Not exact matches
The project aims to provide an important breakthrough in offshore wind industrial solutions by
designing an innovative, lightweight, robust and reliable 10
MW class offshore wind
turbine based on a superconducting (SC) generator, taking into account all the essential aspects of electric conversion, integration and manufacturability.
Utility owners must be certain that the boiler
design is effectively matched with the new
turbine operating conditions and that this matching produces the maximum
MW output with the best heat rate.
Today's launch of the V164 - 9.5
MW turbine showcases the proven V164 platform once again with increased energy output from minimal
design changes.
The combination of high heat and pressure are what allowed Hofer to
design a
turbine that fits on a conference table but can generate 10 megawatts (
MW), enough to power 10,000 U.S. homes.
His team, partnered with Southwest Research Institute and Gas Technology Institute, has since submitted the
design to the U.S. Department of Energy and won an $ 80 million award to build the 10
MW turbine.
The joint venture is responsible for the
design, further development, procurement, manufacturing, installation, commissioning and service related to the V164 - 8.0
MW turbine as well as all marketing, sales and after - sales service related to offshore wind.
Hywind 1,
designed around a hull fabricated by French contractor Technip and topped out with a 2.3
MW Siemens
turbine, has performed superbly since switch on in 2009, weathering winds of 40 metres per second (m / s) and winter waves 15 metres high — and churning out close to 35GWh at an average capacity of 50 %.
The spar foundations, built at Navantia's yard in Fene, Spain, are shorter and slimmer — and less expensive — than the original hull,
designed and fabricated by French contractor Technip at its Pori yard in Finland; and the
turbine on the new model is almost three times as powerful as the 2.3
MW machine, delivered by Siemens, that was used on the flagship unit.
He said that the 400 MWth solar field would be coupled to a Siemens fast start 250
MW steam
turbine and an Aalborg steam generator
design with a once - though header style heat exchanger
design, capable of much more rapid thermal transients to easily handle the rapid start and ramping required.
Perhaps the most novel
design is the ETI - supported Blue H «Deepwater»
turbine project, which is focused on the
design and feasibility of a 5
MW floating offshore wind
turbine, for use in up to 300m of water.
NautaDutilh assisted ENGIE Electrabel and its public partners with the financing of Project Greensky, which entailed the
design, development, construction and operation of wind farms in Gingelom (seven wind
turbines) and Lincent (nine wind
turbines), totalling approximately 32
MW of wind capacity.
Developed project teams, coordinated with HR in hiring and terminating of individuals Projects: • Milford Wind Corridor Project Phase I, Milford, UT Client: First Wind, 4/2009 - Present Scope: $ 70M BOP Contract, Includes
design and construction of collector system, substation, 89 miles of 345kv transmission line, operations and maintenance facility, SCADA system, access roads,
turbine foundations, erection, and tower wiring as necessary to support (58) Clipper 2.5
MW C - 99 generators and (39) GE 1.5
MW XLE generators; a total of 204
MW potential output.
Development of FEA (PATRAN / ABAQUS 6.8) for different parts of the 4.5
MW wind
turbine, having as input CATIA
design files at different
design stages