designed to handle high amounts of parallel offset up to 17” and torque capacities up to 459,000 in-lbs.
Trico Corp. Pewaukee, WI
Zero-Max, Inc. Plymouth, MN
For more info, enter 45 at www.MT-freeinfo.com
Zero-Maintenance Bearings
O
For more info, enter 46 at www.MT-freeinfo.com
7-Step Best Practice Lubrication Program Professional Self-Directed Implementation ToolKit
Tap into your Liquid Gold for less than $20 per day!* Whether you’re looking to increase asset utilization and maintainability, reduce contamination, downtime, energy consumption and/or your carbon footprint, or simply cut your maintenance and operating costs, you’re ready for a 7-Step Best Practice lubrication program! For more information on this “expert in a box” approach to successful lubrication programs, contact ENGTECH Industries at 519.469.9173 or email info@engtechindustries.com * Amortized over one year
For more info, enter 82 at www.MT-freeinfo.com
OCTOBER 2010
MT-ONLINE.COM | 45
INFORMATION HIGHWAY For rate information on advertising in the Information Highway Section Contact your Sales Rep or JERRY PRESTON at: Phone: (480) 396-9585 / E-mail: jpreston@atpnetwork.com Web Spotlight: SIEMENS
PIP is a consortium of process plant owners and engineering construction contractors harmonizing member’s internal standards for design, procurement, construction, and maintenance into industry-wide Practices. PIP has published over 450 Practices. A current listing of published Practices is available on the PIP website at: http://pip.org/practices/index.asp. For more info, enter 84 at www.MT-freeinfo.com www.pip.org
SIEMENS - How can maintenance costs be cut, while increasing availability? With our SPPA-D3000 Diagnostic Suite, “preventive” maintenance can become reality. Whether using the “Machinery Protection,” “Machinery Analysis,” “Plant Monitor” or “Combustion Dynamics Monitoring” solution, you can predict where and when your system might fail, allowing you to avoid unscheduled outages. For more info, enter 83 at www.MT-freeinfo.com www.siemens.com/energy/controls
LUDECA, INC. - Preventive, Predictive and Corrective Maintenance Solutions including laser shaft alignment, pulley alignment, bore alignment, straightness and flatness measurement, monitoring of thermal growth, online condition monitoring, vibration analysis and balancing equipment as well as software, services and training. For more info, enter 85 at www.MT-freeinfo.com www.ludeca.com
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ATP List Services
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lisalineal@lineal.com www.lineal.com Electromechanical • Electronic Electrical Service & Systems Specialists
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Customized, Targeted Lists For Your Marketing Needs www.atplists.com Contact: Ellen Sandkam 847-382-8100 x110 800-223-3423 x110 info@atplists.com esandkam@atplists.com 1300 S. Grove Ave., Suite 105, Barrington, IL 60010
For rate information on advertising in the Classified Section Contact your Sales Rep or JERRY PRESTON at: Phone: (480) 396-9585 e-mail: jpreston@atpnetwork.com
OCTOBER 2010
Index ADVERTISER
20 YEARS
M A I NM TA EI NNT EAN N A NCC EE
TECHNOLOGY TECHNOLOGY
®
®
October 2010 Volume 23, No. 10 •
WEB
RS #
PAGE #
Baldor Electric Company..................................... www.baldor.com/coolingtower................73.........................31 Brady Worldwide, Inc. .......................................... www.bradyid.com/toughstripe................62...........................1 Chromalox.............................................................. www.chromalox.com.................................68.........................19 CRC Industries....................................................... www.crcindustries.com/ei.........................69.........................20 Cybermetrics Corp................................................ www.cybermetrics.com.............................64...........................5 Engtech Industries Inc. ......................................... www.engtechindustries.com ....................82.........................45 Exair Corporation ................................................. www.exair.com/48/199 ..............................81.........................44 FLIR Commercial Systems, Inc........................... www.flir.com ...............................................63...........................2 Fluke......................................................................... www.fluke.com/whitepaper .....................67.........................17 Fluke......................................................................... www.fluke.com/innovation......................71.........................25 FosteReprints.......................................................... www.fostereprints.com..............................75.........................33 Inpro/Seal................................................................ www.inpro-seal.com ..................................87....................... BC Littelfuse .................................................................. www.littelfuse.com .....................................86......................IBC Ludeca Inc............................................................... www.ludeca.com.........................................84.........................46 MARTS- Applied Technology............................. www.martsconference.com ......................72.........................26 Miller-Stephenson Chemical Co. ....................... www.miller-stephenson.com ...................74.........................32 Exxon Mobil (Mobil Industrial Lubricants)........ www.mobilindustrial.com ........................70.........................21 Process Industry Practices.................................... www.pip.org ................................................79.........................42 Rockwell Automation........................................... www.rockwellautomation.com................77.........................37 Schneider Electric .................................................. www.sereply.com ........................................61......................IFC Siemens AG ............................................................ www.siemens.com/energy/controls ........65,83 ................7,46 Society of Manufacturing Engineers (SME) .... www.fabtechexpo.com ..............................66.........................11 Strategic Work Systems, Inc................................. www.swspitcrew.com.................................80.........................43 VibrAlign, Inc. ........................................................ www.vibralign.com ....................................78.........................39 Wilcoxon Research ................................................ www.wilcoxon.com....................................76.........................36 Access MT-freeinfo.com and enter the reader service number of the product in which you are interested, or you can search even deeper and link directly to the advertiser’s Website.
Submissions Policy: M T gladly welcomes submissions. By sending us your submission, unless otherwise negotiated in writing with our editor(s), you grant Applied Technology Publications, Inc., permission, by an irrevocable license, to edit, reproduce, distribute, publish, and adapt your submission in any medium, including via Internet, on multiple occasions. You are, of course, free to publish your submission yourself or to allow others to republish your submission. Submissions will not be returned. Reproduction of Materials: Materials produced by Maintenance Technology may not be reproduced in any form for any purpose without permission. For Reprints: Contact the publisher, Bill Kiesel - (847) 382-8100 ext. 116. Statement of Ownership, Management, and Circulation (All Periodicals Publications Except Requester Publications) 1. Publication Title
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43,540 7,944
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331 8,275 51,815 505 52,320 84.03%
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OCTOBER 2010
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YEARS
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87
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VIEWPOINT Burt Hurlock, CEO, Azima DLI
Maintenance And Innovation: It’s Not An Oxymoron
T
he story of U.S. economic dominance, from Hollywood to aerospace, is one of innovation. That said, not all U.S. businesses are innovative—far from it. The majority are imitators, blindly following practices of leading enterprises in their sectors (but more on that later). The point is that the U.S. still accounts for 26.7% of global GDP, up from 26.3% in 1975. That means we remain the single largest contributor to global GDP. If innovation explains why U.S. industrial leadership has gone unchallenged for more than 35 years, then why is a recurring theme in this column the stubborn persistence of old, reactive maintenance practices, especially when predictive, conditioned-based technologies have been around (and achieving undisputed results) for decades? The troubling answer is that the same mentality that brought the U.S. automobile industry to its knees in the 1980s is alive and well in the bowels of many maintenance organizations. You don’t need to work in the maintenanceservices business for long before confronting the stark cultural differences among companies. Some thirst for knowledge—using it to feed and drive all aspects of the business cycle, from demand management to supply, production, distribution and capital efficiency. Others demonstrate outright hostility toward knowledge, information and change because the status quo is comfortable and easy and reliable, that is, until it’s not (as our automobile industry discovered). Industry leaders are easy to spot and impossible to defeat—they break with tradition. From Apple Computer to Southwest Airlines, the same patterns persist. Innovators learn something new, see something differently and use that insight to drive a wedge between themselves and competitors who invariably respond by “imitating.” With the path to obscurity so well worn, it’s a wonder that maintenance organizations with an almost unlimited potential to innovate, drive down costs, reduce risks and improve performance don’t.
When maintenance organizations do embrace innovations—such as predictive, condition-based maintenance programs—they achieve new and higher stature in their operations by increasing production availability, driving down maintenance budgets and spare parts inventories and eliminating unplanned capital expenditures. They may also find themselves credited with contributing to improved safety records, improved profitability and/or expanded market share achieved with the greater pricing flexibility afforded by lower unit costs.
Why are reactive maintenance practices a recurring theme in this column? At Azima DLI, we recruit experienced analysts and train them to break with tradition. We turn them into fanatics for information, knowledge and accountability. Why? Because our customers can’t innovate without new insights about their production operations. We’ve learned that when a prospect turns pale as we talk about information, knowledge and transparency, we’re talking to an imitator. But when a prospect leans forward to share insights based on the organization’s own information culture, we know we have an innovator who is as likely to teach us something as we are to empower him/her. Maintenance organizations today face a simple choice: Innovate and take the credit for driving ingrained cost and inefficiency from production operations, or defend an unnecessarily high cost structure that is difficult to correlate to improved performance and efficiency. The choice and the opportunity would appear obvious— unless trying something new or seeing something differently doesn’t seem worth the effort. MT Burt Hurlock is CEO of Azima DLI (www.azimadli. com), a leading provider of predictive machine condition monitoring and analysis services.
The opinions expressed in this Viewpoint section are those of the author, and don’t necessarily reflect those of the staff and management of MAINTENANCE TECHNOLOGY magazine.
48 | MAINTENANCE TECHNOLOGY
OCTOBER 2010
Indication of Forward Thinking
KNOW WHERE TO START TROUBLESHOOTING Introducing LF Series Fuseblocks Increase efficiency and troubleshoot faster, reduce downtime and improve your bottom line. Littelfuse indicating fuseblocks allow you to instantly know which circuit is open. Save time in new installations or upgrades by utilizing the DIN-Rail mount/release feature or universal mounting holes that allow for drop-in replacements. Improved functionality makes the new Littelfuse LF Series fuseblocks a real time-saver in your facility. LF Series Fuseblocks meet your needs for safety, efficiency, and design.
Now that’s what we call forward thinking.
For more info, enter 86 at www.MT-freeinfo.com
Indication Improves Functionality
Smaller Footprint & Drop-In Replacement Holes Enables Upgrade
DIN-Rail Mounting Eases Installation
The Original Bearing isOlaTOr sTrOnger Than ever
As part of Waukesha Bearings and Dover Corporation, Inpro/Seal is stronger than ever…with the horsepower to deliver our high-performing solutions and superior customer service around the globe. Industry-leading bearing protection, unmatched experience and same-day shipments – only with Inpro/Seal. So don’t lay awake at night…trust Inpro/Seal to design and deliver your custom-engineered bearing isolator, right when you need it; our installed base of over 4,000,000 speaks for itself.
Trust Inpro/Seal, the clear leader in bearing isolators.
www.inpro-seal.com For more info, enter 84 at www.MT-freeinfo.com
For more info, enter 87 at www.MT-freeinfo.com