Turbine Inlet Articles & Analysis: Older
27 articles found
ENER-CORE TECHNOLOGY Ener-Core’s oxidizer technology is developed to convert typically non-utilizable low energy gas into continuous clean energy TESTING/EMISSIONS SUMMARY To simulate the low-Btu fuel, a portion of the turbine inlet air volume was displaced by CO2 and N2. Steady system operation based on internal oxidizer temperatures, emissions and exit ...
Today, Solar Turbines continues to operate and maintain the CHP system. The main installation consists of two packaged Solar TaurusTM gas turbine generator sets and two Deltak heat recovery steam generators (HRSGs) for generating steam at 125 psig. The Taurus gas turbine generator sets are rated at 7.5 MW each, giving a total CHP system capacity ...
Quick Facts LOCATION: University of Florida, Gainesville, Florida MARKET SECTOR: Hospital/University FUEL: Natural Gas MAX CAPACITY: 4.3 MW IN OPERATION SINCE: 2009 USE OF THERMAL ENERGY: Heating & cooling EQUIPMENT: 4.3 MW Combustion Turbine, 14,500 lb/hr Heat Recovery Steam Generator, 3 Centrifugal Chillers, Combustion Turbine Inlet ...
Powerphase collaborated with the Tamimi Group of Companies and Saudi Electricity Company (SEC) to demonstrate Turbophase system’s ability to boost F-class gas turbine (GT) power output at the high ambient air temperatures that Saudi Arabian summers are known for. Besides having hot summers, Saudi Arabian labor costs are high such that any technology that reduces plant downtime can help ...
ARANER, is not only the leading company in Turbine Inlet Air Cooling and innovative District Cooling Solutions, but has also designed and implemented some of the world’s biggest Thermal Energy Storage Systems. ...
ByAraner
Turbine inlet temperatures reach up to 1600°C, which is beyond the melting temperature of conventional metals. ...
The effect of nitrogen, which is supplied from the Air Separation Unit (ASU) of the gasification unit to the combustion chamber of the gas turbine (GT) cycle, on system performance is parametrically studied. The energy efficiency of the system is found to be 41%, while the exergy efficiency for the integrated gasification combined cycle power plant is 37%. ...
Gas turbine combined cycle (GTCC) plants have high overall thermal efficiency, and are used for large base–load power plants (PPs) to produce electric power (EP) and desalted seawater (DW) at the lowest cost per units of EP and DW. ...
A thermodynamic analysis through energy and exergy is employed, to investigate the effects of cycle pressure ratio, gas turbine inlet temperature and evaporator temperature on first–law efficiency and second–law efficiency of the proposed cogeneration cycle. The first and second–law efficiencies increases with the increase in gas turbine ...
The design parameters of the plant were chosen as: compressor pressure ratio, compressor isentropic efficiency, gas turbine isentropic efficiency, and turbine inlet temperature, pinch difference temperature, steam turbine inlet temperature, steam turbine isentropic efficiency, condenser pressure, ...
The main source for the anergy in the systems is strongly dependent on ammonia concentration and turbine inlet pressure, and it is quite different in AWR and AWRR systems.Keywords: ammonia–water mixture, ammonia concentration, anergy, exergy analysis, Rankine cycle, regeneration, power generation, second law, thermodynamics, exhausted heat source, coolant, heat ...
In this paper, thermodynamic modelling of a gas turbine cycle with absorption chiller is performed. A thermoeconomic approach is utilised to find the most optimal values of design parameters for practical applications. Some design parameters considered are compressor pressure ratio, compressor isentropic efficiency, gas turbine isentropic efficiency, gas ...
Performance improvement techniques in power generation systems especially in gas turbine–steam turbine (GT–ST) combined cycle (CC) power plants by compressor inlet air cooling prove to be much improvising. In this work, the performance enhancement of CC power plant by inlet air cooling method using lithium bromide–water ...
When the high temperature fuel cells like solid oxide fuel cell and molten carbon fuel cell are integrated with the gas turbines, the total thermal efficiency of the combined cycle can be obtained greater than 60%. ...
The relationship between flashing pressure, turbine inlet pressure of the binary cycle and total heat transfer area of the heat exchanger are determined for maximum power output of the combined power plant. According to the results, the optimal flashing pressure of the flash cycle and the optimal inlet pressure of the working fluid to binary ...
This paper presents a comparative exergy study of the performance of various gas turbine power generation plants and a high temperature Solid Oxide Fuel Cell (SOFC). ...
In this study, the effects of gas turbine inlet air-cooling by evaporative technique on work output and thermal end exergy efficiency were analysed. ...
Effects of the operating parameters such as turbine inlet temperature and pressure on the thermal efficiency, exergy destruction rate and second-law efficiency were evaluated. ...
In this study the use of Reverse Brayton cycle to boost up the power of gas turbine power plants operating in hot humid ambiance is analysed by the energy and exergy methods. The gas turbine inlet temperature is reduced by mixing the chilled air from Brayton refrigeration cycle and the main intake air stream reaching low intake temperatures. ...
In this work, the influence of NCGs on the thermodynamic performance of geothermal power plants is analysed for various NCG content and turbine inlet temperatures. The results obtained can be useful on the feasibility study of single flash geothermal power plants. ...