1) Recycling Process
回收工艺路径
1.
Research on Method of Evaluation and Optimization of Recycling Processes of Household Appliance;
家电产品回收工艺路径评价及优化方法的研究
2) recovery technology
回收工艺
1.
The growth mechanism,formationcause and recovery technology of the dross in galvanizing production was discussed in this paper.
文章就热镀锌生产中锌渣的生长机制、形成原因及回收工艺、方法等方面进行了探讨。
3) recovery process
回收工艺
1.
The improvement and optimization of coarse slime recovery process in coal preparation plant;
选煤厂粗煤泥回收工艺的改进与优化
2.
Study on the recovery process of high-strength recycled aggregate and performance of recycled concrete
高强度再生骨料的回收工艺及再生混凝土性能研究
4) recycling process
回收工艺
1.
The recycling process planning of waste products is discussed systematically and the recycling process model of waste products is established.
系统地探讨了废旧产品回收工艺规划问题,建立了废旧产品回收过程模型。
2.
An agent-based decision-making model of recycling process is built, the algorithm of one step recycling process supported by expert system is raised, the case based reasoning search is applied in the routing recycling process network, and the system implementation process and method are analyzed.
本文建立了基于智能体的回收工艺决策模型 ,探讨了以专家系统支持的单步工艺决策和基于实例推理的网络路由搜索的自动回收工艺路线生成算法 ,分析了系统的实现过程与方法 ,最后以废旧电冰箱的回收过程为例进行了验证。
5) recycle process
回收工艺
1.
In order to offer a basis for evaluation on copper slag clean production,it is necessary to carry out a life cycle assessment for copper slag recycle process.
生命周期评价是判断生产工艺是否真正属于清洁生产范畴的基本方法,为了对铜渣回收工艺的清洁生产评价提供依据,有必要对铜渣回收工艺进行生命周期评价。
6) processing route
工艺路径
1.
In order to investigate the effect of different processing routes for the equal-channel angular pressing (ECAP) on the microstructure and property of magnesium alloy, AZ31 Mg alloy was prepared by means of ECAP in the die, with an intersecting angle (φ) of 120 ° and four processing routes of A, B_A, B_C, C, respectively.
为了研究等通道转角挤压时不同工艺路径对镁合金微观结构及性能的影响 ,采用模角φ =12 0°的模具 ,以A ,BA,BC,C四种工艺路径对AZ31镁合金进行了等通道转角挤压 ,分析测试了室温下挤压试样的微观结构及性能 。
补充资料:采气工艺(见天然气开采工艺)
采气工艺(见天然气开采工艺)
gas production technology
,一‘J\匕乙吕天然气开采工艺pro以uetionteehnology)见
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条