Journal
ENERGY CONVERSION AND MANAGEMENT
Volume 271, Issue -, Pages -Publisher
PERGAMON-ELSEVIER SCIENCE LTD
DOI: 10.1016/j.enconman.2022.116207
Keywords
Solar collector; Cogeneration; CHP; Bioenergy; Hybridization; Multi-generation
Categories
Funding
- Danish Energy Agency?s Energy Technology Development and Demonstration Program (EUDP)
- [64015-0626]
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This study presents the design and performance of the Bronderslev hybrid plant, which is the world's first CSP-biomass plant to utilize waste heat. The plant successfully provides heat to the local district heating grid using a combination of solar collector field and biomass boilers, and the ORC system achieves high electrical efficiency. The results demonstrate the reliable operation of the hybrid plant and the potential of CSP-biomass hybridization.
This study presents the design and performance of the Bronderslev hybrid plant - the world's first concentrated solar power (CSP)-biomass plant to utilize waste heat. The combined heat and power plant consist of a 16.6 MW parabolic trough collector field, two 10 MW biomass boilers, and an organic Rankine cycle (ORC) system with an electrical output of 4 MW. The solar collector field and biomass boilers are hydraulically connected and supply heat in parallel to the ORC system. A multi-stage heat recovery process ensures that the waste heat is supplied to the local district heating grid. The solar field can also be operated independently of the biomass plant, supplying heat directly to the district heating grid. The plant operation was investigated by analyzing measurements for 2020, and the monthly heat and electricity generation was calculated for each component. Additionally, the performance of the solar field and ORC was elucidated, and the ORC was found to have a maximum electrical efficiency of 20.6 %. Detailed results are shown for one day with joint heat supply to the ORC from the solar field and biomass boilers, and the corresponding energy flows are visualized using a Sankey diagram. The total ef-ficiency of the biomass plant for the investigated year was 93.6 % based on the higher heating value of the fuel. Overall, it was found that the hybrid plant performed reliably and successfully demonstrated the potential of CSP-biomass hybridization.
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