1) calcium lime;calcium quick lime
(生)石灰
2) Burnt lime
生石灰
1.
Since 180 m~2 sintering plant commissioning, a series of measures to increase the mixture temperature were adopted such as improvement of burnt lime quality, pre-heating of sintering mixture and addition of hot red slurry etc.
该厂通过提高生石灰质量、采用蒸汽预热混合料、在混合机中加热红泥浆等,改善了混合料的透气性,进而提高了烧结矿产、质量。
2.
In order to improve sintering raw mix size composition, increasing sinter TFe content and reducing solid fuel consumption,the industrial sintering test with all burnt lime to replace the limestone in BaoGang Iron Making Plant was conducted, and anticipative effect was gaine
为了改善烧结混合料的粒度组成、提高烧结矿TFe含量、降低固体燃耗 ,包钢炼铁厂进行了用全生石灰取代石灰石的工业试验。
3.
The production and the proportion hydrate system modification of XIANGGANG №2 sintering plant using burnt lime were presented in this paper And some suggest for further improvement were propose
本文介绍了湘钢二烧使用生石灰的情况以及生石灰配消系统的改造情况 ,并提出了进一步完善的措
3) quicklime
生石灰
1.
Determination of calcium,magnesium,silicon,and sulfur in quicklime by X-ray fluorescent spectrometry;
X射线荧光光谱法测定生石灰中钙、镁、硅、硫
2.
Performance experiment on solidifying slurry of "cement-clay-fly ash-quicklime;
“水泥-黏土-粉煤灰-生石灰”固化浆液性能试验
3.
Make the mixture ration of quicklime stable and improve the sinter ore quality;
稳定生石灰配比 提高烧结矿质量
4) calcium oxide
生石灰
1.
The influences of calcium oxide dosage, stirring time, temperature and height of mineralized rubbish column on the treatment effect were investigated.
采用生石灰与矿化垃圾柱相结合的工艺处理电厂锅炉酸洗废水,考察了生石灰投加量、搅拌时间、温度及矿化垃圾柱高度对处理效果的影响。
2.
Citric acid cleaning wastewater from power plant was pretreated with calcium oxide and then treated with a three-layer mineralized refuse bio-reaction-bed which could be disassembled in laboratory and field test,the effect of the bio-reaction-bed layer number on the treatment efficiency was studied.
在实验室和现场对电厂柠檬酸酸洗废水进行生石灰前处理和后续可拆卸式三级矿化垃圾生物反应床的生物处理,主要研究了以往采用矿化垃圾反应床处理废水未涉及的反应床级数对废水处理效果的影响,比较了现场试验和实验室试验中的废水处理效果,并探讨了其原因。
3.
A new process which takes calcium oxide as the packing material and vitriol as the extractive agent has been suggested,the influence of process conditions on the dissolution ratio has been researched,and the chromium and cobalt elements dissolved from the waste catalyst have been detected by the atomic absorption spectroscopy(AAS).
对氟化工艺废铬钴催化剂回收利用进行了研究,提出以生石灰为填料,以硫酸为浸取剂的工艺路线,同时考察了工艺条件对其溶出率的影响,并采用原子吸收光谱法对废催化剂溶出液中的钴铬2种元素进行检测。
5) lime
生石灰
1.
Research of producing silica white through light silicon ash lime sintering and acid dissolving;
微硅粉生石灰煅烧酸溶制作白炭黑的研究
2.
Experimental research on swelling rocks′ roadbed improved with lime additive;
用生石灰改良膨胀岩基床的室内试验研究
3.
In this paper, based on the activation theory of alkali and sulphate, the influe nces and the hydrate mechanism of lime or lime compound activator on the mortar strength of slag cementitious materials was studied.
实验结果表明无论是生石灰或消石灰单独激发,还是消石灰和烧石膏、消石灰和烧石膏熟料复合激发,均可获得较高的抗折强度;单独用石灰或消石灰激发,抗压强度仅达到普通22。
6) quick lime
生石灰
1.
Study on indoor tests of fly ash and quick lime improving soft soils;
粉煤灰与生石灰加固软土的室内试验研究
2.
The problems in original transporting system of quick lime in sintering production of Shi Steel are introduced as well as the technology and equipment of air-transporting system.
简要介绍了石钢烧结原有生石灰输送系统存在的问题及其气力输送系统的工艺特点和设备。
3.
The goal,project selection and effect of transforming quick lime coordination and digestion system at Nansteel sintering plant are introduced.
介绍了南钢烧结厂生石灰配消系统改造的目的 ,改造方案的选择及效果 ,并提出了进一步完善的措
参考词条
补充资料:建筑生石灰
分子式:
分子量:
CAS号:
性质:又称气硬性石灰。以碳酸钙为主要成分的原料,在低于烧结温度下煅烧所得的原产品,主要成分为CaO。按化学成分分为钙质生石灰(氧化镁含量小于5%)和镁质生石灰(氧化镁含量在大于5%),并又分为优等品、一等品、合格品。建筑生石灰不准与易燃、易爆和液体物品混装,运输时要采取防水措施。
分子量:
CAS号:
性质:又称气硬性石灰。以碳酸钙为主要成分的原料,在低于烧结温度下煅烧所得的原产品,主要成分为CaO。按化学成分分为钙质生石灰(氧化镁含量小于5%)和镁质生石灰(氧化镁含量在大于5%),并又分为优等品、一等品、合格品。建筑生石灰不准与易燃、易爆和液体物品混装,运输时要采取防水措施。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。