Steam Turbine Process Articles & Analysis
9 articles found
There are a number of inspection applications where this poses a higher risk such as steam turbines, process piping, weld inspections or other processing applications. ...
Quick Facts LOCATION: Andover, MA MARKET SECTOR: Biotechnology FACILITY SIZE: 950,000 square feet in 7 buildings FUEL: Natural gas PRIME MOVER: Two 5 MW Solar gas turbines POLLUTION CONTROL: SCONOx emission control system using a proprietary catalyst OPERATION: 24/7 SYSTEM CAPACITY: 10 MW, 80,000 lb steam/hour ANNUAL ELECTRICITY GENERATION: 51,000 MWh USE OF ...
Damages and Regulations Both nuclear and conventional power plants use steam pressure to turn generator turbines, a process that requires a great deal of water. ...
Damages and Regulations Both nuclear and conventional power plants use steam pressure to turn generator turbines, a process that requires a great deal of water. ...
Abstract This article is a continuation of the article "Sliding Pressure Turbine Integrated with Seawater Desalination Facility (MED)" [1] presented at the IDA 2011 World Congress. The previous article described a unique MED-TVC plant design that is able to integrate with a sliding pressure turbine to supply motive steam to a thermal desalination ...
This paper appraises the current development status of the 700?C steam power plant under consideration of process optimisation as well as design aspects of the steam turbine and steam generator. The results for a compact arrangement of the steam turbine and steam ...
The H2-Graz-Cycle is a closed steam process based on the stoichiometric combustion of oxygen and hydrogen. It is shown that efficiencies of up to 51% can be achieved with the H2-Graz-Cycle even with small output powers in the range of 1.35 MWel. The process is thus particularly suitable for decentralised applications. It is further shown that the ...
Quantifying the energy flows of both activities properly requires knowledge of the design power-to-heat ratios of the CHP processes (steam and gas turbines, combustion engines). The ratios may be multiple, non-linear or extend into the virtual domain of the production possibility sets of the plants. Quantifying cogeneration in CCGT plants reveals ...
It can also be used to determine the true cost of improvement projects, relating any changes in steam demand back to purchased utilities (fuel, power, and make-up water) at the site boundary. Example projects could include improved insulation, better condensate return, increased process integration, new steam turbines or even the ...