Moritz Wegener scite author profile

The growing demand for energy and the accelerating threats from climate change call for innovative and sustainable solutions to decrease dependency on fossil fuels. Biomass-based, small-scale Combined Cooling, Heating and Power (CCHP) systems are one of these solutions, because they can satisfy the energy demands of the consumer with enhanced flexibility, lower losses, less costs and less environmental pollution as compared to centralized facilities. Due to recent advances in several scientific subfields with relevance to small-scale CCHP, a rapidly increasing amount of literature is now available. Therefore, a structural overview is essential for engineers and researchers. This paper presents a review of the current investigations in small-scale CCHP systems covering biomass-fired concepts and solar extensions. To this end, critical system components are described and analysed according to their specific advantages and drawbacks. Recent case studies have been collected and key findings are highlighted according to each type of prime mover. The results indicate a scientific bias towards the economic viability of such systems and the need for real-life and experiment system data. However, the potential of biomass-fired CCHP systems and of such systems with solar extensions has clearly been recognised. Based on the results, future policy implementations should focus on fostering such systems in areas with high energy costs and to increase energy resilience in developed regions. Additionally research and industry applying novel prime mover technologies should be financially supported.

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Techno-economic optimization model for polygeneration hybrid energy storage systems using biogas and batteries

Wegener

Schneider

Malmquist

et al. 2021

Energy

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3E-Analysis of a Bio-Solar CCHP System for the Andaman Islands, India—A Case Study

Wegener

Isalgué²,

Malmquist

2019

Energies

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Energy services are especially expensive on remote islands due to longer and more unstable fuel supply chains. In this paper, different renewable energy systems utilizing locally available biomass and solar energy are proposed as alternatives for a hotel resort on Neil Island, India. Based on local demand data, commercial information, and scientific literature, four cases are modelled with the simulation software HOMER and their economic, energetic, as well as ecological (3E) performances are compared. The robustness of each case configuration is tested with a sensitivity analysis. The results show that a biomass-based, solar-assisted combined cooling, heating, and power (CCHP) system offers an economic saving potential of more than 500,000 USD over twenty years and could decrease CO2 emissions by 365 t per year. When not applying CCHP measures, system performance is significantly worsened. A solar and battery-assisted diesel generator system shows similar economic outcomes as the CCHP system but worse ecological performance. Implementing the biomass-based CCHP system could improve the ecological footprint of the island, substantially decrease expenditure for the hotel owner, and generate a new source of income for surrounding farmers through biomass selling.

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A techno-economic optimization model of a biomass-based CCHP/heat pump system under evolving climate conditions

Wegener

Malmquist

Isalgué³

et al. 2020

Energy Conversion and Management

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Moritz Wegener

Biomass-fired combined cooling, heating and power for small scale applications – A review

Techno-economic optimization model for polygeneration hybrid energy storage systems using biogas and batteries

3E-Analysis of a Bio-Solar CCHP System for the Andaman Islands, India—A Case Study

A techno-economic optimization model of a biomass-based CCHP/heat pump system under evolving climate conditions

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