电网技术
電網技術
전망기술
POWER SYSTEM TECHNOLOGY
2012年
1期
129-134
,共6页
廖国栋%侯益灵%谢欣涛%杨高才
廖國棟%侯益靈%謝訢濤%楊高纔
료국동%후익령%사흔도%양고재
直供负荷%三绕组变压器%中压配电网
直供負荷%三繞組變壓器%中壓配電網
직공부하%삼요조변압기%중압배전망
direct-fed load%three-winding transformer%medium-voltage distribution network
现有高、中压网络规模估算模型通常假设高压变电站主变为双绕组变压器,但220kV变电站主变多为三绕组变压器,其低压侧直供负荷会影响110kV变电站的布局和规模,为此建立了计及三绕组变压器低压侧直供负荷影响的高、中压网络规模估算模型。在此基础上,针对城市新建区和城市改造区分别分析了220/110/10(20)kV三绕组变压器低压侧直供负荷对220/110/10、220/110/20、220/20kV方案技术经济性的影响。分析结果表明,对于城市改造区,不考虑主变低压侧负荷直供情况下得到的发展20kV技术经济性最优结论,在主变低压侧有直供负荷时可能不再成立。
現有高、中壓網絡規模估算模型通常假設高壓變電站主變為雙繞組變壓器,但220kV變電站主變多為三繞組變壓器,其低壓側直供負荷會影響110kV變電站的佈跼和規模,為此建立瞭計及三繞組變壓器低壓側直供負荷影響的高、中壓網絡規模估算模型。在此基礎上,針對城市新建區和城市改造區分彆分析瞭220/110/10(20)kV三繞組變壓器低壓側直供負荷對220/110/10、220/110/20、220/20kV方案技術經濟性的影響。分析結果錶明,對于城市改造區,不攷慮主變低壓側負荷直供情況下得到的髮展20kV技術經濟性最優結論,在主變低壓側有直供負荷時可能不再成立。
현유고、중압망락규모고산모형통상가설고압변전참주변위쌍요조변압기,단220kV변전참주변다위삼요조변압기,기저압측직공부하회영향110kV변전참적포국화규모,위차건립료계급삼요조변압기저압측직공부하영향적고、중압망락규모고산모형。재차기출상,침대성시신건구화성시개조구분별분석료220/110/10(20)kV삼요조변압기저압측직공부하대220/110/10、220/110/20、220/20kV방안기술경제성적영향。분석결과표명,대우성시개조구,불고필주변저압측부하직공정황하득도적발전20kV기술경제성최우결론,재주변저압측유직공부하시가능불재성립。
In existing models to estimate the scale of high- and medinm-voltage power network, it s normally assumed that the main transformers of HV substations are two-winding transformers, however in 220 kV substations their main transformers are mostly three-winding transformers, so the direct-fed loads at their low-voltage side will influence on both layouts and scales of 110 kV substations. For this reason, a model to estimate the scale of high- and medium voltage network, in which the influence of direct-fed load at low-voltage side of three-winding transformer is taken into account, is built. On this basis, the influences of direct-fed loads at low voltage side of 220/110/10 kV and 220/110/20 kV three-winding transformers on the techno-economical performances of 220/110/10 kV, 220/110/20 kV and 220/20 kV schemes for newly built urban areas and those for renewal urban areas are analyzed respectively. Analysis results show that for renewal urban areas, the conclusion that adopting voltage grade 20 kV for low-voltage network can bring optimal techno-economical performance, which is obtained under the condition that the direct-fed load of low-voltage side of three-winding transformer is not taken into account, could be no more tenable.