1) NaOH Absorption
NaOH吸收
2) NaOH absorbent
NaOH吸收剂
3) Sodium hydroxide
NaOH
1.
In this study the effect of the substitution of magnesium hydroxide for sodium hydroxide on the peroxide bleaching of masson pine CTMP was investigated.
探讨了Mg(OH)2部分取代NaOH对马尾松CTMPH2O2漂白的影响。
2.
Corn stalk was first treated for 30 days at ambient temperature by sodium hydroxide (NaOH), NaOH amount added was 8% of dry matter of corn stalk.
提出通过NaOH化学处理以改善玉米秸秆的可生物消化性能、提高玉米秸秆厌氧消化产气量的方法。
3.
It was further studied at fixed mAS/mFA (02) to investigate the effects of different proportions of additives (sulfur and sodium hydroxide) on metal immobilization in the mixture of asph.
并对沥青与飞灰的质量比(mAS mFA,其中AS代表沥青,FA代表飞灰)为0 2时作了进一步的研究,在此基础上加入不同比例的添加剂S和NaOH。
4) absorption
[英][əb'sɔ:pʃn] [美][əb'sɔrpʃən]
吸收
1.
Cu and Pb absorption and tolerance of Agrostis stolonifera and Festuca arundinacea;
翦股颖和高羊茅对铜、铅吸收及耐受性
2.
Influence of Joint Pollution of Zinc and Lead on Soil Metal Absorption by Non-heading Chinese Cabbage;
土壤Pb,Zn复合污染对作物吸收重金属的影响
3.
CFD simulation and optimization of flow field and SO_2 absorption in impinging stream scrubber;
液柱塔内流场和SO_2吸收的CFD模拟和优化
5) Adsorption
[英][æd'sɔ:pʃən] [美][æd'sɔrpʃən]
吸收
1.
Tolerance and Adsorption Characteristic of Conyza canadensis to Cadmium;
小飞蓬对Cd的耐性与吸收特性研究
2.
Study on the Adsorption and Accumulacation of Fluoride in Tea Plant and Primary Control;
茶树吸收富集氟的特性及初步调控研究
3.
The reproducible lithium silicate(Li4SiO4) material used for adsorption of CO2 was synthesized with lithium carbonate(Li2CO3)and silicon dioxide(SiO2) at 900 ℃ in 2 hours,and their adsorption capability of CO2 were studied.
用固相法合成了用来循环使用的吸收CO2的Li4SiO4材料。
6) absorb
[英][əb'sɔ:b] [美][əb'sɔrb]
吸收
1.
The transform and absorb of different phosphoric compound by submerged plant Hydrilla verticillata.;
沉水植物黑藻对不同磷化合物的转化与吸收
2.
Study on the Absorb of Shock in the Design of the Hydraulic System;
液压系统设计中有关液压冲击吸收问题的探讨
3.
The field film of the same nature and different colors reflects, transmits and absorbs the sun s successive spectrum;
同质异色地膜对太阳连续光谱的透射反射与吸收性能
补充资料:sodium hydrate NaOH
分子式:
CAS号:
性质:又称苛性钠。俗名烧碱或火碱。纯品为无色透明晶体。密度2.13g/cm3。熔点318.4℃。沸点1390℃。工业品含有少量碳酸钠和氯化钠,成为白色不透明晶体。有块状、片状、粒状和棒状,统称固碱。成浓溶液的产品俗称液碱。易溶于水。吸湿性大(液碱除外),放在潮湿空气中会逐渐转变成溶液。易从空气中吸收二氧化碳而逐渐变成碳酸钠。必须贮存在密闭的铁桶或玻璃容器中。对人的皮肤、织物、纸张有强烈腐蚀性。对眼的伤害很大。生产方法有食盐溶液电解法和化学法。化学法又有石灰苛化法等。是最基本、最重要的化工原料之一。用途极广。用于制造纸浆、肥皂、染料、人造丝、制铝、石油精制、棉织品整理、煤焦油产物的提纯,以及食品加工、木材加工及机械工业等方面。
CAS号:
性质:又称苛性钠。俗名烧碱或火碱。纯品为无色透明晶体。密度2.13g/cm3。熔点318.4℃。沸点1390℃。工业品含有少量碳酸钠和氯化钠,成为白色不透明晶体。有块状、片状、粒状和棒状,统称固碱。成浓溶液的产品俗称液碱。易溶于水。吸湿性大(液碱除外),放在潮湿空气中会逐渐转变成溶液。易从空气中吸收二氧化碳而逐渐变成碳酸钠。必须贮存在密闭的铁桶或玻璃容器中。对人的皮肤、织物、纸张有强烈腐蚀性。对眼的伤害很大。生产方法有食盐溶液电解法和化学法。化学法又有石灰苛化法等。是最基本、最重要的化工原料之一。用途极广。用于制造纸浆、肥皂、染料、人造丝、制铝、石油精制、棉织品整理、煤焦油产物的提纯,以及食品加工、木材加工及机械工业等方面。
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