Abstract
The outlines and preliminary evaluations of some power cycles are presented. Instead of the external combustion, the internal one in artificial air, the mixture of oxygen in flue gases, is proposed. It seems to be a radical solution to the problem of atmospheric protection due to transfer of all the emissions to brine flows in the hydrolithosphere. The use of new, steam-like turbines with elevated temperatures as in modern gas turbines gives the hope to compensate the efficiency decline, caused by oxygen production. All the evaluations are restricted by the thermodynamics only, without any cost appraisal. Use is made of the exergy analysis branch, referred to as exergonomics. 11 refs., 7 figs., 2 tabs.
Yantovskii, E I;
Zvagolsky, K N;
Gavrilenko, V A
[1]
- Russian Academy of Sciences, Moscow (Russian Federation). Inst. for Energy Research
Citation Formats
Yantovskii, E I, Zvagolsky, K N, and Gavrilenko, V A.
Computer exergonomics of power plants without exhaust gases.
United Kingdom: N. p.,
1992.
Web.
Yantovskii, E I, Zvagolsky, K N, & Gavrilenko, V A.
Computer exergonomics of power plants without exhaust gases.
United Kingdom.
Yantovskii, E I, Zvagolsky, K N, and Gavrilenko, V A.
1992.
"Computer exergonomics of power plants without exhaust gases."
United Kingdom.
@misc{etde_7264097,
title = {Computer exergonomics of power plants without exhaust gases}
author = {Yantovskii, E I, Zvagolsky, K N, and Gavrilenko, V A}
abstractNote = {The outlines and preliminary evaluations of some power cycles are presented. Instead of the external combustion, the internal one in artificial air, the mixture of oxygen in flue gases, is proposed. It seems to be a radical solution to the problem of atmospheric protection due to transfer of all the emissions to brine flows in the hydrolithosphere. The use of new, steam-like turbines with elevated temperatures as in modern gas turbines gives the hope to compensate the efficiency decline, caused by oxygen production. All the evaluations are restricted by the thermodynamics only, without any cost appraisal. Use is made of the exergy analysis branch, referred to as exergonomics. 11 refs., 7 figs., 2 tabs.}
journal = []
volume = {33:5/8}
place = {United Kingdom}
year = {1992}
month = {Jan}
}
title = {Computer exergonomics of power plants without exhaust gases}
author = {Yantovskii, E I, Zvagolsky, K N, and Gavrilenko, V A}
abstractNote = {The outlines and preliminary evaluations of some power cycles are presented. Instead of the external combustion, the internal one in artificial air, the mixture of oxygen in flue gases, is proposed. It seems to be a radical solution to the problem of atmospheric protection due to transfer of all the emissions to brine flows in the hydrolithosphere. The use of new, steam-like turbines with elevated temperatures as in modern gas turbines gives the hope to compensate the efficiency decline, caused by oxygen production. All the evaluations are restricted by the thermodynamics only, without any cost appraisal. Use is made of the exergy analysis branch, referred to as exergonomics. 11 refs., 7 figs., 2 tabs.}
journal = []
volume = {33:5/8}
place = {United Kingdom}
year = {1992}
month = {Jan}
}