蒂森克虏伯采矿物料搬运技术有限公司多年来一直致力于制造电力驱动且节约能源和减少CO2排放的连续采矿设备。在一个研究连续采矿设备优势的项目框架下,蒂森克虏伯的工程师们在一般物理特性基础上,已经研究出一套计算能效和CO2排放的方法。在选择开采工艺时,能效和尽可能降低运行费用是主要决定因素。半移动破碎站和自移式破碎站在世界范围内的应用将会导致柴油驱动矿用卡车的减少。而除了节约成本,连续采矿设备在减少与运行相关的CO2排放方面,具有更大的潜能。 ThyssenKrupp Mining Materials Handling Technologies has for many years been dedicated to the manufacture of continuous mining equipment that is electrically driven and that conserves energy and reduces CO2 emissions. In the framework of a project to study the advantages of continuous mining equipment, ThyssenKrupp engineers have developed a methodology for calculating energy efficiency and CO2 emissions based on general physical properties. When choosing a mining process, energy efficiency and minimizing operating costs are the key determinants. The worldwide application of semi-mobile crushing plants and self-moving crushing plants will lead to the reduction of diesel driven mining trucks. In addition to cost savings, continuous mining equipment has greater potential for reducing operational-related CO2 emissions.