Efficient power generation along with thermal treatment of aqueous stream using low grade heat

We report a process that can use a modified turbocharged piston engine to simultaneously heat-treat aqueous streams and produce electricity. The additional electricity generated by this process more than offsets the cost of heat-treating aqueous stream: thus opening up for commercial utilization wat...

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Bibliographic Details
Published in:Energy (Oxford) 2021-09, Vol.230, p.120712, Article 120712
Main Authors: Desai, Brijesh, Barodawala, Azhir, Dalvi, Vishwanath H.
Format: Article
Language:English
Subjects:
Compression
Compression ratio
Cost effectiveness
Efficiency
Electricity
Exergy
Heat
Heat treatment
Humidified air gas-power cycle
Low grade heat
Mass flow
Piston engines
Superchargers
Technoeconomic analysis
Water treatment
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Summary:We report a process that can use a modified turbocharged piston engine to simultaneously heat-treat aqueous streams and produce electricity. The additional electricity generated by this process more than offsets the cost of heat-treating aqueous stream: thus opening up for commercial utilization water treatment approach that was hitherto considered cost prohibitive. The process provides the technological means for remote or off-grid communities to simultaneously treat their aqueous wastes and generate electricity. In this work, we present a detailed technoeconomic evaluation of the process to demonstrate both its technical feasibility and its cost effectiveness. The variation in overall efficiency, specific work, low-grade heat efficiency and treatment cost of the aqueous stream is studied as a function of turbocharger exit pressure, piston engine compression ratio and mass flow ratio of the aqueous stream to air. For an optimized process, the overall efficiency of the system is 50%. The cost of aqueous stream treatment is negative at −0.998 US$ per cubic meter of water treated based on a 15% return on incremental investment. •Process to simultaneously heat treat aqueous streams and produce electricity.•Exergy of hot aqueous streams recovered as electricity with high efficiencies.•Simple process to generate electricity from low-grade or waste heat.•Power generated shown to offset cost of heat treatment of aqueous streams.
ISSN:0360-5442
1873-6785
DOI:10.1016/j.energy.2021.120712