电力系统保护与控制
電力繫統保護與控製
전력계통보호여공제
POWER SYSTM PROTECTION AND CONTROL
2014年
16期
27-32
,共6页
可控串联电容(TCSC)%次同步谐振(SSR)%基波阻抗复数模型%次频阻抗特性
可控串聯電容(TCSC)%次同步諧振(SSR)%基波阻抗複數模型%次頻阻抗特性
가공천련전용(TCSC)%차동보해진(SSR)%기파조항복수모형%차빈조항특성
thyristor controlled series capacitor (TCSC)%sub-synchronous resonance (SSR)%complex model of fundamental-frequency impedance%sub-synchronous frequency impedance characteristic
为了解决目前普遍应用的TCSC基波阻抗公式无法解释次频正电阻的问题,推导了TCSC基波阻抗的复数表达式,提出了TCSC导通角的选择依据。利用基波阻抗的复数形式,分析得到TCSC受导通角影响,基波电抗呈现出感性或容性特征,基波电阻会表现出负电阻和正电阻特性;次频电抗也会表现出感性或容性特征,次频电阻始终呈现正值。通过改变导通角使次频电抗呈感性能有效抑制SSR,使工频电阻为负值能够给次频正电阻提供能量;导通角的选择应同时满足工频下电抗呈容性、次频下呈感性以及工频下电阻为负值。算例分析表明, TCSC基于上述依据选择导通角能有效抑制系统的SSR,证明了导通角选择的合理性和基波阻抗表达式的正确性。
為瞭解決目前普遍應用的TCSC基波阻抗公式無法解釋次頻正電阻的問題,推導瞭TCSC基波阻抗的複數錶達式,提齣瞭TCSC導通角的選擇依據。利用基波阻抗的複數形式,分析得到TCSC受導通角影響,基波電抗呈現齣感性或容性特徵,基波電阻會錶現齣負電阻和正電阻特性;次頻電抗也會錶現齣感性或容性特徵,次頻電阻始終呈現正值。通過改變導通角使次頻電抗呈感性能有效抑製SSR,使工頻電阻為負值能夠給次頻正電阻提供能量;導通角的選擇應同時滿足工頻下電抗呈容性、次頻下呈感性以及工頻下電阻為負值。算例分析錶明, TCSC基于上述依據選擇導通角能有效抑製繫統的SSR,證明瞭導通角選擇的閤理性和基波阻抗錶達式的正確性。
위료해결목전보편응용적TCSC기파조항공식무법해석차빈정전조적문제,추도료TCSC기파조항적복수표체식,제출료TCSC도통각적선택의거。이용기파조항적복수형식,분석득도TCSC수도통각영향,기파전항정현출감성혹용성특정,기파전조회표현출부전조화정전조특성;차빈전항야회표현출감성혹용성특정,차빈전조시종정현정치。통과개변도통각사차빈전항정감성능유효억제SSR,사공빈전조위부치능구급차빈정전조제공능량;도통각적선택응동시만족공빈하전항정용성、차빈하정감성이급공빈하전조위부치。산례분석표명, TCSC기우상술의거선택도통각능유효억제계통적SSR,증명료도통각선택적합이성화기파조항표체식적정학성。
In-order-to-explain-the-positive-resistance-phenomenon-of-sub-synchronous-frequency-based-on-the-commonly-used-fundamental-frequency-impedance-of-TCSC,-the-complex-expression-of-fundamental-frequency-impedance-is-derived-and-selection-principle-of-TCSC-conduction-angle-is-proposed.-The-fundamental-frequency-reactance-of-TCSC-is-capacitive-or-inductive-and-its-resistance-will-be-negative-or-positive.-The-sub-synchronous-reactance-of-TCSC-will-also-be-capacitive-or-inductive-and-the-sub-synchronous-resistance-is-always-positive-with-conduction-angle’s-influence.-Inductive-reactance-plays-a-major-role-for-SSR-mitigation-and-power-frequency-negative-resistance-provides-energy-to-the-positive-resistance-under-sub-synchronous-frequency.-TCSC-conduction-angle’s-selection-should-make-sure-that-the-reactance-should-be-capacitive-under-power-frequency,-and-inductive-under-sub-synchronous-frequency,-meanwhile-the-power-frequency-resistance-should-be-negative.-Simulation-results-show-that-TCSC-can-mitigate-SSR-effectively-based-on-the-above-basis.-It-proves-rationality-of-selecting-the-conduction-angle-and-correctness-of-the-fundamental-frequency-impedance-expression.