Multidisciplinary design optimization on production scale of underground metal mine 被引量：4

Multidisciplinary design optimization on production scale of underground metal mine

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摘要 In order to ensure overall optimization of the underground metal mine production scale, multidisciplinary design optimization model of production scale which covers the subsystem objective function of income of production, safety and environmental impact in the underground metal mine was established by using multidisciplinary design optimization method. The coupling effects from various disciplines were fully considered, and adaptive mutative scale chaos immunization optimization algorithm was adopted to solve multidisciplinary design optimization model of underground metal mine production scale. Practical results show that multidisciplinary design optimization on production scale of an underground lead and zinc mine reflect the actual operating conditions more realistically, the production scale is about 1.25 Mt/a (Lead and zinc metal content of 160 000 t/a), the economic life is approximately 14 a, corresponding coefficient of production profits can be increased to 15.13%, safety factor can be increased to 5.4% and environmental impact coefficient can be reduced by 9.52%. In order to ensure overall optimization of the underground metal mine production scale, multidisciplinary design optimization model of production scale which covers the subsystem objective function of income of production, safety and environmental impact in the underground metal mine was established by using multidisciplinary design optimization method. The coupling effects from various disciplines were fully considered, and adaptive mutative scale chaos immunization optimization algorithm was adopted to solve multidisciplinary design optimization model of underground metal mine production scale. Practical results show that multidisciplinary design optimization on production scale of an underground lead and zinc mine reflect the actual operating conditions more realistically, the production scale is about 1.25 Mt/a （Lead and zinc metal content of 160 000 t/a）, the economic life is approximately 14 a, corresponding coefficient of production profits can be increased to 15.13%, safety factor can be increased to 5.4% and environmental impact coefficient can be reduced by 9.52%.

作者左红艳罗周全管佳林王益伟

机构地区 School of Resource and Safety Engineering

出处《Journal of Central South University》 SCIE EI CAS 2013年第5期1332-1340,共9页 中南大学学报（英文版）

基金 Project(2012BAK09B02-05) supported by the National "Twelfth Five-year" Science & Technology Support Plan of China

关键词多学科设计优化地下金属矿山生产规模免疫优化算法优化模型环境影响安全系数铅锌矿 underground metal mines production scale multidisciplinary design optimization adaptive mutative scale chaosoptimization algorithm immunization

分类号 TD21 [矿业工程—矿井建设]

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