论文部分内容阅读
采用工业生态学的AT&T矩阵系统评价方法,对硼铁矿湿法分离过程的资源环境影响状况进行研究并与火法分离过程进行对比。对AT&T矩阵系统评价方法进行了改进,即指明了环境累积因子r及r’的存在,结合硼铁矿分离过程,提出过程综合指数N,进行了AT&T矩阵评价。研究结果表明:湿法与火法对于积极构建基于硼铁矿分离过程FLCA的工业生态园都是减缓资源消耗、降低环境压力的有力措施。针对目前硼铁矿属于“呆矿”范畴以及涉铀问题,认为后者更具优势。但也同时指出工业生态园建设进程中更应注意湿法与火法为技术主体地位的相异及适时推进性。
The industrial and ecological AT & T matrix system evaluation method was used to study the resource and environmental impact of the wet separation process of ferroboron and the comparison with the fire separation process. The evaluation method of AT & T matrix system was improved, which indicated the existence of environmental cumulative factors r and r ’. Combining with the separation process of perosorbite, the comprehensive process index N was proposed and the AT & T matrix was evaluated. The results show that both wet and fire methods are effective measures to reduce the resource consumption and reduce the environmental pressure in order to actively construct the industrial ecological park based on FLCA. In view of the current boron-iron ore belongs to the category of “dull mine” and involves uranium, the latter considers it more advantageous. But at the same time, it is also pointed out that the process of building the industrial ecological park should pay more attention to the difference and advancement of wet technology and fire law as the main body of technology.