Add to ORKGAbstract Oxy-fuel combustion is burning a fuel in oxygen rather than air for ease of capture of CO2 from for reuse or sequestration. Corrosion issues associated with the environment change (replacement of much of the N2 with CO2 and higher sulfur levels) from air- to oxy-firing were examined. Alloys studied included model Fe–Cr alloys and commercial ferritic steels, austenitic steels, and nickel base superalloys. The corrosion behavior is described in terms of corrosion rates, scale morphologies
The energy sector is globally the largest CO2 emitter. Carbon capture and storage (CCS) is a concept...
Under U.S. Department of Energy Cooperative Agreement No. DE-NT0005262 Foster Wheeler North America ...
Oxy-Fuel Fireside Research goals are: (1) Determine the effect of oxy-fuel combustion on fireside co...
Oxy-fuel combustion is burning a fuel in oxygen rather than air. The low nitrogen flue gas that resu...
Oxy-fuel combustion is based on burning fossil fuels in a mixture of recirculated flue gas and oxyge...
Oxy-fuel combustion is burning a fuel in oxygen rather than air. The low nitrogen flue gas that resu...
AbstractThis work encompasses evaluation of deposit and material related limitations on boiler perfo...
Oxyfuel combustion is considered as one of the most promising technologies to facilitate CO 2 captur...
AbstractWithin fireside corrosion tests performed at University of Stuttgart, two alloys dedicated f...
Oxy-combustion is the burning of a fuel in oxygen rather than air for the ease of capture of CO2 for...
Several material related issues may arise from oxyfuel combustion of coal due to the presence of CO2...
Oxyfuel combustion is considered as one of the most promising technologies to facilitate CO2 capture...
AbstractOperation of oxy-fuel power plants under ultra-supercritical parameters would help to overco...
Oxyfuel fired combustion has the potential to increase the fireside corrosion rates comparing to air...
AbstractThe present study investigates the fireside corrosion behavior of selected superheater mater...
The energy sector is globally the largest CO2 emitter. Carbon capture and storage (CCS) is a concept...
Under U.S. Department of Energy Cooperative Agreement No. DE-NT0005262 Foster Wheeler North America ...
Oxy-Fuel Fireside Research goals are: (1) Determine the effect of oxy-fuel combustion on fireside co...
Oxy-fuel combustion is burning a fuel in oxygen rather than air. The low nitrogen flue gas that resu...
Oxy-fuel combustion is based on burning fossil fuels in a mixture of recirculated flue gas and oxyge...
Oxy-fuel combustion is burning a fuel in oxygen rather than air. The low nitrogen flue gas that resu...
AbstractThis work encompasses evaluation of deposit and material related limitations on boiler perfo...
Oxyfuel combustion is considered as one of the most promising technologies to facilitate CO 2 captur...
AbstractWithin fireside corrosion tests performed at University of Stuttgart, two alloys dedicated f...
Oxy-combustion is the burning of a fuel in oxygen rather than air for the ease of capture of CO2 for...
Several material related issues may arise from oxyfuel combustion of coal due to the presence of CO2...
Oxyfuel combustion is considered as one of the most promising technologies to facilitate CO2 capture...
AbstractOperation of oxy-fuel power plants under ultra-supercritical parameters would help to overco...
Oxyfuel fired combustion has the potential to increase the fireside corrosion rates comparing to air...
AbstractThe present study investigates the fireside corrosion behavior of selected superheater mater...
The energy sector is globally the largest CO2 emitter. Carbon capture and storage (CCS) is a concept...
Under U.S. Department of Energy Cooperative Agreement No. DE-NT0005262 Foster Wheeler North America ...
Oxy-Fuel Fireside Research goals are: (1) Determine the effect of oxy-fuel combustion on fireside co...