This work shows that thermoelectric (TE) topping generators can add 4-6% to the overall system efficiency for advanced supercritical steam turbines (Rankine cycle) that nominally generate power with 40-42% efficiency. The analysis then considers how this incremental topping energy can replace cooling water flow with air-cooled condensers (ACC) while maintaining current power output and plant efficiency levels with commensurate economic benefit ($/kW h). The simulated TE modules are located inside a coal-fired boiler wall constructed of wet steam tubes. The topping TE generator employs nontoxic and readily available materials with a realistic figure-of-merit range (ZT = 0.5-1.0). Detailed heat transfer and thermal analyses are included for t...
The Rankine cycle remains the dominant method of thermal plant electricity generation in the world t...
Low grade heat sources have a large amount of thermal energy content. Due to low temperature, the co...
Considering the high capital cost involved in new generation “clean technologies ” developing countr...
Despite the recent investment in renewable and sustainable energy sources, over 95% of the UK’s elec...
Traditional fossil fuel power generation process typically has low efficiency. Large amount of the e...
The efficiencies of nuclear power plants are rather poor having the ratio %30 by using the conventio...
Research focuses on developing the world’s first cost-effective combined heat and power (CHP) boiler...
We present a thermodynamic cycle design based on energy analyses for steam power plants (power stati...
Advantages of thermionic energy conversion (TEC) have been counted and are recounted with emphasis o...
Thermoelectric power generation accounts for a significant portion of the fresh water demand, with t...
1. Abstract – The application of a supercritical Rankine cycle in combined cycles does not happen in...
We analyzed the potential of thermoelectrics for electricity generation in a combined heat and power...
AbstractThe Rankine cycle remains the dominant method of thermal plant electricity generation in the...
The Rankine cycle steam turbine power plants make a base for world electricity production. The effic...
Today, most of the electricity produced throughout the world is from steam power plants. However, el...
The Rankine cycle remains the dominant method of thermal plant electricity generation in the world t...
Low grade heat sources have a large amount of thermal energy content. Due to low temperature, the co...
Considering the high capital cost involved in new generation “clean technologies ” developing countr...
Despite the recent investment in renewable and sustainable energy sources, over 95% of the UK’s elec...
Traditional fossil fuel power generation process typically has low efficiency. Large amount of the e...
The efficiencies of nuclear power plants are rather poor having the ratio %30 by using the conventio...
Research focuses on developing the world’s first cost-effective combined heat and power (CHP) boiler...
We present a thermodynamic cycle design based on energy analyses for steam power plants (power stati...
Advantages of thermionic energy conversion (TEC) have been counted and are recounted with emphasis o...
Thermoelectric power generation accounts for a significant portion of the fresh water demand, with t...
1. Abstract – The application of a supercritical Rankine cycle in combined cycles does not happen in...
We analyzed the potential of thermoelectrics for electricity generation in a combined heat and power...
AbstractThe Rankine cycle remains the dominant method of thermal plant electricity generation in the...
The Rankine cycle steam turbine power plants make a base for world electricity production. The effic...
Today, most of the electricity produced throughout the world is from steam power plants. However, el...
The Rankine cycle remains the dominant method of thermal plant electricity generation in the world t...
Low grade heat sources have a large amount of thermal energy content. Due to low temperature, the co...
Considering the high capital cost involved in new generation “clean technologies ” developing countr...