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Methods Of Increasing Net Work Output Of Organic Rankine Cycles For Lowgrade Waste Heat Recovery With A Detailed Analysis Using A Zeotropic Working Fluid Mixture And Scroll Expander Brandon Jay Woodland

Name: Methods Of Increasing Net Work Output Of Organic Rankine Cycles For Lowgrade Waste Heat Recovery With A Detailed Analysis Using A Zeotropic Working Fluid Mixture And Scroll Expander Brandon Jay Woodland
SKU: BELL-37499416
Price: 31.00 USD
Availability: InStock
Rating: 5 (18 reviews)

SKU: BELL-37499416

Methods Of Increasing Net Work Output Of Organic Rankine Cycles For Lowgrade Waste Heat Recovery With A Detailed Analysis Using A Zeotropic Working Fluid Mixture And Scroll Expander Brandon Jay Woodland

$ 31.00 ~~$ 45.00~~ (-31%)

5.0

18 reviews

Methods Of Increasing Net Work Output Of Organic Rankine Cycles For Lowgrade Waste Heat Recovery With A Detailed Analysis Using A Zeotropic Working Fluid Mixture And Scroll Expander Brandon Jay Woodland instant download after payment.

Publisher: Purdue University

File Extension: PDF

File size: 12.72 MB

Pages: 680

Author: Brandon Jay Woodland

Language: English

Year: 2015

Product desciption

Methods Of Increasing Net Work Output Of Organic Rankine Cycles For Lowgrade Waste Heat Recovery With A Detailed Analysis Using A Zeotropic Working Fluid Mixture And Scroll Expander Brandon Jay Woodland by Brandon Jay Woodland instant download after payment.

An organic Rankine cycle (ORC) is a thermodynamic cycle that is well-suited for waste
heat recovery. It is generally employed for waste heat with temperatures in the range
of 80 °C – 300 °C. When the application is strictly to convert waste heat into work,
thermal efficiency is not recommended as a key performance metric. In such an
application, maximization of the net power output should be the objective rather than
maximization of the thermal efficiency. Two alternative cycle configurations that can
increase the net power produced from a heat source with a given temperature and flow
rate are proposed and analyzed. These cycle configurations are 1) an ORC with twophase
flash expansion and 2) an ORC with a zeotropic working fluid mixture (ZRC).