电力系统自动化
電力繫統自動化
전력계통자동화
AUTOMATION OF ELECTRIC POWER SYSTEMS
2012年
15期
45-50
,共6页
柳璐%王和杰%程浩忠%刘建琴
柳璐%王和傑%程浩忠%劉建琴
류로%왕화걸%정호충%류건금
全寿命周期成本%经济性评估%评估策略%评估指标%电力系统
全壽命週期成本%經濟性評估%評估策略%評估指標%電力繫統
전수명주기성본%경제성평고%평고책략%평고지표%전력계통
life cycle cost%economic evaluation%evaluation strategy%evaluation indicator%power systems
为了克服当前电力系统经济性评估忽视中长期成本、注重短期投资的不足,从元件、费用、时间的角度建立了一个针对电力系统整体的三维全寿命周期成本(LCC)模型,研究了费用维度中设备级、系统级和外部环境成本的费用分解结构。提出了基于LCC的电力系统经济性评估策略,对设备寿命周期不同的系统进行折算,对设备投运时间不同的系统进行分阶段计算,对传统的经济性评估指标进行改进并提出了基于LCC的效能指标。针对某实际500kV变电站和110kV配电网分别进行算例分析,结果表明基于LCC的经济性评估结果更为准确和有效,为进一步深化电力系统资产管理提供了参考。
為瞭剋服噹前電力繫統經濟性評估忽視中長期成本、註重短期投資的不足,從元件、費用、時間的角度建立瞭一箇針對電力繫統整體的三維全壽命週期成本(LCC)模型,研究瞭費用維度中設備級、繫統級和外部環境成本的費用分解結構。提齣瞭基于LCC的電力繫統經濟性評估策略,對設備壽命週期不同的繫統進行摺算,對設備投運時間不同的繫統進行分階段計算,對傳統的經濟性評估指標進行改進併提齣瞭基于LCC的效能指標。針對某實際500kV變電站和110kV配電網分彆進行算例分析,結果錶明基于LCC的經濟性評估結果更為準確和有效,為進一步深化電力繫統資產管理提供瞭參攷。
위료극복당전전력계통경제성평고홀시중장기성본、주중단기투자적불족,종원건、비용、시간적각도건립료일개침대전력계통정체적삼유전수명주기성본(LCC)모형,연구료비용유도중설비급、계통급화외부배경성본적비용분해결구。제출료기우LCC적전력계통경제성평고책략,대설비수명주기불동적계통진행절산,대설비투운시간불동적계통진행분계단계산,대전통적경제성평고지표진행개진병제출료기우LCC적효능지표。침대모실제500kV변전참화110kV배전망분별진행산례분석,결과표명기우LCC적경제성평고결과경위준학화유효,위진일보심화전력계통자산관리제공료삼고。
In order to overcome the neglect of medium- and long-term costs while underestimating short-term investment in current power systems in economic evaluation, a 3-dimensional life cycle cost (LCC) model for the power system as a whole is developed in the perspective of the component dimension, the cost dimension and the time dimension. The cost dimension is studied by structurally analyzing the device layer, the system layer and the cost of surroundings. A series of strategies for economic evaluation based on LCC is presented. The conversion methods are studied for devices with different life cycles. Multistage calculation is applied for devices with different runtimes. The traditional economic evaluation indicators are improved and the efficiency indicators based on LCC are proposed. Case studies are made on an actual 500 kV substation and 110 kV distribution network, respectively. It is shown that the economic evaluation results are much more accurate and valid, providing a reference for further deepening asset management of power systems.
