Novel Solar-Biomass polygeneration system based on integration of ICE-ORC-MDC-HDH-RO and tomato greenhouse to produce power, freshwater, and biological wastewater treatment

•Presentation of Novel integrated solar-biomass polygeneration system with tomato greenhouse.•Integration of microbial desalination cell, humidification-dehumidification, and reverse osmosis desalination for freshwater production and wastewater treatment.•Comparison of three biomass fuels to select...

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Bibliographic Details
Published in:Energy conversion and management 2024-05, Vol.308, p.118349, Article 118349
Main Authors: Khoshgoftar Manesh, Mohammad Hasan, Davadgaran, Sepehr, Mousavi Rabeti, Seyed Alireza
Format: Article
Language:English
Subjects:
administrative management
air
alfalfa
algorithms
Anisoptera (Odonata)
biofuels
biomass
carbon dioxide
climate change
desalination
energy balance
energy efficiency
environmental impact
exergy
freshwater
gasification
Greenhouse
greenhouses
heat
Humidification-Dehumidification
humidity
internal combustion engines
Microbial Desalination Cell
Myrmeleontidae
Optimization
Polygeneration
power generation
reverse osmosis
solar energy
Solar-Biomass
synthesis gas
tomatoes
wastes
wastewater treatment
wheat straw
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Summary:•Presentation of Novel integrated solar-biomass polygeneration system with tomato greenhouse.•Integration of microbial desalination cell, humidification-dehumidification, and reverse osmosis desalination for freshwater production and wastewater treatment.•Comparison of three biomass fuels to select the suitable fuel for the integration system.•Multi-objective optimization of the proposed polygeneration system by three metaheuristic algorithms.•Dynamic modeling of the tomato greenhouse using energy and humidity balance. From the perspective of energy, greenhouses can be considered as a black box that exchanges water and energy. Among the applications of modern polygeneration energy systems, the supply of water and energy chains for industrial greenhouses can be mentioned. The present work, presents an innovative solar-biomas polygeneration system for the demand of water, power, and wastewater treatment of a tomato greenhouse. For the power generation in the polygeneration system, an internal combustion engine based on biomass fuel and an organic Rankine cycle using the waste heat of the internal combustion engine have been used. The freshwater production in the system has also been created using the integration of microbial desalination cells, humidification-dehumidification desalination, and reverse osmosis desalination systems. In this section solar energy is used to supply the required heat. The CO2 capture unit in the polygeneration system has been used to remove CO2 from the combusted syngas and it can generate the CO2 demand in the tomato greenhouse. The syngas production in the proposed polygeneration system is created by an air gasification unit. The presented polygeneration system has been evaluated by energy, exergy, exergoeconomic, exergoenvironmental, emergoeconomic, emergoenvironmental (6E) analyses. To present the efficient condition for the proposed polygeneration system investigation of alfalfa, tomato waste, and wheat Straw as suitable biomass fuel for the system was performed. Finally, multi-objective optimization using genetic, dragonfly, and ant-lion algorithms has been performed for the optimization of the whole system. For the integration of the tomato greenhouse with the presented polygeneration system, the water and energy demand of the greenhouse was extracted from the energy balance and humidity balance of the greenhouse. The energy demand of the greenhouse has been reported monthly according to the climate change in Tehran. The ma
ISSN:0196-8904
DOI:10.1016/j.enconman.2024.118349