Optimal Planning of Islanded Integrated Energy System With Solar-Biogas Energy Supply

Optimal Planning of Islanded Integrated Energy System With Solar-Biogas Energy Supply

Renewable-based integrated energy system (IES) is considered a viable energy supply alternative in many off-grid and remote regions of the world. However, high costs of islanded IESs with large-size batteries challenge further deployments of IESs. Considering the variable nature of renewable energy...

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Bibliographic Details
Published in:IEEE transactions on sustainable energy Vol. 11; no. 4; pp. 2437 - 2448
Main Authors: Li, Canbing, Yang, Hanyu, Shahidehpour, Mohammad, Xu, Zhenci, Zhou, Bin, Cao, Yijia, Zeng, Long
Format: Journal Article
Language:English
Published: Piscataway IEEE 01-10-2020
The Institute of Electrical and Electronics Engineers, Inc. (IEEE)
Subjects:
Alternative energy sources
anaerobic digestion
Batteries
Benders decomposition
Biogas
Biomass
Biomass energy production
Cogeneration
Complementarity
Energy
Energy storage
Integrated energy systems
Investment
Mixed integer linear programming
Optimal planning of integrated energy system
Peak load
Power system planning
Remote regions
Renewable energy
Residential energy
Sensitivity analysis
Solar energy
solar-biogas system
Temperature effects
two-stage MILP
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Summary:Renewable-based integrated energy system (IES) is considered a viable energy supply alternative in many off-grid and remote regions of the world. However, high costs of islanded IESs with large-size batteries challenge further deployments of IESs. Considering the variable nature of renewable energy and distinctive characteristics of abundant biomass energy in remote regions, this article proposes a distributed solar-biogas residential IES, which can supply thermal, electrical and gas loads in remote locations, and utilize the complementarity nature of solar and biogas energy for reducing the dependency of IES on battery storage system. The proposed IES planning model, formulated as a two-stage MILP problem, is solved by the Benders Decomposition (BD) method to determine the optimal capacity of each component in IES planning. According to the proposed sensitivity analyses, load levels and feedstock prices have a substantial influence on investment decisions and total cost. The article also incorporates the thermodynamic effect of temperature on anaerobic digestions and illustrates the complementary economic and technical merits of solar and biogas energy in daily IES operations. Illustrative examples show the corresponding IES advantages on investment cost reduction and peak load shaving.
ISSN:1949-3029
1949-3037
DOI:10.1109/TSTE.2019.2958562