期刊
IEEE TRANSACTIONS ON POWER DELIVERY
卷 36, 期 5, 页码 2893-2903出版社
IEEE-INST ELECTRICAL ELECTRONICS ENGINEERS INC
DOI: 10.1109/TPWRD.2020.3029312
关键词
AC-DC power conversion; batteries; DC-DC power conversion; energy storage; frequency response; inertia; STATCOM; supercapacitors
资金
- Engineering, and Physical Sciences Research Council (EPSRC) [EP/L015471/1]
This paper presents a delta-connected Modular Multilevel STATCOM with partially rated storage (PRS-STATCOM) that can provide short-term energy storage enabled grid support services. A control structure has been developed to allow energy transfer and active power exchange between standard sub-modules (STD-SMs) and energy storage element sub-modules (ESE-SMs), reducing the required ESE-SMs fraction effectively.
This paper proposes a delta-connected Modular Multilevel STATCOM with partially rated storage (PRS-STATCOM), capable of providing both reactive, and active power support. The purpose is to provide short-term energy storage enabled grid support services such as inertial, and frequency response, either alongside or temporarily instead of standard STATCOM voltage support. The topology proposed here contains two types of sub-modules (SM) in each phase-leg: standard sub-modules (STD-SMs), and energy storage element sub-modules (ESE-SMs) with a dc-dc interface converter between the SMcapacitor, and the ESE. A control structure has been developed that allows energy transfer between the SMcapacitor, and the ESE resulting in active power exchange between the converter, and the grid. Injecting 3rd harmonic current into the converter waveforms can be used to increase the amount of power that can be extracted from the ESE-SMs, and so reduce the required ESE-SMs fraction in each phase-leg. Simulation results demonstrate that for three selected active power ratings, 1 pu, 2/3 pu, and 1/3 pu, the fraction of SMs that need be converted to ESE-SMs are only 69%, 59% & 38%. Thus, the proposed topology is effective in adding real power capability to a STATCOM without a large increase in equipment cost.
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