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Analysis of carbon emission reduction in multi-power areas under the greenhouse gas emission reduction method |
JIN Ding-Qiang1,2, ZHUANG Ke1,2, YAO Jie1,2, HUANG Kui1,2 |
1. Guodian Science and Technology Research Institute, Nanjing 210031, China;
2. Nanjing Power Equipment Quality and Performance Test Center, Nanjing 210031, China |
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Abstract In this paper,we analyzed the linkage relationship between the electric supply and demand,CO2 emission limit value and resource supply and economic target value,so that the cost optimization programming model could be built under the CCER and CDM mechanism.The balance point would be found between the optimal cost of the system and the CO2 emissions in the inevitable risk condition.The results showed that coal-fired power plant,oil-fired power plant,biomass power plant,wind power and hydropower would increase expansion capacity of 200MW,200MW,100MW,450MW and 300MW,the total CO2 emissions was[208.15,275.38]×106t,emissions of CO2 by coal-fired and oil-fired power plant accounted for total emissions of[82.8%,87.9%].In addition,CCER and NEM could accurately dig CO2 reduction potential out in the multi-power areas,for example,under the CCER mechanism,CO2 emission reduction were[5.83,6.12]×106t,[8.95,9.78]×106t and[11.57,14.22]×106t each period,at the same time,NEM mechanism could effectively promote the clean energy development and expansion.Carbon emission reduction mechanism was conducive to realizing the goal of "high carbon" to "low carbon",so that the decision-makers could formulate a scheme of "energyeconomy-environment".
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Received: 19 December 2016
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