IEEE Access (Jan 2023)

Design, Development, and Testing of a Flexible Combined Heat and Power (F-CHP) System With 10-kV SiC MOSFET-Based Power Conditioning System (PCS) Converter

  • Haiguo Li,
  • Zihan Gao,
  • Fei Wang,
  • Yiwei Ma,
  • Yu Su,
  • Dingrui Li,
  • Pengfei Yao,
  • Shiqi Ji,
  • Zhe Yang,
  • Ruirui Chen

DOI
https://doi.org/10.1109/ACCESS.2023.3335380
Journal volume & issue
Vol. 11
pp. 134769 – 134793

Abstract

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This paper discusses the design, development, and testing of a flexible combined heat and power (F-CHP) system. It includes two parts: the power conditioning system (PCS) converter, which connects the system to the grid and is the key component to provide grid support services, and the F-CHP central controller, which accommodates the control of local sources, local loads, and the PCS converter. The functions and structures of the central controller are discussed. The central controller’s system-level performances are verified with hardware-in-the-loop (HIL) tests, and the mode transition and grid transient performances are validated with power electronic converter-based hardware testbed (HTB) tests. The PCS converter is designed with 10-kV SiC MOSFETs. The grid requirements are considered in the 13.8-kV/1-MW PCS converter design, and the impact of different requirements on the converter design is identified. Also, converter scalability is studied with the paralleling operation. Two 13.8-kV/100-kW converter prototypes are developed to verify the converter design and scalability. The second prototype is an improved design of the first one; the volume is reduced by 49% and the efficiency at the rated output power is increased from 96.4% to 98.4%. The test results of the converter performances, grid support functions, and parallel operation are also discussed.

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