1) copper tailing yard
铜尾矿库
1.
Analysis of vegetation state in the copper tailing yard in Tongling;
铜陵铜尾矿库植被状况分析
2) copper tailings
铜尾矿
1.
Transformation of Cu forms in Cynodon dactylon rhizosphere soil of copper tailings yard;
铜尾矿库区狗牙根根际土壤铜的形态变化
2.
Distribution of heavy metals forms and its affecting factors in rhizosphere soils of Hippochaete ramosissimum in large-scale copper tailings yard;
大型铜尾矿库区节节草(Hippochaete ramosissimum)根际土壤重金属形态分布与影响因素研究
3.
Effects of copper tailings on the growth of roots of five legume species;
铜尾矿对5种豆科植物根系生长的影响
3) copper milltailings
铜矿尾砂
1.
Study on reclamation technics of copper from copper milltailings;
从铜矿尾砂中回收铜的工艺研究
4) copper tailing yard
铜尾矿场
1.
Investigation of vegetation condition and soil enzymes activities on copper tailing yard in Tongling(Shizishan);
铜陵狮子山铜尾矿场植被调查与土壤酶活性研究
5) copper mine tailings
铜尾矿
1.
Study on soil animal community in copper mine tailings in Tongling city;
铜陵市铜尾矿土壤动物群落生态研究
2.
Effects of bio-crust on soil microbial biomass and enzyme activities in copper mine tailings
生物结皮对铜尾矿废弃地土壤微生物量及酶活性的影响
3.
Changes of soil enzyme activities in the copper mine tailings during natural succession
自然演替过程中铜尾矿土壤酶活性的变化
6) Copper tailing
铜尾矿
1.
A high quality glass-ceramics by using copper tailing and tantalum-niobium tail-ings as raw materials was made.
以铜尾矿和钽铌尾矿为主要原料制备了性能优良的微晶玻璃,并研究了钽铌尾矿用量、晶核剂、CaO用量对核化和晶化过程的影响。
2.
Pot experiments with Sorghum sudanense (Piper) Stapf were conducted in five different amendment substrates for the reclamation of copper tailing.
针对铜尾矿废弃地的复垦,选用苏丹草进行5种不同改良方式的盆栽试验。
补充资料:尾矿库水量平衡
尾矿库水量平衡
annual water balance for tailings impoun-dment
we.kuangku shu{llangP}ngheng尾矿库水量平衡(annual water balance fortailings impoundment)设计枯水年尾矿库进、出水量的计算与供、需水量的平衡。选矿厂从尾矿库回水时,需通过此计算确定尾矿回水系统的设计回水量。尾矿库进水量包括地表透流水量和尾矿浆带入水量。尾矿库可供水量为进水量与损失水量之差。损失水量包括水面蒸发水量、堆积尾矿空隙截留水量和尾矿库渗漏水量。为方便起见,常按进水量、损失水量和可供水量的顺序列表逐月计算。再根据年内逐月可供水量的平均值初定适当的回水量,求出逐月水的盈亏值及所需的尾矿库蓄水库容。当尾矿库实有蓄水库容小于所需的蓄水库容时,需降低回水量重新计算,直至前者等于或稍大于后者时为止。此时的回水量即为尾矿库在某坝高时的可能回水量。尾矿库在使用过程中坝高不断增加,库水面面积和实有蓄水库容也不断变化,故需对有代表性的不同使用期(初、中、后期)分别进行水量平衡计算,从几个可能的回水量中选取最小值作为尾矿库回水系统的设计回水量,或对不同使用期确定不同的设计回水量。 (穆鲁生)
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