电力系统自动化
電力繫統自動化
전력계통자동화
AUTOMATION OF ELECTRIC POWER SYSTEMS
2012年
10期
14-18
,共5页
于大洋%黄海丽%雷鸣%李新%张波%韩学山
于大洋%黃海麗%雷鳴%李新%張波%韓學山
우대양%황해려%뢰명%리신%장파%한학산
电动汽车%风力发电%协同调度%碳排放%调度自动化
電動汽車%風力髮電%協同調度%碳排放%調度自動化
전동기차%풍력발전%협동조도%탄배방%조도자동화
electric vehicle%wind power generation%coordinated dispatch%CO2 emission%dispatch automation
在电动汽车充电与风电协同调度模型的基础上,提出了协同调度碳减排效益的测算模型,定量分析了电动汽车充电与风电协同调度在电网和交通领域的碳减排效益。首先计算火电碳排放因子,然后比较协同调度和自由充电模式下的碳排放量。通过电动汽车单位碳排放量的计算模型,比较燃油汽车、纯火电充电、自由充电和协同调度充电电动汽车的碳排放水平。分别以电网平均碳排放水平和车辆单位碳排放水平衡量,协同调度相对于自由充电模式贡献的减排效益都随着风电装机容量增加而显著增加。因此,协同调度是实现风电和电动汽车规模化协调利用的一种有效手段。
在電動汽車充電與風電協同調度模型的基礎上,提齣瞭協同調度碳減排效益的測算模型,定量分析瞭電動汽車充電與風電協同調度在電網和交通領域的碳減排效益。首先計算火電碳排放因子,然後比較協同調度和自由充電模式下的碳排放量。通過電動汽車單位碳排放量的計算模型,比較燃油汽車、純火電充電、自由充電和協同調度充電電動汽車的碳排放水平。分彆以電網平均碳排放水平和車輛單位碳排放水平衡量,協同調度相對于自由充電模式貢獻的減排效益都隨著風電裝機容量增加而顯著增加。因此,協同調度是實現風電和電動汽車規模化協調利用的一種有效手段。
재전동기차충전여풍전협동조도모형적기출상,제출료협동조도탄감배효익적측산모형,정량분석료전동기차충전여풍전협동조도재전망화교통영역적탄감배효익。수선계산화전탄배방인자,연후비교협동조도화자유충전모식하적탄배방량。통과전동기차단위탄배방량적계산모형,비교연유기차、순화전충전、자유충전화협동조도충전전동기차적탄배방수평。분별이전망평균탄배방수평화차량단위탄배방수평형량,협동조도상대우자유충전모식공헌적감배효익도수착풍전장궤용량증가이현저증가。인차,협동조도시실현풍전화전동기차규모화협조이용적일충유효수단。
Based on a coordinated dispatch model of the electric vehicle (EV) and wind power, the model of CO2 emission reduction benefit is established to analyze CO2 emission reduction both in the power grid and transport sector. CO2 emission factor of thermal power is calculated, and then CO2 emissions under EV charging with and without coordinated dispatch are compared. CO2 emissions of gasoline-powered cars and EVs charged by thermal power, charging with and without coordinated dispatch with wind power are compared through the calculating model of CO2 emissions per unit. Taking average CO2 emissions of power grid and per unit of vehicles as measures, the CO2 emission reduction by coordinated dispatch compared to EV charging without coordinated dispatch increases significantly along with the increase of wind power installed capacity. Consequently, coordinated dispatch is an effective means to realize collaborative use of large-scale wind power and EVs.