1) recycling aqueous two-phase systems
可再生两水相
2) recyclable aqueous two-phase systems
可回用两水相
1.
Phase transfer catalyzed bioconversion of penicillin G to 6-APA by immobilized penicillin acylase in recyclable aqueous two-phase systems with light/pH sensitive copolymers;
在可回用两水相体系中进行青霉素酰化酶的相转移催化裂解青霉素G为6-APA
3) water resources renewability
水资源可再生性
1.
This paper has established a water resources renewability assessment index system according to the renewability characteristics of water resources and has made a comprehensive assessment of respective water resources renewability using the method of multi-level fuzzy comprehensive assessment in 16 regions of Yunnan province.
针对水资源可再生性的特点,建立了水资源可再生性评价指标体系,并采用多级模糊综合评判方法,对云南省16个地区的水资源可再生性进行了综合评价。
2.
The assessment indices system of surface water resources renewability in the Yellow River basin had been set up by the meaning of water resources renewability, and then the TOPSIS method was applied to assess the renewability of surface water .
本文根据水资源可再生性基本涵义建立了黄河流域地表水资源可再生性评价一般指标体系 ,并运用TOPSIS法进行评价 ,结果表明 :黄河流域主要产水区域如龙羊峡以上、湟水流域、洮河流域和渭河流域等都是水资源可再生性相对最强或较强的区域 ,北洛河流域是最弱的区域 ,其余属于中等或者较弱区域。
3.
Using statistical data,the water resources renewability of the 16 regions as well as the social renewability of the 15 main cities in the Yellow River Basin were assessed with GPPM method.
将黄河流域划分为15个区域(不含内流区),并把整个黄河流域作为一个区域,共16个区域,利用统计数据资料,采用遗传投影寻踪模型(GPPM)对黄河流域分区水资源可再生性以及流域15个主要城市水资源社会可再生性进行评价。
4) water resource renewability
水资源可再生性
1.
It is pointed out that water resource sustainable utilization is the final aim of water resource renewability.
本文探讨了对水资源可再生性及持续利用的一些基本认识 ,指出水资源的持续利用是水资源可再生性的最终落脚点 ,水资源的可再生性可用弱、中等、强来区分 ,水资源的弱可再生性是起点 ,水资源的强可再生性是最高境界 ,可以通过水资源可再生性维持来达到此最高境界 ,从而促进区域可持续发展。
5) two-stage regeneration
两段再生
6) two-stage regeneration process
两步再生法;两浴再生法
补充资料:“约束与调控相结合”的两原则
“约束与调控相结合”的两原则
【“约束与调控相结合”的两原则】有关资产负债管理的一种观点。这种观点认为,商业银行实行资产负管理,既要实施自我约束,又要服从系统调控。二者相辅相成。按照这种指导思想,资产负债管理应遵循以下两大原则:①负债约束资产的原则。实施总量约束和结构约束。②有利于增强系统调控原则。按照统一法人原则,统一调度资金,增强对全行资金的调拨配置能力,抑制一些分支机构超负荷经营行为。.
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
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