2) Resource reclaiming
资源回收算法
3) Resources Auto-reclaimed
资源自动回收算法
4) memory-collecting optimization algorithm(COA)
内存回收优化算法(COA)
1.
In view of many fragments formed by the strategy of WebitOS on allocation and collection of memory space,a memory-allocating optimization algorithm(AOA) and memory-collecting optimization algorithm(COA) in memory space were put forward in the process of memory management.
针对W ebitOS的内存分配和回收策略容易形成多个碎片的问题,分别提出了内存分配过程中的内存分配优化算法(AOA)和内存回收过程中的内存回收优化算法(COA)。
5) Recycling method
回收方法
1.
In this paper,the classification and recycling style of magnesium alloy scraps firstly were introduced simply,then the recycling methods and quality controlling methods were reviewed emphatically,and existing problems and development direction were pointed out finally.
首先简单介绍了镁合金废料的分类及回收方式,然后重点回顾了镁合金废料的回收方法和质量控制措施,最后指出了目前还存在的问题,并对今后的发展方向进行了展望。
6) recovery process
回收法
1.
Mechanism study of NO_x removal from flue gas with the recovery process of absorption with acid following complex in aqueous solution and reduction with iron powder;
液相络合-铁粉还原酸吸收回收法脱除烟气中NO_x的机理研究
2.
The article proposes a novel recovery process for removal NO from flue gas by the absorption of acid following the complex of ferrous chelate in aqueous solution with reduction of iron powder.
提出了“Fe2+螯合剂络合-铁粉还原-酸吸收”回收法脱除烟气中NO的新工艺,重点研究了模拟烟气中O2体积分数对NO络合量的影响,以及铁粉用量、铁粉粒径、搅拌速度对NO脱除效率的影响,确定了最佳的铁粉脱氮工艺条件,并对铁粉和铁屑的脱氮效果进行了比较。
3.
A novel recovery process for removing NO from flue gas with the recovery process of absorption with acid following complexation with ferrous chelate in aqueous solution and reduction with iron powder was proposed.
提出了Fe2+螯合剂络合-铁粉还原-酸吸收回收法脱除烟气中NO的新工艺,重点研究了模拟烟气中O2含量对NO络合量的影响,以及铁粉用量、铁粉粒径和搅拌速度对脱氮效率的影响,确定了最佳的铁粉脱氮工艺条件,并对铁粉和铁屑的脱氮效果进行了比较。
补充资料:回收
分子式:
分子量:
CAS号:
性质:回收利用的一种。指从废物中分离出来的有用物质经过物理或机械加工成为再利用的制品。例如废玻璃、废金属等的回收利用。
分子量:
CAS号:
性质:回收利用的一种。指从废物中分离出来的有用物质经过物理或机械加工成为再利用的制品。例如废玻璃、废金属等的回收利用。
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