摘要
能值转换率是能值计算分析的关键参数。论文根据资源产品的特征和属性,在分析水电工程建设主要投入产出的基础上,提出了水力发电的能值转换率计算方法。案例研究表明:1)中国水力发电的能值转换率总体呈减小的趋势,由2003年的2.41×1012se J/k Wh减小到2014年的5.69×1011se J/k Wh,但于2011年后逐步趋于稳定;2)中国水力发电的能值转换率,与美国水力发电的能值转换率相当,高于利用太阳能发电技术输出的电力的能值转换率,低于热电厂输出的电力的能值转换率;3)影响中国水力发电能值转换率的主要因素是水库淹没及水利设施占用的土地,以及土石方等不可更新资源的投入。研究提出了减小水力发电能值转换率的4个有效途径,并得到了水力发电的能值转换率,可为水电工程生态效应定量分析提供基础数据。
Emergy analysis theory is a new quantitative analysis method to assess ecological effects of hydropower projects. In order to evaluate unified and quantitative ecological effects of hydropower project with emergy analysis, hydropower transformiy must be calculated firstly. Transformity is the key parameter for emergy calculation analysis. Transformity configuration system of hydropower project is established, its input being the hydropower project construction, and its output being the positive and negative effects on social, economic and ecological environment. According to the characteristics and attributes of resources and products, the transformity calculation method of hydropower is developed based on the inputoutput analysis of hydropower projects. The method can calculate the hydropower transformity not only for all hydropower projects of a country, but also for a specific hydropower project.Accurately accounting the inputs and outputs of the hydropower project construction is the basic work to calculate the hydropower transformity. The quality of the account will influence the accuracy of the hydropower transformity calculation results. The studies are shown as follows. Firstly, the hydropower transformiy of China showed a decreasing trend, from 2.41 ×1012se J/k Wh in 2003 to 5.69×1011se J/k Wh in 2014. But after 2011, it gradually stabilized. This means that the effectiveness of hydropower project construction was improved, and the effects of hydropower development on social, economic and ecological environment became stable.But it will stabilize while the technology and management level of the production is relativelystable. Secondly, Chinese hydropower transformity is comparable to the hydropower transformity in the US, higher than the transformity of solar power generation and lower than the transformity of thermal electric power. This shows that the transformity for the same product is different in countries with different production and management levels. At the same time, the transformity for the
出处
《自然资源学报》
CSSCI
CSCD
北大核心
2016年第11期1958-1968,共11页
Journal of Natural Resources
基金
教育部人文社会科学研究规划基金项目(14YJAZH030)
浙江省教育厅项目(FX2014071)~~
