As shown in the figure below, two reversible cycles arranged in series each produce the same net work, Weycle- The first cycle receives energy QH by heat transfer from a hot reservoir at TH - 1000°R and rejects energy Q by heat transfer to a reservoir at an intermediate temperature, T. The second cycle receives energy Q by heat transfer from the reservoir at temperature Tand rejects energy Qc by heat transfer to a reservoir at Te- 450°R. All energy transfers are positive in the directions of the arrows. Hot reservoir at T1 RI cycle Reservoir at T R2 cycle Cold reservoir at Te

Elements Of Electromagnetics
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Author:Sadiku, Matthew N. O.
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As shown in the figure below, two reversible cycles arranged in series each produce the same net work, Weycle. The first cycle receives
energy Qu by heat transfer from a hot reservoir at TH - 1000°R and rejects energy Q by heat transfer to a reservoir at an intermediate
temperature, T. The second cycle receives energy Q by heat transfer from the reservoir at temperature Tand rejects energy Qe by
heat transfer to a reservoir at Te - 450°R. All energy transfers are positive in the directions of the arrows.
Hot reservoir at T
RI
W
cycle
Reservoir
at T
R2
Weycle
Cold reservoir at Te
Determine:
(2) the intermediate temperature T, in °R, and the thermal efficiency for each of the two power cycles.
(b) the thermal efficiency of a single reversible power cycle operating between hot and cold reservoirs at 1000°R and 450°R,
respectively. Also, determine the ratio of the net work developed by the single cycle to the net work developed by each of the two
cycles, Weycle
Transcribed Image Text:As shown in the figure below, two reversible cycles arranged in series each produce the same net work, Weycle. The first cycle receives energy Qu by heat transfer from a hot reservoir at TH - 1000°R and rejects energy Q by heat transfer to a reservoir at an intermediate temperature, T. The second cycle receives energy Q by heat transfer from the reservoir at temperature Tand rejects energy Qe by heat transfer to a reservoir at Te - 450°R. All energy transfers are positive in the directions of the arrows. Hot reservoir at T RI W cycle Reservoir at T R2 Weycle Cold reservoir at Te Determine: (2) the intermediate temperature T, in °R, and the thermal efficiency for each of the two power cycles. (b) the thermal efficiency of a single reversible power cycle operating between hot and cold reservoirs at 1000°R and 450°R, respectively. Also, determine the ratio of the net work developed by the single cycle to the net work developed by each of the two cycles, Weycle
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