Effect of operation strategies on the economic and environmental performance of a micro gas turbine trigeneration system in a tropical region

This study investigates the effect of employment of different operation strategies on the economic and environmental performance of a micro gas turbine trigeneration system (MGT-TGS). The MGT-TGS covers power, heating and cooling load of a selected building in a tropical region. The prime movers use...

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Published in:Energy (Oxford) 2016-02, Vol.97, p.262-272
Main Authors: Basrawi, Firdaus, Ibrahim, Thamir K., Habib, Khairul, Yamada, Takanobu
Format: Article
Language:English
Subjects:
Economic
Economic conditions
Economics
Emissions
Emissions control
Environment management
Gas turbines
Micro gas turbine
Operation strategy
Reduction
Strategy
Trigeneration system
Tropical regions
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container_title Energy (Oxford)
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creator Basrawi, Firdaus
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Habib, Khairul
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description This study investigates the effect of employment of different operation strategies on the economic and environmental performance of a micro gas turbine trigeneration system (MGT-TGS). The MGT-TGS covers power, heating and cooling load of a selected building in a tropical region. The prime movers used were MGTs with electrical output capacity of 30 kW and 65 kW. Four operation strategies; Power-Match, Heat-Match, Mix-Match, and Base-Load were examined. The Net Present Value and Emissions Reduction Index throughout the life cycle of the MGTs were calculated. It was found that MGT-TGS can only generate positive NPV (Net Present Value) at the end of 25 years life time under unsubsidized electricity price. Mix-Match and Power-Match operation strategies can generate positive NPV because the systems can generate more electricity. However, these operation strategies cannot reduce emissions especially CO2 and CO when they were compared to a CCGT (Combined Cycle Gas Turbine). Base-Load is the only operation strategy that can reduce all emissions even when it is compared to a CCGT. When the economic and environmental performance is fairly considered using CPERI (Cost Per Emissions Reduction Index), Mix-Match is the optimum solution because it can generate CPERI of US$16.0–92,407, based on NPV. •Effect of operation strategy on the economic and environmental performance of MGT-TGS was investigated.•Mix-match and Power-match operation strategies can generate positive Net Profit.•Only base-load operation strategy can reduce emissions even when it is compared to CCGT.•Mix-match is the best operation strategy when economic and environmental performance were considered.•Cost Per Emissions Reduction Index shows that Mix-match can generate 16.0–92,407 US$/kg-emissions reduced.
doi_str_mv 10.1016/j.energy.2015.12.117
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source ScienceDirect Freedom Collection 2022-2024
subjects Economic
Economic conditions
Economics
Emissions
Emissions control
Environment management
Gas turbines
Micro gas turbine
Operation strategy
Reduction
Strategy
Trigeneration system
Tropical regions
title Effect of operation strategies on the economic and environmental performance of a micro gas turbine trigeneration system in a tropical region
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