UWM School of Continuing Education | Engineering Catalog | Spring 2021 by University of Wisconsin-Milwaukee

SCHOOL OF CONTINUING EDUCATION

Spring 2021

ENGINEERING Professional Development Courses and Certificates

Civil Engineering • Elastomer & Plastics Technology • Electrical Engineering • Facility Management Industrial/Mechanical • Six Sigma and Process Improvement • Trending Engineering Technologies • Water Technology

WELCOME TO THE UWM SCHOOL OF CONTINUING EDUCATION ENGINEERING PROGRAMS Your Trusted Advisors

Table of Contents

Have questions about which courses to take? Looking to maximize the amount of PDHs you can earn? Call or email Marcia or Angela with any questions. They are happy to help! MARCIA GABRIEL Program Director gabrielm@uwm.edu 414-227-3378 ANGELA KELBER Director kelbers2@uwm.edu 414-227-3314

Trending Engineering Technologies....................................... 3 Civil Engineering........................................................................ 4 Elastomer Technology............................................................... 4 Plastics Technology................................................................4-6 Electrical Engineering............................................................7-8 Facility Management................................................................. 8 Industrial/Mechanical Engineering...................................9-10 Water Technology...............................................................10-12 Six Sigma and Process Improvement.................................. 13 Registration Information......................................................... 14

Earn Your PDHs Here All of our courses qualify for Professional Development Hours (PDHs) and are taught by expert instructors. Get started today!

PRACTITIONERS WHO PRACTICE WHAT THEY TEACH! UWM’s engineering instructors have many combined decades of real-world experience. They are professional engineers, consultants, business owners, executives, civil servants, professors, designers and managers of multimillion dollar projects. At UWM, they teach what has made them highly successful for years in their own fields. Because your fellow participants and instructors are professionals in various fields of engineering, a UWM engineering certificate is the ideal opportunity to meet and learn from your peers. Each course is led by practitioner instructors who have the experience to ensure your real-life success.

WiSE BREAKFAST SERIES

The Women in Science & Engineering (WiSE) breakfast series serves a nutritious helping of insight, networking and value the first Thursday of every month. Each session examines unique challenges and opportunities for women in these traditionally male-dominated fields. Membership includes unlimited access to the events all year long.

For more information, visit uwm.edu/sce/WiSE – or contact – Marcia Gabriel at 414-227-3378 or gabrielm@uwm.edu.

University of Wisconsin-Milwaukee School of Continuing Education

TRENDING ENGINEERING TECHNOLOGIES Staying on top of the latest trends and advancements can be challenging… but not here at UWM! Our engineering courses are designed to keep pace with the latest and greatest technologies as well as your professional development needs.

Engineering Ethics In this interactive class, you review the Codes of Ethics from engineering professional associations and explore the differences between ethics, moral impact and compliance, and examine the core values held by professional engineers and those espoused by your company. With your colleagues, you use ethical decision-making guidelines in a case study discussion. This course requires weekly participation over a one-month period. Instructorled content meets the minimum requirement in the areas of professional conduct and ethics, and satisfies your biennial registration period requirement per Chapter A-E 13. Learning Outcomes • Know the ethical codes of professional engineering organizations. • Distinguish the differences between ethics, moral impact and compliance. • Learn and apply a model for ethical decision-making. 4860-13254 Jan 4-31 Online $159 Patricia Clason 0.3 CEUs, 3 PDHs 4860-13262 Mar 1-28 Online $159 Patricia Clason 0.3 CEUs, 3 PDHs 4860-13263 May 3-30 Online $159 Patricia Clason 0.3 CEUs, 3 PDHs

Application of Machine Learning to Mechanical Equipment Diagnostics Machines of all varieties have failure modes which if predicted can reduce business costs, reduce downtime and increase safety. Failure prediction can be model- or data-based. Both methods require that patterns be recognized which provide an indication of the failure mode. Machine learning methods such as convolutional neural networks are being used to increase the speed and accuracy of failure predictions. This course is an introduction to the application of machine learning to equipment diagnostics. Data requirements and sources, types of applicable machine learning, implementation approaches to machine learning and use cases demonstrating the application of machine learning for failure prediction will be discussed. Learning Outcomes • Learn the steps necessary to apply machine learning to equipment diagnostics. • Understand requirements for equipment operating data and sources of data to support the implementation of equipment diagnostics. • Examine examples of machine learning applied to diagnostics which can be used as references for action toward its application. 4860-13473 May 4 Live Online 8am-4:30pm $595 Dennis Miller 0.7 CEUs, 7.0 PDHs

Engineering and Architectural Application of Virtual and Augmented Reality Virtual reality (VR) and augmented reality (AR) are visualization tools which can be used by engineers and architects to 1) increase the effectiveness of communicating plans and designs, 2) evaluate the details of designs prior to implementation, 3) support manufacturing and construction processes and 4) increase the effectiveness of implementer and user training. VR and AR technologies are related but are quite different in implementation and application. In this course the VR and AR visualization hardware and supporting software are presented with demonstrations. Examples of applications in engineering design, architectural design, design communication, and manufacturing and construction are described.

• Examine case studies of VR and AR applications which can be used as references for action toward their application. 7781-13474 May 5 Live Online 8am-4:30pm $595 Dennis Miller 0.7 CEUs, 7.0 PDHs NEW Introduction

to Digital Manufacturing Digital manufacturing covers a wide range of technology and process concepts and actions which when successfully implemented result in more efficient, more agile and ultimately more profitable manufacturing of products. Digital manufacturing has not just happened. It is an ongoing evolution that makes use of the Internet of Things (IoT), machine learning, data analytics, robotics, digital process control and other enablers. This course describes these enabling technologies, relates these technologies to case studies and integrates them into a view of digital manufacturing that aids you in understanding the overall concepts – providing a basis for further thinking and actions toward implementation. Learning Outcomes • Gain a general understanding of how enabling technologies are being applied to digital manufacturing. • Explore examples of how these technologies have been used and continue to be to gain the benefits of digital manufacturing. • Learn potential steps that you can take to begin or enhance the application of digital manufacturing in your job responsibilities. 4860-13577 June 3, Live Online 8am-4pm $595 Dennis Miller 0.7 CEUs, 7 PDHs

Learning Outcomes • Understand what hardware and software are available to implement VR and AR. • Learn where VR and AR are being used in engineering and architecture.

For more information uwm.edu/sce/eng

800-222-3623

CIVIL ENGINEERING When you take part in the Civil Engineering program through the UWM School of Continuing Education, you’re learning the latest advancements in the study of structures and systems. You may enroll in four different courses for a varied educational program that provides new career opportunities and experiences. Each course is taught by professors who bring real-life experience into their course curriculum and who truly practice what they teach.

Civil Engineering Refresher This course reviews civil engineering fundamentals and their applications to prepare you for the state of Wisconsin PE exam or for general review. It is offered over a span of 11 weeks to permit completion before the scheduled PE examination dates. 4860-13310 11 weeks, Jan 14-Mar 25 Live Online 6:30-8:30pm $895 Mahmoud Maamouri, PhD, PE, SE, Hani Titi, John Rolfes, Todd Davis, PhD, PE, Shane Zodrow, PLS, PE, Dick Osantowski, PE, Dan Talarczyk, James Higgins 2.2 CEUs, 22 PDHs

Surveying This course provides an overview of the surveying profession today and includes summarized topics such as terminology definitions, types of surveys, practice standards, project examples, technical aspects, legal aspects and project case studies. The course is intended for civil engineers or related professionals who need to work with and request survey data for design and construction projects. Learning Outcomes • Learn technical aspects, including geodesy, map projections, coordinate systems and datum adjustments.

Introduction to Wastewater Treatment Develop a fundamental background in municipal and industrial wastewater treatment from theory to practical applications with real-world case studies. Build your knowledge base with an overview that includes relevant legislation, sampling and analytical procedures, and wastewater treatment processes. Learning Outcomes • Gain an understanding of the Clean Water Act. • Identify physical, chemical and biological treatment processes. • Know the basics in municipal and industrial treatment options. 4850-13492 May 17-June 17 Online $495 Dick Osantowski, PE 0.7 CEUs, 7 PDHs

ELASTOMER TECHNOLOGY CERTIFICATE The importance of elastomers cannot be understated as they’re critical in the development of seals, adhesives and molded flexible parts. The Elastomer Technology Certificate focuses on learning about recent technologies, advancements in the field and strategies to improve your elastomer designs. It benefits anyone designing, manufacturing or working with synthetic rubbers. Through our program, obtain firsthand knowledge from current industry professionals to address challenges you face within your organization. Individual courses may be taken without pursuit of the certificate. Earn the certificate by completing nine or more days of related courses in as little as 18 months.

PLASTICS TECHNOLOGY CERTIFICATE The plastics industry is one of the main contributors in the field of engineering. Plastic parts have spread into each area of life, making our daily tasks easier and the world more efficient. The Plastics Technology Certificate develops a foundational knowledge of plastics, covers in-depth features of plastics design and helps you stay competitive in the industry. With topics ranging from biomedical devices, injection molds and plastic materials to sizing, calibration and implementation, our expert instructors share their extensive experience with you, strengthening your skills and expanding your knowledge base. Individual courses may be taken without pursuit of the certificate. Earn the certificate by completing nine or more days of related courses in as little as 18 months.

RPA Testing of Rubber Processability and Dynamic Properties This two-day course is designed to help rubber professionals such as rubber chemists, engineers, compounders, laboratory and production managers and associates better understand the various methods available to measure rubber processing, dynamic properties and the fundamental rheological principles on which these tests are based. Explore how specific changes in rubber compound formulations affect these measured processing properties as well as the cured dynamic properties. Learn the characterization of raw elastomers. The topics of Mooney viscosity (MV) and Mooney stress relaxation (MSR), the oscillating disk rheometer (ODR), and the moving die rheometer (MDR) are presented.

• Explore advanced survey technology, including LiDAR scanning, unmanned aerial vehicles and 3D modeling for construction.

Learning Outcomes

• Obtain lessons learned from project case studies.

• Select the best rubber test conditions for a better, more sensitive test.

4860-12804 Mar 26 Live Online 8am-4:30pm $495 Shane Zodrow, PLS, PE 0.7 CEUs, 7 PDHs

• Interpret test results more effectively in order to improve rubber processing quality and productivity.

• Learn how to select specific rubber tests from a wide variety of options.

University of Wisconsin-Milwaukee School of Continuing Education

Moldflow Analysis

4830-13342 Feb 2-3 Live Online 8am-4:30pm $1190 John Dick 1.4 CEUs, 14 PDHs

Plastic Part Failure: Analysis, Design & Prevention Dive into a broad range of topics essential to understanding and preventing plastic failure. The most efficient and effective approach to plastic component failure is performing a systematic failure analysis following the scientific method. Someone once said, “If you don’t know how something broke, you can’t fix it,” highlighting the importance of a thorough understanding of how and why a product has failed.

This two-day workshop focuses on the theory behind injection molding simulation and how the results can be applied to help engineers and designers make informed decisions in order to maximize profits and reduce lead times. You learn how plastics flow in injection molds and how factors such as part design, mold design and processing affect part performance and dimensional stability. After attending, you will be able to better interpret internal and external simulation reports, and use this information to improve critical decision-making regarding part and mold design. Learning Outcomes • Learn how plastics flow in injection molds. • Interpret internal and external simulation reports. • Improve critical decisions regarding part and mold design.

Learning Outcomes • Learn the essentials of why plastic components fail. • Understand the five factors affecting plastic part performance. • Learn the process of conducting a failure investigation. 4830-12795 Feb 22-24 Live Online 8am-4:30pm $1390 Jeffrey Jansen, Javier Cruz, Erik Foltz, Antoine Rios 2.0 CEUs, 20 PDHs

Geometric Dimensioning & Tolerancing Detail critical information on the basics of GD&T. From there, dive into the more difficult principles through lectures, realistic examples, discussions and application problems. Understand how to interpret and apply ASME Y14.5M-2018. Learn and apply these techniques in datum selection and tolerancing optimization. This approach preserves functional product requirements, while taking into consideration manufacturing difficulties, introducing more producible tolerances, practical datum structures and preplanning measurement methods. Learning Outcomes • Interpret and apply the latest standards – ASME Y14.5M-2018.

4830-12431 Mar 11-12 Live Online 8am-4:30pm $1190, $1090 if registered by Jan 11 Erik Foltz 1.4 CEUs, 14 PDHs

Molding of Rubber and Design of Rubber Molds Learn the fundamentals of molding rubber mechanical goods and designing their rubber molds with no reference to the molding of tires. Review applicable molding methods with emphasis on compression, transfer and injection processes. Bring drawings or troublesome parts to address real-world issues during class. Learning Outcomes • Gain an integrated perspective on rubber molding and design of rubber molds. • Understand current principles and techniques in the design of molds and molded part design. • Explore useful design information – valuable for beginners and seasoned practitioners. 4830-13504 Apr 19-21 Live Online 8am-5pm $1390, $1290 if registered by Feb 19 Terry Chapin, Van Walworth 2.0 CEUs, 20 PDHs

Strictly Snap-Fits: Developing World-Class Snap-Fit Attachments Develop a deep understanding of snap-fit attachments and gain the knowledge to develop snap-fit applications optimized for reliability, manufacturing, assembly and customer usage. With real-life observations, sample parts and a copy of the instructor’s book, “The First SnapFit Handbook,” you gain the tools necessary to master the snap-fit technology fundamentals. Learning Outcomes • Understand how a snap-fit attachment functions as a complex system of features. • Recognize and avoid many common snap-fit mistakes. • Know the minimum design requirements for a successful snap-fit attachment. 4830-12609 Mar 16-17 Live Online 8am-4:30pm $1190, $1090 if registered by Jan 16 Paul Bonenberger 1.4 CEUs, 14 PDHs

• Reduce drawing changes and interpretation errors while designing for maximum profitability. • Bid contracts with confidence. 4810-13343 Mar 8-10 Live Online 8am-4:30pm, ends at noon on day 3 $1390, $1290 if registered by Jan 8 James Meadows 1.7 CEUs, 17 PDHs

For more information uwm.edu/sce/eng

Plastic Injection Mold Design Basics Get a practical and comprehensive look at injection mold design and learn to contribute to the overall success of projects. Receive a unique blend of detailed mold design concepts set forth in the context of the whole design process, and on the final day, participate in that process. Learning Outcomes • Understand mold design concepts. • Avoid costly mistakes. • Specify and evaluate your purchases of molds. 4830-13345 Apr 19-21 Live Online 8am-4:30pm $1390, $1290 if registered by Feb 19 John Vosmeier 2.0 CEUs, 20 PDHs

800-222-3623

The Essentials of Silicone Elastomers Get a detailed description of silicone elastomers, emphasizing their chemistry, physical and rheological properties, curing process and associated test methods, both physical and analytical. Learning Outcomes

Plastic Injection Mold Design Advanced

Fundamentals of Plastic Material Selection

• Understand silicone elastomer technology – applications, features, benefits and all aspects of the manufacturing process.

Take your understanding of the inner workings of injection molds to the next level. With a focus on cost savings throughout, work on mini-projects at each important juncture in order to master advanced concepts.

This course presents a methodology for plastic material selection. Using common layman’s language, we translate generic terms about a material’s characteristics, such as stiffness, strength and toughness, into specific technical properties that are relevant and quantifiable to the intended application. We review industry standard tests that are used to quantify these properties and discuss how to interpret and understand the behavior of the material in the intended application based on the available property data.

• Be familiar with dynamic and static properties, curing process and chemical structure.

Learning Outcomes • Understand advanced parting line, shut-off development, advanced slide and lifter design. • Learn to do advanced cavity and core inserting. • Analyze your current issues regarding the subject matter.

Learning Outcomes

4830-13346 Apr 22-23 Live Online 8am-4:30pm $1190, $1090 if registered by Feb 22 John Vosmeier 1.4 CEUs, 14 PDHs

• Develop an understanding of plastic material behavior from molten resin to end-use performance. • Examine and calculate costs (including raw material costs, processing costs and costs of secondary operations). • Become familiar with key material families, including notable applications. 4830-12494 May 11-12 Live Online 8am-4:30pm $1190, $1090 if registered by Mar 11 Eric Larson 1.4 CEUs, 14 PDHs

• Examine various analytical testing methods with specifications, property matrix and experimental design considerations. 4830-13370 May 25-26 Online $1190, $1090 if registered by Mar 25 Mary Krenceski 1.4 CEUs, 14 PDHs

Designing Plastic Parts for the Injection Molding Process Get a fundamental overview of plastic part design for the process of injection molding – ideal for engineers and designers who are accustomed to working with metals but are faced with metalto-plastic concerns. Examine plastic materials, behavior and selection, engineering design, manufacturing considerations and assembly methods. Learning Outcomes • Learn how to select an appropriate plastic material formulation. • Discover how to work within the manufacturing limitations associated with the injection molding process. • Understand how to approach plastic product development and establish end-use requirements.

STAY CONNECTED

4830-13371 June 7-8 Live Online 8am-4:30pm $1190, $1090 if registered by Apr 7 Robert Malloy 1.4 CEUs, 14 PDHs

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University of Wisconsin-Milwaukee School of Continuing Education

ELECTRICAL ENGINEERING CERTIFICATE Electricity flows through every organization, and because it affects all communities, electrical engineers must maintain diverse skill sets to keep power grids and business lines open for use. The Electrical Engineering Certificate concentrates on learning the fundamental skills needed to understand projects from the early stages of design to the final stages of implementation. Ranging from transmission line and substation design to power system operation and electrical equipment aging, we offer a broad selection of electrical engineering courses. Work with our experienced instructors, who are engineers themselves, to learn new skills and solve problems you’re currently facing. Individual courses may be taken without pursuit of the certificate. Earn the certificate by completing nine or more days of related courses in as little as 18 months.

Electrical Substation Design Fundamentals

NEW Next

Generation Protective Relay Systems

Transmission and Distribution Systems

The rapid growth of next generation power systems creates a real need for updates to protective relay systems to ensure enhanced security, dependability and effectiveness. Engage in comprehensive discussions and analysis about enhanced features of next generation protective relay systems that adapt to changing conditions.

This course provides real-life scenarios for the operation and design of power transmission and distribution systems. Review distribution lines and hardware applications, then create plans to serve a new residential development that doubles customer load and extends the distribution line for two miles. Review a transmission system, then create plans to add a new, high capacity wind farm to the system. Develop enhancements needed for a two-transformer distribution substation that will serve a new residential development that increases substation load by 50%. Key topics include maintaining scheduled voltage and service reliability when daily, weekly and seasonal load variations are considered.

Learning Outcomes • Know criteria used to select protective relay settings. • Understand key design considerations and operations. • Examine case studies that include examples of correct and incorrect operation of protective relaying schemes. 4840-13463 Apr 26-28 Live Online 8am-4:30pm $1395, $1295 if registered by Feb 26 Anthony Sleva, PE 2.0 CEUs, 20 PDHs NEW Next

Generation Power Systems This course provides an overview of features of next generation power systems. This includes automated distribution networks, customer-owned power sources (solar panels, wind turbines and battery power), rapid voltage recovery and rapid synchronization of customer-owned power sources. Learning Outcomes

Study substation design subjects at a level appropriate for those relatively new to the field. Get an introduction to technical requirements, configuration philosophies, design practices, information sources and work processes. Learn the fundamentals of electrical, civil and structural design issues of electric power substations. Learning Outcomes • Understand substation project chronology and how to develop the scope and identify the constraints for the overall project. • Be familiar with costs and schedules.

• Learn about power system operation of large central generating sources. • Utilize risk consequences matrixes comparing concerns with solutions. • Explore billing practices that allow for customer recovery of utility expenditures after installation of power source. 4840-13464 May 6-7 Live Online 8am-4:30pm $1095, $995 if registered by Mar 8 Anthony Sleva, PE 1.4 CEUs, 14 PDHs

• Explore site grading design, foundations, insulation and insulation protection and structures. 4840-13453 Apr 20-22 Live Online 8am-4:30pm $1395, $1295 if registered by Feb 20 Dan Chaply 2.1 CEUs, 21 PDHs

For more information uwm.edu/sce/eng

Learning Outcomes • Evaluate design features of radial 10-mile overhead and 5-mile underground distribution lines. • Study design features of 25-mile overhead and 5-mile underground transmission lines. • Analyze design features of distribution substation and transformer transmission substation. 4840-13465 June 7-9 Live Online 8am-4:30pm $1395, $1295 if registered by Apr 7 Anthony Sleva, PE 2.0 CEUs, 20 PDHs

Assessing the Condition of Aging Electrical Equipment Get acquainted with aging mechanisms and the aging considerations for components found in substations. As craftsmen, engineers, supervisors and managers who are responsible for performing, supervising and scheduling maintenance activities, being proactive is vital. Learning Outcomes • Identify recognized failure modes and aging indicators. • Gain insight into periodic and in-service testing. • Save money by being proactive and avoiding repair/replacement costs. 4840-13466 June 10-11 Online $1095, $995 if registered by Apr 10 Jenifer Marchesi, PhD, Anthony Sleva, PE 1.4 CEUs, 14 PDHs

800-222-3623

Understanding Power Line and Wildfire Risks This course has been developed in response to the direct correlation of wildfires and electric power lines and the increased need for the understanding of wildfire prevention within the electric power industry. This course presents considerations regarding both electrical systems and combustible materials that need to be addressed in order to prevent wildfires caused by faulted electric power transmission and distribution lines. Learning Outcomes • Gain an understanding of wildfire risk factors including arc energy, combustible material clear zones, arc energy deposition and combustible material ignition points. • Complete wildfire risk evaluations for electric power transmission and distribution lines. • Obtain an understanding of simplifications that can be made to quickly assess the risk of wildfires. 4840-13136 June 14-17 Live Online 8am-4:30pm $1490, $1390 if registered by Apr 14 Anthony Sleva, PE 2.4 CEUs, 24 PDHs

Learning Outcomes

• Gain an understanding of the basics of facility management. • Learn about the typical hard and soft services that facility managers are responsible for delivering. • Explore the planning and business side of delivering facility management services. 4820-13315 Mar 9-10 Live Online 8am-4:30pm $795, $695 if registered by Jan 9 Grant Horn 1.4 CEUs, 14 PDHs

Learning Outcomes

A well-maintained facility has direct implications for the people, places and processes of every company. Second to its employees, the facility is a company’s largest asset. The Facility Management Certificate focuses on developing the necessary skills to create a more efficient and effective facility. Covering essentials such as plumbing and electricity to analytical tasks like project management and blueprint reading, engineers across disciplines can benefit from this specialized certificate. Work with current industry experts to strengthen the diverse skill set required to maintain an effective facility.

In this course you learn the basics of facility management. From operations and maintenance to facility planning, it covers all of the areas that a facility manager is responsible for when managing buildings.

Learn about aspects of facility management beyond the delivery of basic services such as operations and maintenance. Discuss issues relating to the health, safety and protection of a company’s people and buildings; the technologies that facility managers use to manage their services and buildings; and the important aspect of providing a well-designed workplace for an organization’s employees.

CERTIFICATE

Strategic Practices in Facilities and Engineering Develop strategies to successfully carry out major initiatives by influencing the decisions and attitudes of others. Examine the concepts of strategy for facilities and engineering through a theoretical lens as well as real-life experience and examples of effective approaches.

Beyond Facility Management Service Delivery

FACILITY MANAGEMENT

Individual courses may be taken without pursuit of the certificate. Earn the certificate by completing nine or more days of related courses in as little as 18 months.

Introduction to Facility Management, Business Planning and Service Delivery

• Learn about the technologies used to manage buildings, the FM function and the technologies that allow an organization’s employees to communicate with each other and the world at large. • Understand the importance of and the means to keep a company’s employees safe and to protect company assets. • Examine what it takes to provide and manage a well-designed workplace so that an organization’s employees can be most productive and satisfied. 4820-13318 Apr 20-21 Live Online 8am-4:30pm $795, $695 if registered by Feb 20 Grant Horn 1.4 CEUs, 14 PDHs

• Align your organization’s mission with resources to maximize effectiveness. • Identify how innovation can affect strategic positioning. • Apply effective strategies that integrate people, places, processes and technology. 4820-13322 May 18-19 Live Online 8am-4:30pm $795, $695 if registered by Mar 18 Grant Horn 1.4 CEUs, 14 PDHs

Facility Management Administration and Sustainability For many building occupants, facility management has mostly to do with hands-on maintenance and repair. A burned-out light bulb is reported and a maintenance representative replaces it. An occupant reports that the building is too warm and a maintenance technician appears to adjust the HVAC. But there is another side of facility management that most occupants don’t see – the administrative side. Learn how facility managers deal with design and construction, contracts and relocation planning. Learning Outcomes • Understand how facility managers administer and manage construction and relocation projects. • Learn about the policies and procedures developed and administered by facility managers that impact building occupants on a daily basis. • Learn how facility managers contribute to their company’s social responsibility through sustainable building operations. 4820-13319 June 15-17 Live Online 8am-4:30pm $895, $795 if registered by Apr 15 Grant Horn 2.0 CEUs, 20 PDHs

University of Wisconsin-Milwaukee School of Continuing Education

NEW Fundamentals

Geometric Dimensioning & Tolerancing

This course provides an overview of heating, ventilation and air-conditioning (HVAC) systems and their components used for indoor environment quality and thermal comfort in buildings. The course reviews physical concepts and practical considerations used in the design of HVAC systems.

Detail critical information on the basics of GD&T. From there, dive into the more difficult principles through lectures, realistic examples, discussions and application problems. Understand how to interpret and apply ASME Y14.5M-2018. Learn and apply these techniques in datum selection and tolerancing optimization. This approach preserves functional product requirements, while taking into consideration manufacturing difficulties, introducing more producible tolerances, practical datum structures and preplanning measurement methods.

of HVAC Systems

INDUSTRIAL/ MECHANICAL CERTIFICATE Dimensioning and Tolerancing Expertise with dimensioning and tolerancing is essential when working as an engineer. From an object’s size and form to how it fits and functions, knowing proper dimensioning and tolerancing increases quality, reduces cost and improves production time. The Dimensioning and Tolerancing Certificate provides a solid foundation of engineering drawing while also moving beyond the basics to explore advanced subject matter. It positions you to learn and apply the international language of dimensioning and tolerancing used throughout the engineering industry. Individual courses may be taken without pursuit of the certificate. Earn the certificate by completing three courses in as little as 18 months.

Learning Outcomes • Explore fundamental concepts considered in HVAC system design. • Identify equipment and components used for indoor environment quality and thermal comfort. • Learn the vapor-compression cycle and variables considered in the selection of its components. 4810-13201 Jan 25-Feb 25 Online $1190 Victor Niño 1.4 CEUs, 14 PDHs 4810-13202 Jan 28-29 Live Online 8am-4:30pm $1190 Victor Niño 1.4 CEUs, 14 PDHs

Learning Outcomes • Interpret and apply the latest standards – ASME Y14.5M-2018. • Reduce drawing changes and interpretation errors while designing for maximum profitability. • Bid contracts with confidence. 4810-13343 Mar 8-10 Live Online 8am-4:30pm, ends at noon on day 3 $1390, $1290 if registered by Jan 8 James Meadows 1.7 CEUs, 17 PDHs

Gear Technology Basics – Design Aspects

CERTIFICATE Gear Technology Gears are everywhere. They’re prevalent within cars, watches, wind turbines and most engineering devices. In the world of manufacturing, the intricate nature of gear technology makes quality training more important than ever. The Gear Technology Certificate focuses on improving your understanding of the manufacturing process that brings gear design concepts to life. Create complete drawings of gears, develop advanced analysis skills, build your knowledge base of modern gear systems and much more. This certificate allows you to analyze and work through design challenges you currently face in your own projects. Individual courses may be taken without pursuit of the certificate. Earn the certificate by completing three courses in as little as 18 months.

Develop your understanding of the history, basic gear tooth nomenclature, types of gears, gear arrangements, theory of gear tooth action, and failure modes and prevention. This course was updated and expanded to comprehensively cover important topics relating to gear system design consideration. Learning Outcomes • Build your knowledge of modern gear system design and analysis. • Distinguish between types of gears and gear arrangements.

Introduction to Thermo Fluids This course is designed to give you proficiency in fluid mechanics and heat transfer and thermodynamics. The course explores mathematical, experimental as well as some computational tools that are needed in the disciplines of flow and heat transfer.

• Discuss theory of gear tooth action and derive parameters as they’re presented.

Learning Outcomes

4810-13503 Feb 9-11 Live Online 8am-4:30pm $1295 Raymond Drago, PE 2 CEUs, 20 PDHs

• Study the practical applications of thermo-fluid concepts in the industry.

For more information uwm.edu/sce/eng

• Learn the theory of fluid mechanics and heat transfer concepts.

• Understand the experimental and computational tools used in the industry for solving thermofluid problems. 4810-13523 Mar 29-Apr 29 Online $1190 Aroon Viswanathan 1.4 CEUs, 14 PDHs

800-222-3623

PC Applications in Parallel Axis Gear System Design and Analysis

NEW Introduction

Gain an understanding of parallel axis gear design, and learn to use the software tool, PowerGear, to analyze the main parameters involved. (A student version of the software is included in the price of the course.) Cover the basics of gear load capacity evaluation from a theoretical viewpoint, and use the PC as a tool to apply these theoretical concepts. Learning Outcomes • Understand durability (surface fatigue and wear), strength (tooth fracture) and scoring. • Discuss typical sets of problematical design parameters from your current work assignments. • Experience hands-on design perspective through group projects. 4810-12578 Apr 27-29 Live Online 8am-4:30pm $1295, $1195 if registered by Feb 2 Raymond Drago, PE 2.0 CEUs, 20 PDHs

Tolerance Stack-Up Analysis Apply tolerance stack-up analysis techniques to a variety of assemblies. Explore loop analysis, number charting, virtual condition, resultant condition, inner and outer boundaries, minimum airspace, maximum wall thickness, maximum interference, minimum and maximum overall thickness, and fixed and floating fastener assembly conditions. Learning Outcomes • Calculate minimum and maximum wall thicknesses, airspaces and interferences for assemblies. • Examine gaps for assemblies that use a variety of datum structures. • Learn a system of logic and mathematics to analyze tolerances.

WATER TECHNOLOGY CERTIFICATE From sustainable water management to safe drinking water and environmental support, water quality affects everyone. Organizations must be especially proactive when managing this resource for the populations that depend on it. The Water Technology Certificate explores the latest trends, technologies and policies related to this field. Whether a federal employee, inspector or municipal facility manager, you can benefit from an understanding of the developments within the water technology industry. With topics spanning stormwater infiltration, sustainability, wastewater treatment, watershed planning and more, this certificate offers something for any interested professional. Work with our experienced environmental engineers to gain firsthand knowledge and skills in this vital industry. Individual courses may be taken without pursuit of the certificate. Earn the certificate by completing nine or more days of related courses in as little as 18 months.

to Air Pollution Control Air pollution is the presence of toxic compounds, whether naturally occurring or man-made, at levels that adversely impact human and animal life or flora in an affected area. Effects range from simple awareness to the onset of physiological and psychological symptoms ending in lessening the quality of life, illness or even death. In addition, the presence of some compounds in the air causes detrimental changes to the physical properties of the atmosphere resulting in damage to the protective ozone layer or global warming which may have worldwide implications. During this one-day course, the class briefly examines the primary pollutants and regulatory processes used to manage them. From there, the course directs its attention to methods of air pollution control. Learning Outcomes • Examine primary pollutants and the regulatory process. • Learn about regulations and how they are enforced, including Federal EPA Standards. • Understand problem and solution goals and evaluate alternatives. 4850-12682 Jan 20 Live Online 8am-4:30pm $495 Robert Pond 0.7 CEUs, 7.0 PDHs

Wastewater Treatment Nutrient Workshop This one-day course provides basic concepts of nutrient removal (nitrogen and phosphorus) in wastewater from theory through practical applications with real-world case studies. The course provides a foundation for understanding both basic and advanced nutrient-removal techniques, including emerging technologies. You obtain the necessary tools to achieve efficient and consistent treatment performance. Learning Outcomes

4810-13347 May 10-12 Live Online 8am-4:30pm, ends at noon on day 3 $1195, $1095 if registered by Mar 10 James Meadows 1.7 CEUs, 17 PDHs

• Learn the basic concepts of nutrient removal (nitrogen and phosphorus) in wastewater. • Gain an understanding of emerging technologies. • Receive the necessary tools to achieve efficient and consistent treatment performance. 4850-12450 Jan 25-Feb 25 Online $495 Dick Osantowski, PE 0.7 CEUs, 7 PDHs

University of Wisconsin-Milwaukee School of Continuing Education

CUSTOMIZED TRAINING SOLUTIONS Group Training – Your Place or Ours

Environmental Regulatory Overview Two landmark pieces of federal legislation have had major impacts on improving the quality of our drinking water and our lakes and streams in the United States. This short course reviews key pieces of both the Safe Drinking Water Act (SDWA) and the Clean Water Act (CWA) laws from a real-world perspective. The course presents a detailed overview of both regulations to provide you with a basic working knowledge of the history, drinking water standards, treatment techniques, the wastewater permitting process, stormwater, CWA Sections 316a and b, CWA Section 404, effluent guidelines, spill prevention legislation and much more. Learning Outcomes • Learn the key pieces of both the Safe Drinking Water Act (SDWA) and the Clean Water Act (CWA) laws. • Understand treatment techniques, permitting processes and spill prevention legislation. • Obtain a basic working knowledge of the history of drinking water and other regulatory standards. 4850-13490 Feb 15-Mar 15 Online $495 Dick Osantowski, PE 0.7 CEUs, 7 PDHs

Wisconsin Sedimentation & Erosion Control Inspector (WISECI) Best Management Practices Learn techniques to manage construction site stormwater Best Management Practices (BMPs) and eliminate problems before they cause higher costs and slowdowns for your project. Save time and money by avoiding erosion and sediment releases. Learn about Wisconsin regulations and requirements for construction site inspection, EPA SWPPP requirements for inspections, proper documentation procedures, how to recognize poorly managed erosion and sediment control BMPs on construction sites, and guidance for keeping your projects in compliance with local, state and federal requirements. With this training, you’ll join the team of professionals with EPA SWPPP training and the Wisconsin-specific credentials of Wisconsin Sedimentation & Erosion Control Inspector (WISECI), as well as the Wisconsin Department of Safety & Professional Services – Soil Erosion Inspector.

Engaged, energized employees are your greatest asset. Attract and retain the best and brightest by offering a substantial professional development program for new and existing staff. We customize the curriculum, location and format based on your specific needs. Partner with UWM’s School of Continuing Education – the largest provider of professional development in southeastern Wisconsin – for flexible solutions, maximum results.

Learning Outcomes • Develop expertise in site inspection and reporting. • Know how to “predict” erosion and sedimentation releases – and what to do about it. • Earn the Wisconsin-specific designations: Wisconsin Sedimentation & Erosion Control Inspector (WISECI) as well as the Wisconsin Department of Safety & Professional Services – Soil Erosion Inspector ( Admin. Code § 305.63). 4850-13251 Mar 18-19 Live Online 8am-4:30pm $395 Ginny Plumeau 1.4 CEUs, 14 PDHs

For more information uwm.edu/sce/eng

800-222-3623

Groundwater Treatment Design Workshop

NEW Hazardous

Waste/ Remediation Workshop

This one-day course provides basic concepts of groundwater treatment from theory through practical applications with real-world case studies. The course gives you an understanding of both basic physical-chemical and biological contaminant removal techniques, including emerging technologies. You are provided with the necessary tools to understand and apply the basics of groundwater treatment from defining treatment parameters to sustainable life-cycle design.

The course reviews the definition of the primary kinds of hazardous waste and teaches how to identify, collect, store, manage, manifest, treat and dispose of regulated hazardous waste. Training and safety requirements for those working with hazardous waste are discussed. The course also provides a foundation for understanding basic concepts of remediation from theory through practical applications with real-world case studies. Basic remedial contaminant removal techniques are reviewed as well as emerging technologies. You are provided with the necessary tools to understand and apply the basics of remediation options and define treatment parameters to sustainable life cycle design.

Learning Outcomes • Learn the basic concepts of groundwater treatment. • Understand both the physical-chemical and biological contaminant removal techniques. • Apply the basics of groundwater treatment from defining treatment parameters to sustainable life-cycle design. 4850-13491 Mar 22-Apr 22 Online $495 Dick Osantowski, PE 0.7 CEUs, 7 PDHs

Learning Outcomes • Understand the basic concepts of remediation. • Discuss contaminant removal techniques and emerging technologies. • Apply remediation options and define treatment parameters. 4850-13499 Apr 12-May 12 Online $495 Dick Osantowski, PE 0.7 CEUs, 7 PDHs

Native Landscape and Green Infrastructure Design for Stormwater Gain an understanding of how to analyze, design, implement and manage effective and innovative stormwater management systems using native landscape for a variety of sites – large, small, rural and urban. Learn about how a thorough site analysis of soils, terrain and hydrology can influence the design approach using native and naturalized plant selections. Several case studies of built projects are presented – giving you firsthand knowledge of how to approach site design, plant selection, construction and maintenance.

Learning Outcomes • Create a safe work practice toolbox.

• Gain an understanding of the Clean Water Act.

• Examine engineering controls to achieve a healthy work environment.

• Identify physical, chemical and biological treatment processes.

• Incorporate native and naturalized plants into the stormwater design for ecological benefit and potential cost savings.

• Know the basics in municipal and industrial treatment options.

• Understand how to use native plants in a realistic way to maximize benefits.

This hands-on technical health and safety workshop is taught by industry professionals with over 50 years of combined experience and is intended to provide a detailed overview of OSHA’s top 10 most commonly cited regulatory subjects from an engineering and industry perspective. It includes hazard recognition and elimination methods through engineering controls to achieve safe and healthful work places. The course also focuses on safe work practices in a water environment, which is laden with potential safety concerns.

Learning Outcomes

• Evaluate plans and specifications and understand both pitfalls and successes of projects.

Health and Safety Workshop for Engineers and Industry

4850-13492 May 17-June 17 Online $495 Dick Osantowski, PE 0.7 CEUs, 7 PDHs

• Learn about OSHA training requirements. 4850-13493 June 14-July 14 Online $495 Dick Osantowski, PE 0.7 CEUs, 7 PDHs

4850-13344 Apr 9 Live Online 8am-4:30pm $495 Adrienne Cizek, PhD, EIT, Clay Frazier, Tom Mortensen, Linda Reid 0.7 CEUs, 7 PDHs

University of Wisconsin-Milwaukee School of Continuing Education

CERTIFICATE

SIX SIGMA AND PROCESS IMPROVEMENT

Lean Six Sigma Yellow Belt

Earn the certificate by completing two sessions and a capstone project. 4860-13086 Online – Open Enrollment, Register Anytime $890 Erik Fadlovich 1.6 CEUs, 16 PDHs

4860-13262 Mar 1-28 Online $159 Patricia Clason 0.3 CEUs, 3 PDHs

CERTIFICATE

4860-13263 May 3-30 Online $159 Patricia Clason 0.3 CEUs, 3 PDHs

Six Sigma Green Belt for Services and Transactions Certificate

DEFINE

CONTROL

Lean methodologies emphasize customer satisfaction and value by striving for sustainable, bottom-line results. The Lean method improves customer experiences by eliminating waste and optimizing value streams that flow between an organization’s different departments. The Lean Six Sigma Yellow Belt Certificate combines Lean methods with the Six Sigma problem-solving approach. By integrating these philosophies, you achieve higher levels of performance and secure a competitive advantage in an increasingly challenging economy. Obtaining a Lean Six Sigma Yellow Belt gives you the tools to improve the production and transactional systems that inform the bottom line of your organization.

SIX SIGMA

MEASURE

IMPROVE ANALYZE

Evaluating progress and tracking improvements are crucial to positively growing the short- and long-term benefits of an organization. The Six Sigma Green Belt for Services and Transactions Certificate examines nonmanufacturing operations within service and transaction environments (e.g., IT and health care). Through this program, you develop your ability to set and achieve goals by working in effective teams, measuring projects and tracking a team’s improvement over time. As a Green Belt, you’ll be part of a team spearheading improvements and cost-saving strategies for your organization. Module I 4820-13297 Mar 23-25 Live Online 8am-4:30pm $1490 Davis Bothe 2.0 CEUs, 20 PDHs

For more information uwm.edu/sce/eng

Module II 4820-13298 Apr 13-15 Live Online 8am-4:30pm $1490 Davis Bothe 2.0 CEUs, 20 PDHs

CERTIFICATE Six Sigma Black Belt Training for Services and Transactions Certificate A systematic approach is key to identifying and measuring inefficient, outdated and imprecise methods within any process. Six Sigma Black Belt certification develops short- and longterm strategies to optimize performance throughout your organization. In this program, you master the Six Sigma philosophy and equip yourself to lead and manage diverse teams over a wide range of professional benchmarks. A Six Sigma Black Belt increases your value in the workplace by giving you the statistical and analytical tools you need to reduce variation errors and generate significant cost savings within your organization. Earn the certificate by completing four modules and homework assignments as well as a capstone project. Module I 4820-13297 Mar 23-25 Live Online 8am-4:30pm $1490 Davis Bothe 2.0 CEUs, 20 PDHs Module II 4820-13298 Apr 13-15 Live Online 8am-4:30pm $1490 Davis Bothe 2.0 CEUs, 20 PDHs Module III 4820-13299 May 4-5 Live Online 8am-4:30pm $1390 Davis Bothe 1.4 CEUs, 14 PDHs Module IV 4820-13300 May 18-19 Live Online 8am-4:30pm $1390 Davis Bothe 1.4 CEUs, 14 PDHs

800-222-3623

REGISTRATION INFORMATION

The UWM School of Continuing Education building is currently closed due to COVID-19. Please check our website for updates.

Paying for your education

Convenient Ways to Register

1. Online

Un(der)employed and Dislocated Workers Continuing Education has programs approved for funding from Individual Training Accounts (ITA). Wisconsin Department of Vocational Rehabilitation DVR funding is available for several professional development programs. Ask your case worker for details.

uwm.edu/sce

2. Phone 414-227-3200 or 800-222-3623

Visit uwm.edu/sce/affordable for information on these financial assistance opportunities.

Monday-Friday 8am-5pm

â&#x153;&#x201C; You do not have to be enrolled at UWM to register for Continuing Education courses.

Program Cancellations/Refunds A full refund is issued to program participants if the School of Continuing Education cancels a program for any reason. If a participant withdraws at least 10 business days prior to the start of a program, a 100% refund will be issued. If a participant withdraws less than 10 business days prior to the program start, a one-time transfer of fees to any currently available program is allowed; otherwise, the participant will receive a refund minus a 20% administrative fee. No refund will be given once a program has begun. No refund will be issued for programs with a fee of $35 or less. For on-demand online programs without a specified start date, no refund will be issued once a participant has accessed the online learning environment.

AmeriCorps Alumni â&#x20AC;&#x201C; The Segal AmeriCorps Education Award Put your AmeriCorps education award to use for your professional growth. Most Continuing Education certificates and classes are eligible. Veterans and Active Duty Military Members Continuing Education recognizes the service of veterans and active duty military personnel. Inquire about available assistance at sce@uwm.edu. Spouses of Active Duty Military Members My Career Advancement Account (MyCAA) provides funds for spouses of active duty military members to pursue professional development. Federal Lifetime Learning Tax Credit and Tax Deductions Continuing Education professional development programs may qualify for tax credits and deductions. Employer Assistance Employers value proactive professional development planning and often provide funding for those who can demonstrate the return on investment to the company.

This does not apply to Osher Travel or College for Kids/Teens programs, which have no-refund policies.

For more information uwm.edu/sce/eng

800-222-3623