Abstract
Most cogeneration systems produce power and heat but with absorption refrigeration plants (ARP) the products are power and 'cold'. An ARP driven by heat from a turbine exhaust can provide the cooling for the inlet air with very low consumption of electricity, consequently there is a significant increase in power output from the cogeneration unit. Two different ARP systems are currently available but the author describes only the ammonia-water system, which can achieve temperatures down to -60 degrees C. The article discusses the principle behind ARP, the capital cost and returns on investment, how the cogeneration plant is linked to the ARP, ARP for turbine inlet air cooling, and the potential applications of cogeneration-ARP.
Langreck, Juergen
[1]
- Colibri bv (Netherlands)
Citation Formats
Langreck, Juergen.
Cogen-absorption plants for refrigeration purposes and turbine air inlet cooling.
United Kingdom: N. p.,
2000.
Web.
Langreck, Juergen.
Cogen-absorption plants for refrigeration purposes and turbine air inlet cooling.
United Kingdom.
Langreck, Juergen.
2000.
"Cogen-absorption plants for refrigeration purposes and turbine air inlet cooling."
United Kingdom.
@misc{etde_20120502,
title = {Cogen-absorption plants for refrigeration purposes and turbine air inlet cooling}
author = {Langreck, Juergen}
abstractNote = {Most cogeneration systems produce power and heat but with absorption refrigeration plants (ARP) the products are power and 'cold'. An ARP driven by heat from a turbine exhaust can provide the cooling for the inlet air with very low consumption of electricity, consequently there is a significant increase in power output from the cogeneration unit. Two different ARP systems are currently available but the author describes only the ammonia-water system, which can achieve temperatures down to -60 degrees C. The article discusses the principle behind ARP, the capital cost and returns on investment, how the cogeneration plant is linked to the ARP, ARP for turbine inlet air cooling, and the potential applications of cogeneration-ARP.}
journal = []
issue = {2}
volume = {1}
journal type = {AC}
place = {United Kingdom}
year = {2000}
month = {Apr}
}
title = {Cogen-absorption plants for refrigeration purposes and turbine air inlet cooling}
author = {Langreck, Juergen}
abstractNote = {Most cogeneration systems produce power and heat but with absorption refrigeration plants (ARP) the products are power and 'cold'. An ARP driven by heat from a turbine exhaust can provide the cooling for the inlet air with very low consumption of electricity, consequently there is a significant increase in power output from the cogeneration unit. Two different ARP systems are currently available but the author describes only the ammonia-water system, which can achieve temperatures down to -60 degrees C. The article discusses the principle behind ARP, the capital cost and returns on investment, how the cogeneration plant is linked to the ARP, ARP for turbine inlet air cooling, and the potential applications of cogeneration-ARP.}
journal = []
issue = {2}
volume = {1}
journal type = {AC}
place = {United Kingdom}
year = {2000}
month = {Apr}
}