SUBSEA
HYPERBARIC TESTING SYSTEMS
Welcome to your new subsea partner: Telemark Technologies
Telemark Technologies key products
Telemark Technologies is a trusted subsea engineering and development partner for offshore oil and gas producers and subsea equipment manufacturers. Telemark Technologies specializes in engineering for the subseaindustry. We are innovators who have developed products that are recognized as industry advances. Headquartered in Kongsberg, Norway, a technology hub for the global offshore oil and gas industry, our company operates world-class fabrication facilities.
Automation also sets our HTS products ahead of competing units. Testing regimes, called profiles, are programmed for each hyperbaric test run, and factors such as hyperbaric pressure are computer controlled. Certification documentation is automatically generated and archived for each subsea object tested.
As an engineer, I am deeply pleased to see that the pioneering work done by my Telemark Technologies colleagues over the past 25 years has evolved into an important line of hyperbaric testing products.
Telemark Technologies’ HTS product line currently offers hyberbaric testing to 800-barg, simulating the hydrostatic conditions of an 8 000-meter-deep marine environment with water temperatures as low as minus 5° Celsius. That’s so much further down the water column than when I worked on our earlier hyperbaric systems about ten years ago, following a breakthrough that allowed testing down to 450-barg instead of 345-barg.
Our Hyperbaric Testing Systems (HTS) rank among the world’s best. These robust workhorses provide rapid, efficient, and costeffective QC verification and subsea certification of equipment and components. Notable for our large hyperbaric chambers and modular design, our HTS units improve daily workflows for subsea manufacturers. Outsourcing hyperbaric testing often leads to production bottlenecks and wasted time and resources on logistics. Moreover, Telemark Technologies’ Hyperbaric Testing Systems offer unparalleled advantages over competing commercial products. They are inherently safe and feature ergonomic workspaces. The large hyperbaric vessels and accompanying light-weight lids are made from seamless steel forgings insuring performance over a long-life, free from welding-induced stress and fatigue issues.
The HTS products presented in this brochure are designed to reduce your company’s operating expenses and total cost of HTS ownership, as well as spur revenue growth and productivity. Throughout the lifecycle of every delivery we make, Telemark Technologies remains committed to the highest levels of quality, support, and service.
Torgeir Straand, CEO, Telemark Technologies
Telemark Technologies Vacuum Pump This innovative vacuum pump from Telemark Technologies is small, lightweight, and mobile - perfect for either workshop or field operations. Key components in the production and maintenance of subsea equipment, vaccuum pumps safeguard parts against subsea damage resulting from hydrostatic pressure. Subsea Hyberbaric Test System The safest, largest, most versatile and productive system for qualifying equipment designed for subsea use. Certify control modules, actuators, ROV, AUV and other equipment for depths to 8 000 meters (800-barg) and diameters up to 1 000 - 1 500mm. Subsea Hydraulic Power Unit A fully electric pump maintains local hydraulic pressure. Enables hydraulic equipment to be fully operable subsea while eliminating the need for costly hydraulic umbilicals to the surface. 3
Telemark Technologies - High-pressure technology since 1988 Norway is a seafaring nation - and a major offshore oil and gas producer. Since the last generation, the strong engineering community in Kongsberg, in which Telemark Technologies is headquartered has become a world-leading center for offshore-industry research, development and manufacturing. Gorm Syversen is one of the pioneers who started the development within subsea from 1974 in Kongsberg. He is now the Chairman of the Board in Telemark Technologies. Key personnel in Telemark Technologies have executive experience from the Kongsberg industry. They have been a part of the development of high-pressure technology from the start until today. In 2005 Ble Engineering started engineering our own high-pressure technology and in 2014 merged into Telemark Technologies. From the 1970s until today personnel have been key in developing the new paradigm in high-pressure technology, The Hyperbaric Testing System.
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1988
1991
2005
2010
2012
2013
2014
The manufacturing company Industriteknikk AS was formed by Asmund Buen and Ingar Gvesrud. They are still working in our organization.
First delivery of a hyperbaric testing system to Omnitec (today Siemens) in Kongsberg. With a capacity of 345-barg, the research and development of highpressure took off.
Ble Engineering was established and immediately started engineering and construction of our own high-pressure testing equipment and subsea pumps.
Ble Engineering received their first order to build their first Hyperbaric Testing System to Kongsberg Maritime’s department in Horten. This was the start of a new paradigm in the subsea testing market. The ID 350mm HTS delivered is still running at full capacity today.
Ble Engineering finished and delivered their second Hyperbaric Testing System order for Kongsberg Maritime’s department in Horten. The 800-barg system is still running at full capacity.
Telemark Technologies becomes a global supplier to FMC Technologies. We made a HTS delivery to FMC Technologies Kongsberg, as well as building our own in-house HTS. Telemark Technologies and Ble Engineering is now able to qualify and test our own equipment and products as well as offer testing services.
Founder of Ble Engineering, Torgeir Straand, merges Ble Engineering AS into Telemark Technologies. The pioneering development of our safe, large-volume Hyperbaric Testing Systems has advanced to an 8 000-meter testing tool while changing the paradigm in subsea testing systems.
“The subsea testing systems developed by Telemark Technologies is design-wise the best in the world” Kjell Gjestad Vice President - Supply Chain Kongsberg Maritime - Subsea Horten
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New paradigm in hyperbaric testing What are Hyperbaric Testing Systems?
Why are they needed?
Who uses them?
How do I acquire an HTS?
Test equipment capable of simulating deep ocean pressures and temperatures.
To qualify mechanical, electrical, or hydraulic equipment for subsea. Control modules, ROV/AUV systems, pumps, actuators, connectors, seismic/geophysical sensors, and other subsea equipment and components require hyperbaric testing.
Offshore oil and gas producers; subseawell maintenance, modification, and service suppliers; mapping and survey providers; R&D organizations; and military contractors.
Telemark Technologies designs and produces the industry’s most advanced hyperbaric testing systems. To get started, assess your needs using the checklist on page 23 - and then contact us.
Hyperbaric Testing Systems (HTS) are used to verify the performance of equipment while subjected to the temperature and pressure conditions found at ocean depths. Once tested, equipment may be certified for delivery and deployment subsea. Unique testing capabilities, inherentl safety and ultra-high-pressures are major competitive advantages of the HTS product line manufactured by Telemark Technologies. Consider our HTS specialists to be your partners throughout the lifecycle of the product, from design through installation, training and maintenance. Safety First: The design and construction of Telemark Technologies’ Hyperbaric Testing System have eliminated the potential hazards found in competing HTS packages. Our large testing tanks are monolithic forgings, fabricated without welds or penetrations. Vessel lids are light weight for easy handling, and seal water-tight without using bolts. The command and
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control system enhances safety and blocks undesirable procedures. Telemark Technologies offers the only HTS system with a certified safe design. The vessel’s large retaining frame protects personnel in the operating area. Training of operators and service technicians by Telemark Technologies enhances productivity and safety. Faster testing: Interchangeable tank lids enable successive tests to be run with minimal inter-testing downtime. Components to be tested are rigged quickly and efficiently in large “baskets” suspended below a vessel lid. Programmable testing cycles, called test profiles, control HTS operations to recreate slow descents, rapid changes in water column depths, on-off cycling of components, and other simulation scenarios. And all procedures are recorded for automatic generation of quality-control and traceability documentation. FMC Technologies Subsea has reported a 300% production efficiency increase when conducting certain hyperbaric testing through the use of Telemark Technologies’ HTS platform.
“With Telemark Technologies’ Hyperbaric Testing System, our test production time has been significantly reduced. Our production efficiency is up 300%” Harald Henrichsen Production Support Manager FMC Technologies
Lower cost of ownership: Lower operating costs and a stronger competitive position are achieved as a result of the unique engineering features of Telemark Technologies’ Hyperbaric Testing Systems. Reduced OpEx and time required to execute hyperbaric testing are ongoing benefits. Faster testing cycles, automated generation of QC documentation (“Goodbye, clipboard!” and resultant data recording delays), and minimal system maintenance are key money-savers. Deploying several Telemark Technologies’ Hyperbaric Testing Systems on an enterprise-wide basis further reduces the resources spent on testing and related component logistics. Staff at a company’s distributed HTS facilities are able to work at any and all testing sites without retraining in their capacity as operators, set-up technicians or service personnel.
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Inherently safe Hyperbaric Testing System The Telemark Technologies’ Hyperbaric Testing System has been designed for safety and incorporates unique features that make our HTS product line safer than competing systems. At Telemark Technologies, we certify not only the fabrication of our systems by accredited 3rd parites, but also our designs. Conformance is to either international standards of the European Union’s Pressure Equipment Directive (PED/97/23/EC), carrying the CE marking, or the American Society of Mechanical Engineers (ASME) Boiler and Pressure Vessel Code (BPVC), bearing ASME stamping. Although our HTS vessels are the largest in the industry, they are particularly safe. Made from seamless, precision-forged-steel, the tanks and their lids are fabricated free of structural welds. The absence of welding assures a long and reliable service lifetime with the lowest possible ongoing costs of service, maintenance and support.
Another unique safety enhancement is the sturdy retaining frame that holds the pressurized vessel during testing and maintains the tight seal of tank lids. Computer-based command and control of HTS operations provides efficiency while sensors and lock-outs preclude personnel from working in high-risk areas adjacent to the HTS. Thorough automation of HTS processes reduces or eliminates the risk exposure for operating personnel. Attention to ergonomics not only makes the workplace safe and effecient, but also prevents workplace injuries. The top of HTS vessels are at a convenient working height and components to be tested are staged in an ergonomically sound manner. Tank lids are lightweight, whereas competing HTS tanks have heavy lids that can put personnel at risk when handling heavy loads.
“Telemark Technologies has developed a unique concept that takes care of HSE and user efficiency in an optimal way”
NO WELDING NO BOLTS LIGHTWEIGHT
Retaining frame An external retaining frame secures the HTS vessel during testing. Contact with the frame safely locks the lids into place with even the slightest amount of vessel pressurization. Composed of 45 steel plates mounted in a laminated configuration, the fault-tolerant frame flexes slightly as operating pressure increases — up to 800-barg — to maintain safe and leakage-free HTS performance.
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Weld-less construction Telemark Technologies’ unique HTS features weld-free vessel walls, lids, and connection points. Welds represent potential failure zones, due to micro-cracks, entrained contaminants, and fatigue induced by HTS pressurization and depressurization cycles. Operating lifetime is extended and maintenance is reduced because our HTS tanks and lids are fabricated or precision forged from seamless, pressure rated steel.
Lightweight lids Vessel top and bottom lids are easy to lift and maneuver. Objects to be tested are suspended in a basket attached to the underside of a vessel’s top lid. Connection to power, control, fiber optic cables or hydraulic lines can be made via standard quick-connect fittings mounted to the top lids. Top lids are interchangeable. Testing is sped up by deployingmultiple vessel top lids to which equipment can be rigged while another HTS test is in progress.
Kjell Gjestad Vice President - Supply Chain Kongsberg Maritime - Subsea Horten
Certified safe Both the design and production of Telemark Technologies’ Hyperbaric Testing Systems are certified by accredited 3rd parties such as Det Nosrke Veritas (DNV), for PED deliveries in the EU requiring CE marking. Other international deliveries may be similarly certified under ASME/BPVC, with like marking. Operational risk is reduced by the system’s computer-based command and control system. Training under the auspices of Telemark Technologies further enhances HTS safety. 9
World-leading capabilities The Telemark Technologies Hyperbaric Testing System is an ideal tool for qualifying subsea equipment. Our HTS units are easy to use, inherently safe and reliable, and deliver extensive testing capabilities. Our hyperbaric systems include the largest high-pressure chambers in the industry. Internal diameters range from 590 mm up to 1 500 mm, and the internal cylindrical heights range from 2 200 mm up to 4 000 mm. Water column depths to 8 000 meters, or 800-barg, may be simulated along with temperature testing down to minus 5° Celsius. Programmable and manual testing are performed using a modern humanmachine interface, which simplifies pressure-sequenced testing and offers variable rates of pressure change and intermediate dwelling times.
All testing events are recorded for each test piece in the hyperbaric chamber, and quality certification and traceability documentation are automatically generated when the test ends. Our HTS provides sophisticated process control and data archiving essential to subsea certification. The role-based user access includes local and remote (VPN) login and interactive piping and instrumentation diagrams. Our customers achieve lower operating costs and increased revenues through HTS component standardization and near 24/7 production capability. The HTS’ modular design keeps pace with evolving requirements; optional configurations can be implemented quickly and at a fraction of the cost of a system replacement.
Hyperbaric Testing System deployment METERS
2 000
4 000
LARGE VESSEL SIZES The HTS’ large vessel capacity enables testing of components of various sizes - and simultaneous testing of several items. Typical test loads are subsea connectors and jumpers, control modules, valves, and ROV and AUV components. Certification documentation is recorded for each object in the test run.
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DEEP PRESSURE RATINGS Simulate water depths at which subsea wellheads are placed today, and into the future - or at ocean depths down to 8 000 meters (800-barg). Tank pressure scenarios are programmed before testing begins, and certification data is logged throughout the test run.
HIGH STANDARDIZATION
LOW TEMPERATURE TESTING
The Hyperbaric Testing System adds value to your business in several ways. On-site testing rather than shipping production to a testing subcontractor saves time, trims operating costs, and eliminates production bottlenecks. Product standardization reduces the cost of maintenance, employee training and technical support across your enterprise, while offering testing logistics otherwise unavailable.
Water temperatures as low as minus 5° Celsius simulate conditions at the lowest levels of subsea production. Both pressure-proof and functional testing may be performed under low temperature conditions
Today’s offshore technology enables oil companies to develop deepwater fields at depths of roughly 3 000 meters. Ever-deeper field development projects require the advanced capabilities of the Hyperbaric Testing Systems that Telemark Technologies currently designs and builds.
ID 350mm
Hyperbaric testing of equipment and components for subsea-developed deepwater fields at depths of some 3 500 meters are amply served by Telemark Technologies’ largest-capacity HTS, which has a chamber diameter of 1500 mm and chamber height of 4 000 mm. The HTS test facility operates at up to 450-barg pressures, the equivalent of 4 500 meter water depths.
ID 1 500mm
MAXIMUM VERSATILITY The modular design of our HTS promotes enduring competitiveness and low-cost maintenance. Accommodating new types of components for testing is as easy as interchanging top lids with alternate configurations, or customizing top lids prescriptively. Test scenarios can be repeated or modified via the HTS’ command and control system.
6 000
8 000
ID 1 000mm
For 6 900 meter water depths, our standard 690-barg HTS has a hyperbaric chamber that measures 1 000 mm in diameter and 2 200 mm in vessel height.
ID 600mm
Next-generation field development projects, R&D organizations, and marine and geophysical researchers are among the users who need to simulate hydrostatic conditions down to 8000 meters. The hyperbaric chamber of our state-of-the-art 800-barg HTS measures 600 mm in diameter and 2 200 mm in height.
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Lower OpEx and reduced CapEx Our Hyperbaric Testing System lowers the total cost of ownership, starting from day one. Telemark Technologies’ HTS are designed to maximize value at every phase of production and throughout the system’s lifecycle. Ergonomics, ease of assembly, and brief intervals between Hyperbaric Testing System operations are hallmarks of Telemark Technologies’ innovative engineering. Shown here is a technician mating a loaded vessel basket to a vessel lid. The basket is secured in place by lifting and locking pins mating to aluminum support rods that are fastened to the bottom of an interchangeable, hyperbaric vessel lid.
REMOTE ACCESS CONTROLS Verify system status and program certain actions via VPN access. A productivity booster for global organizations and a popular tool for in-house coordination.
MINIMAL SERVICE AND MAINTENANCE Even at maximum, 24/7 usage, the precision-forged hyperbaric vessel and robust retaining frame are rated for lifecycles exceeding 25 years.
BRIEF INTER-JOB DOWNTIME Stage the next hyperbaric test while the HTS automatically executes a test in progress. Incorporating a pair of vessel lids on which to load and hook-up test pieces minimizes downtime. It’s the next-best thing to owning and operating two HTS units.
Convenient access for assembly and inspection makes the HTS workspace more effective and improves testing cycle times. The vessel lid is easily suspended by a light-duty overhead crane. Modular systems Telemark Technologies produces a family of Hyperbaric Testing Systems that share core safety and productivity features across all models. Using multiple lids and vessel baskets allows parallel operations and reduces HTS downtime. The capability of rigging testing baskets and interconnecting the test object through lid penetrators is consistent across all HTS models.
AUTOMATED TESTING The Hyperbaric Testing System automates testing procedures. Server-based control of testing requirements, such as pressure and temperature sequencing, documentation generation and archiving, along with safety monitoring, reduce errors in test verification documents while increasing testing speed and productivity. 12
PARKING PEDESTAL The parking pedestal holds a vessel lid prior to mating with a basket. A loaded basket will be mated to the aluminum tubes descending from the vessel lid; quickconnects allow joining of basket to lid manually, with no need for specialized tools and maintenance.
MULTIPLE LIDS AND BASKETS Employing more than one hyperbaric vessel lid and the staging baskets that hold components to be tested, allows rapid changeover of the HTS to a new test run. A loaded basket is being wheeled under a spare vessel lid held in a parking pedestal.
The lifting crane handling lid-basket assemblies is run via a hand-held control. Once a vessel lid and its load are lowered into a hyperbaric vessel, a wall mounted operator panel located near the Hyperbaric Testing System controls vessel movement into and out of the retaining frame as well as filling, draining and cooling operations.
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Operating capabilities
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Telemark Technologies’ Hyperbaric Testing Systems deliver performance that competitors cannot match. Server-based process control enables programmable rates of pressure change, a feature unique to our line of HTS. For example, a sequence of pressure states, varying between zero and 500 bar and featuring different dwelling times, may be programmed to transition at rates that are gradual, breakneck 60-bar/minute, or at any inbetween rate.
The interactive piping and instrumentation (P&ID) display enhances control room operations. Project staff can remotely log on, via a secure VPN, to update testing profiles, check system states, and retrieve quality assurance documentation in real time.
Operating states of valve instrumentation and motors, system alarm conditions and component service and maintenance references are intuitively available through an interactive piping and instrumentation display. Tools for importing profiles for automated test sequencing, assigning serialized test objects to test runs, and obtaining progress states during hyperbaric testing are available through additional system views.
Certification and traceability are key HTS features. A comprehensive record of all testing events is incorporated in each final certification document, which is automatically generated and archived following hyperbaric testing. Before hyperbaric testing can begin, certification requirements for each and every component in the testing chamber must be logged into the HTS control and documentation system, including optional references to test object qualification procedures. 15
Supplementary equipment Telemark Technologies provides supplemental equipment and services to augment HTS operations. These options serve to optimize system performance, increase productivity and provide versatility for handling a range of different test objects using the same HTS. In general, supplementary equipment offers a means for obtaining even greater system efficiency at low cost and with short lead-times.
LID PARKING PEDESTALS Additional parking pedestals boost productivity. Ready your next test object while HTS testing is under way.
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TEST BASKETS Workflows become more flexible when a few test objects are on hand or being rigged for HTS qualification.
MULTIPLE LIDS Top and bottom lids can be purchased to improve productivity. The availability of lids fitted with appropriate penetrator and connector configurations saves time. Multiple lids of the same configuration facilitate productivity; multiple lids of varying configurations serve versatility in handling a range of test objects on the same HTS.
RAID STORAGE A redundant array of independent disks with a backup and recovery server ensures that HTS records and certification documents are always maintained.
REMOTE SUPPORT A Virtual Private Network (VPN) may be setup using the existing network equipment, or may be purchased as part of a VPN hosting plan to avoid conflict with company IT policies. Support services can be supplied over the VPN, allowing agents to remotely troubleshoot, repair and update the system, or simply assist on-site personnel as required.
TRAINING AND TESTING SERVICES Discover the benefits of our value-added HTS testing program to mitigate testing bottlenecks, for short-run production or for design investigation/qualification. We also offer educational programs at our facility to provide employee training without compromising your on-site productivity.
MOBILE SURVEILLANCE Put real-time surveillance of the HTS state and test object status at your fingertips on your mobile device. Connect to any HTS across your enterprise.
CUSTOM PENETRATORS & QUICK CONNECTS Multi-purpose penetrator arrangements are standard to general purpose lids. Both top and bottom lids may be custom-ordered to accommodate any arrangement of electrical, optical or hydraulic penetrator configurations or interfacing connectors. Quick-connect interface panels and cabling reduce test setup errors and reduce downtime between hyperbaric test runs.
DEEP OCEAN TEMPERATURES Ocean depths at exploration and production levels can be as low as minus 5째 Celsius. An HTS cooling system may be included to chill the pressure medium to these levels prior to hyperbaric testing.
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Service, Support and Maintenance Telemark Technologies is at the forefront of deepwater hyperbaric testing equipment. The company’s experienced staff provide outstanding service and maintenance support for the hyperbaric testing systems they design and build.
TURNKEY INSTALLATION Reduce your risk associated with creeping commissioning and regulatory compliance. Rely on Telemark Technologies’ engineers and technicians to install our state-of-the-art Hyperbaric Testing Systems fully verified and certified to meet local regulatory requirements for un-fired pressure vessels.
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TRAINING Need help getting started with a new HTS or line of production? We are available to educate and certify the training of your employees at your facilities or ours. Benefit from the use of actual test payloads, build knowledge of test-profile management, and gain greater understanding of how to leverage the interactive Piping & Instrumentation display for troubleshooting.
TURNKEY MAINTENANCE Would you like to outsource all of your regular HTS service and maintenance routines? Hire the experts from Telemark Technologies. We offer service and maintenance plans, from basic checkups to turnkey responsibility for all your routines.
ONLINE DOCUMENTATION Never lack user or service manuals, Access your system documentation online or subscribe to our library of online training videos.
ENGINEERING SERVICES In need of mechanical engineering to design custom test fixtures for your test objects during hyperbaric testing? We are an ISO9001 approved supplier of Engineering, Procurement and Contracting (EPC) services. Our experienced staff are experts in subsea technology. We offer engineering services, standard HTS consulting, and planning that streamlines your production workflows, testing procedures, and HTS operations.
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Right size for the job Telemark Technologies delivers Hyperbaric Testing Systems that optimize your production cycle. Test criteria such as water depth, temperature, and component dimensions are important considerations in selecting a Hyperbaric Testing System that fulfills you requirements. Our proprietary design and manufacturing techniques allow us to quickly customize solution tailored to your testing criteria and specifications, particularly if your requirements are not a close match to our build-to-print designs. Safety, process control, QC All systems incorporate Telemark Technologies suite of safety, processcontrol, and QC documentation systems. Our four standardized Hyperbaric Testing Systems are differentiated by maximum pressure rating and size of the hyperbaric chamber as measured by the internal diameter, height and internal volume of the hyperbaric vessel.
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Standard Models Hyperbaric Testing Systems from Telemark Technologies are built according to a standard, proprietary design. The following models are available from build-to-print documentation requiring little or no additional design effort.
Maximum pressure (barg)
Vessel inner diameter (mm)
Vessel inner height (mm)
Hyperbaric volume (m3)
Necessary crane hook span (mm)
Minimum pit dimensions L x W x D (mm)
690
1 000
2 200
1.7
4 400
4 000 x 6 000 x 2 250
450
1 500
4 000
7.1
6 200
5 000 x 7 000 x 4 265
350
590
2 800
0.8
4 900
3 210 x 4 500 x 2 480
800
600
2 200
0.6
4 300
3 900 x 5 350 x 2 010
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Ready to get started with Telemark Technologies? Tell us about your Hyperbaric Testing System needs.
Harness the productivity and deepwater testing capabilities of the world’s most advanced Hyperbaric Test Systems, designed and built by Telemark Technologies. Companies in the following industries benefit the most from owning one or more Hyperbaric Testing Systems from Telemark Technologies: • Offshore oil and gas producers • Subsea production equipment manufacturers • Subsea-well maintenance, modification, and service suppliers • Mapping and survey providers • Seabed seismic monitoring developers • R&D organizations • Military contractors Our engineers work at the cutting edge of subsea technologies, and are ready to share their professional experience with companies that are planning to purchase or rent Hyperbaric Testing Systems or services. The benefits of owning and operating a Telemark Technologies Hyperbaric Testing System include: • The industry’s safest and largest hyperbaric chambers • Rapid hyperbaric testing of systems and components • Simulates 8 000 meter (800-barg) water depths at temperatures to -5° Celsius • Automated control of hyperbaric testing states • Comprehensive certification and traceability documentation for each test object • Control room and remote system surveillance • Low cost of ownership • Revenue growth due to enhanced hyperbaric testing performance • Uniquely fast preparation of test objects supports 24/7 hyperbaric testing
To learn more about our Hyperbaric Testing System, review the following checklist and contact us at post@telemarktechnologies.no, or phone +47 32 28 61 00 and visit www.telemarktechnologies.no. CHECKLIST How important is remote access to your operations? 1 (lowest) - 10 (highest)
What is the deepest level for which you need to either test or qualify subsea equipment or designs? For example, 3 500 meters?
Would you like to “try before you buy” using our HTS?
What is the maximum diameter of the equipment you intend to test? What is the maximum height of the equipment which you intend to test?
Could you benefit from standby testing services in case of production bottlenecks or one-time testing needs?
What is the maximum number of pressure transitions you anticipate in a hyperbaric testing sequence?
Do you need to prove equipment at subsea temperatures that are lower than ambient sea-level conditions?
What is the average duration of the hyperbaric sequences you wish to conduct?
Does your company have IT policies against support of virtual private networks?
How many hyperbaric sequences do you intend to conduct daily, weekly, yearly?
D
W
Y
What is the equipment lifecycle you expect from the HTS? How important is productivity to your testing needs? 1 (lowest) - 10 (highest).
How important is backup and recovery to your testing operations? 1 (lowest) - 10 (highest).
Would you be interested in turnkey service and support where Telemark Technologies takes full responsibility for all system maintenance and logs? Do you currently have a production bottleneck surrounding hyperbaric testing for which you could benefit from engineering services?
How many types of test objects do you need to test using the same system? What are your needs for penetrators?
By computer: By mobile device:
Electrical
(qty) Optical
Hydraulic
What is your most challenging problem surrounding hyperbaric testing? How did you learn about Telemark Technologies and our expertise in subsea hyperbaric testing?
Do you have an enterprise-wide need for Hyperbaric Testing Systems for which you could benefit greatly from standardization and shared expenses? 22
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We are a Trusted Partner
We are Agile & Innovative
We design and produce products for the Oil, Gas & Exploration industries and are experts in manufacturing subsea equipment.
FMC Technologies, Aker Solutions, Kongsberg Maritime and Siemens are among the demanding customers that rely on Telemark Technologies for advanced design and engineering.
We mobilize quickly and engage customers in a process of continuous quality improvement. Our solutions are prescriptive and often advance the state of technology.
We are Cost-Effective
We are State of the Art
We are quality certified
We design for long-term performance. Our products are technically and operationally reliable. They boost productivity and reduce the Total Cost of Ownership for our customers.
• Our line of weld-less Hyperbaric Test Systems (HTS) rank among the largest and safest worldwide • Our Umbilical Termination Head (UTH) designed for FMC Technologies reduces costly ship-support time from days to hours • Our new line of 690-barg subsea hydraulic power units eliminates the high cost and maintenance requirements of hydraulic umbilicals from subsea to surface
• NS-EN ISO 9001:2008 • NS-EN ISO 14001:2004 • OHSAS 18001:2007 • Engineering, Procurement & Contracting (EPC)
serit.no/itum
We Specialize in Subsea
Photography: Mediafoto
Your trusted partner in quality and performance
NOTODDEN Telemark Teknologipark Merdevegen 1, 3676 Notodden, Norway KONGSBERG Kongsberg Teknologipark Kirkegårdsveien 45, 3616 Kongsberg, Norway Tel: +47 32 28 61 00 E-mail: post@telemarktechnologies.no www.telemarktechnologies.no