1) chemical water demand
化学需水量
1.
The chemical water demand (CWD) necessary for complete hydration of belite-calcium sulfoaluminate-ferrite clinkers is calculated, taking into account gypsum added during final grinding.
计算了贝利特 -硫铝酸盐 -铁酸盐熟料与终磨时加入的石膏完全水化时所需的化学需水量 (简称CWD) 。
3) COD
[英][,si: əʊ 'di:] [美]['si 'o 'di]
化学需氧量
1.
Comparison of Monitoring COD in Water with Rapid Monitoring Method and Potassium Dichromate Method;
快速测定法和重铬酸钾法测定水中化学需氧量之比较
2.
DETERMINATION OF COD IN WASTEWATER EFFLUENTS BY MERCURY-FREE CLOSE-TUBE METHOD;
无汞盐密封法测定高氯浓度水样的化学需氧量
3.
The Proficiency Testing of Lower COD in Water is Verified;
水中超低浓度化学需氧量检测的能力验证
4) chemical oxygen demand(COD)
化学需氧量
1.
Development of Determination of Chemical Oxygen Demand(COD) by UV Absorption Spectrum;
紫外吸收光谱法直接测定化学需氧量的研究进展
2.
A method is proposed for the determination of chemical oxygen demand(COD) in environmental water samples with merging zone stop-flow injection spectrophotometry in KMnO4 system.
研究了KMnO4体系流动注射合并带停留分光光度法对环境水样中化学需氧量(COD)测定的试验条件,包括反应试剂KMnO4的浓度、载流H2SO4的酸度、采样泵泵速及停留时间、反应温度、试剂体积和采样环体积。
3.
To rapidly determine the pollution extent of wastewater,the potential of near infrared(NIR) spectroscopy for measurement of chemical oxygen demand(COD) in wastewater was investigated.
为快速确定废水的污染程度,研究了运用近红外光谱法测量废水化学需氧量(COD)的可行性。
5) CODcr
化学需氧量
1.
Study of detections for the CODcr in the waste water with model JHR-1 saving energy COD thermostatic heater;
JHR-1型节能COD恒温加热器测定废水中化学需氧量(CODcr)方法探讨
2.
The result showed that the effluent condition was very stable and had a high CODcr removal rate, the average removal rate was between 75 % and 80 % and the hydrophilicity of fiber could greatly improve the effluent condition.
结果表明:处理后出水稳定,化学需氧量CODcr去除率高,平均CODcr去除率在75% ̄80%;改善填料的亲水性能有利于提高出水水质,选用的聚丙烯腈纤维和聚乙烯醇纤维在同等处理条件下的处理效率分别高出参照纤维聚丙烯6。
3.
Ultraviolet spectrophotometry is used to determine the CODCr of landfill leachate.
采用紫外分光光度法对垃圾渗沥液中的化学需氧量(Chemical Oxygen Demand,CODCr)进行了测定。
6) Chemical oxygen demand (COD)
化学需氧量
1.
The purpose of studying the correlation of total organic carbon (TOC) with permanganate index and chemical oxygen demand (COD) has been stated.
叙述了研究总有机碳与高锰酸盐指数及化学需氧量相关关系的目的。
2.
The results showed that the removal efficiency of chemical oxygen demand (COD) and decoloration efficiency were above 95%.
结果表明,经过该法处理后,废水中的化学需氧量(Chemical Oxygen Demand ,COD) 和色度的去除率都在95 % 以上。
3.
In this paper, ion interferences in the flow injection analysis (FIA) of Chemical Oxygen Demand (COD) using Boron-Doped Diamond (BDD) electrode were investigated and a mathematical method for chloride reduction was proposed.
本文对掺硼金刚石(BDD)膜电极结合流动注射(FIA)化学需氧量(COD)测定的干扰离子进行分析,并提出消除氯离子干扰的有效方法。
补充资料:植物需水量
植物全生育期内总吸水量与净余总干物重(扣除呼吸作用的消耗等)的比率。由于植物所吸收的水分绝大部分用于蒸腾,所以需水量也可认为是总蒸腾量与总干物重的比率。如用每形成 1克干物质需要蒸腾水分的克数表示,则称蒸腾系数。如稻的蒸腾系数为680,小麦为540,玉米为370(见表)。系数愈大则水分利用效率愈低。蒸腾系数的倒数,即植物每蒸腾失水1000克所形成干物质的克数称蒸腾效率,其值越大则水分利用效率越高。一般植物的蒸腾效率为1~8。各种作物的水分利用效率不同。一般四碳植物的需水量低于三碳植物。这与两者的地理起源不同,形态、结构、生理、生化特性以及由此所决定的光合效率不同有关(见光合作用)。四碳植物由于有较高的光合固碳效率,一般气孔频率低于三碳植物,因而增大了气孔对水分的阻力,减少了蒸腾失水,提高了水分利用效率。同一种作物的需水量,还常因其他条件变化而异,如在土壤缺乏氮、磷、钾等无机营养时,水分利用效率降低,需水量增加。参与水分代谢的水分称生理需水。由于土面或棵间蒸发以及因径流与渗漏等而需要消耗的一定量水分,则并不被吸入植物体内参与水分代谢,只具有调节生态环境中水平衡的作用,因而可称为生态需水。灌溉时计算的作物需水量实际上是生理需水与生态需水的总量。作物需水量的测定,对计算农业用水、灌溉定额以及选择适合干旱地区栽培的作物类型等都具有重要意义。
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