Design of a biomass-heating network with an integrated heat pump: A simulation-based multi-objective optimization framework

[Display omitted] •A multi-objective simulation–optimization framework based on the genetic algorithm.•Additional integration of gasifier cogeneration to provide power for heat pumps.•Simultaneous consideration of system techno-economic and environmental aspects.•Determination of optimal design para...

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Bibliographic Details
Published in:Applied energy 2022-11, Vol.326, p.119922, Article 119922
Main Authors: Chen, Yusheng, Guo, Tong, Kainz, Josef, Kriegel, Martin, Gaderer, Matthias
Format: Article
Language:English
Subjects:
Biomass heating
Gasifier cogeneration
Genetic algorithm
Heat pump
Integration
Optimization
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Summary:[Display omitted] •A multi-objective simulation–optimization framework based on the genetic algorithm.•Additional integration of gasifier cogeneration to provide power for heat pumps.•Simultaneous consideration of system techno-economic and environmental aspects.•Determination of optimal design parameters combinations and system configuration. The integration of compression heat pumps is a promising technology to recover waste heat from exhaust gases of a biomass-based heating network. This requires, however, the consumption of additional electricity, which has a high emission factor or a high price in many countries. In this context, the integration of small-scale gasifier cogeneration is supposed to be superior technology to provide the necessary power for heat pumps. Nevertheless, the multiple possibilities of integrating these components imply a high degree of system complexity and, therefore, higher design requirements. To maximize the benefits of the integrated system, development of an optimization approach at the system level is necessary, so that the connection variants of the heat pump, the installation of gasifier cogeneration, and their optimal design can be adequately planned. This work introduces a multi-objective simulation–optimization framework for the design of the proposed integrated system based on the genetic algorithm, taking into account the complex thermodynamic processes as well as the techno-economic performances and environmental impacts of the concepts. As a case study, an existing biomass heat network located in Germany is investigated to test the capabilities of the proposed approach. The analysis of the optimization results demonstrates that it is possible to ensure the effective utilization of biomass resources while simultaneously achieving the economic and environmental compatibility of the system through an appropriate optimization design. The proposed simulation–optimization framework allows decision-makers to achieve an optimal system design under the given constraints and the chosen objectives.
ISSN:0306-2619
1872-9118
DOI:10.1016/j.apenergy.2022.119922