2) medical waste incineration plant
医疗垃圾焚烧系统
3) waste incineration
垃圾焚烧
1.
Inhibitory effect of sulfur on the formation of dioxins during waste incineration process;
硫对垃圾焚烧过程中二恶英生成的抑制作用
2.
Studies on characteristics of distribution of heavy metals over waste incineration;
垃圾焚烧工况对重金属分布特性的研究
3.
A study on factors influencing distribution of heavy metals in waste incineration;
垃圾焚烧过程中影响重金属分布因素的研究
4) MSW incineration
垃圾焚烧
1.
Investigation on fouling mechanism of heat transfer surfaces in MSW incineration and control method;
垃圾焚烧炉尾部受热面积灰及其抑制方法分析
2.
Experimental study on flue gas purifying of MSW incinerationusing an in-pipe jet adsorption technics;
管道喷射吸附法净化垃圾焚烧尾气试验研究
3.
Practice of dioxin zero-discharge technologies in the flue gas from MSW incineration;
垃圾焚烧烟气中二噁英零排放技术实践
5) refuse incineration
垃圾焚烧
1.
Dry desulfurization for gas from refuse incineration furnace;
垃圾焚烧炉烟气干法脱硫
2.
Dry dust removal and desulphurization technology using refuse incineration ash and slag particles on moving bed;
垃圾焚烧灰渣颗粒移动床干法除尘脱硫技术
3.
Discussion of technological improvement for refuse incineration process in fluidized bed;
流化床垃圾焚烧炉工艺改进的探讨
6) municipal solid waste incineration
垃圾焚烧
1.
The hazard of flue gases pollutants including acid gases,heavy metals,dioxins from the municipal solid waste incineration is introduced,and control measures for these pollutants product.
垃圾焚烧污染物存在形式及数量与焚烧条件和净化系统密切相关。
2.
This study compared the extraction efficiencies of Cu, Zn and Pb from the fly ash of municipal solid waste incineration (MSWI) by three different processes: water washing, acid washing and wash+acid washing.
以垃圾焚烧的一次飞灰为研究对象,比较了水洗,酸洗以及水洗结合酸洗工艺对飞灰中重金属元素Cu,Zn和Pb的洗脱率的影响,并应用XRD,SEM/EDS等研究了飞灰在水洗和酸洗过程中颗粒形态和矿物相组成的变化。
3.
Taking Shuanggang waste-to-energy plant in Tianjin city as an example,introduced the applications of semi-dry process in flue gas purification in municipal solid waste incineration.
以天津市双港垃圾焚烧发电厂为例,介绍了半干式烟气净化工艺在垃圾焚烧烟气净化中的应用。
补充资料:垃圾焚烧炉
分子式:
CAS号:
性质:可以处理城市生活垃圾或工业废料、废液。先将垃圾除去金属,然后与燃料、空气充分混合后焚烧。可根据垃圾的形态采用不同炉型。如是固体干料,可用固定炉排的焚烧炉。如是能够用泵输送的浆料,可用沸腾床焚烧炉。如是废液污水,可用旋风炉焚烧。高温焚烧可达1600℃,常温则为800~1200℃。焚烧垃圾可消灭细菌等有害微生物与寄生虫卵。其发生的热量可以利用。
CAS号:
性质:可以处理城市生活垃圾或工业废料、废液。先将垃圾除去金属,然后与燃料、空气充分混合后焚烧。可根据垃圾的形态采用不同炉型。如是固体干料,可用固定炉排的焚烧炉。如是能够用泵输送的浆料,可用沸腾床焚烧炉。如是废液污水,可用旋风炉焚烧。高温焚烧可达1600℃,常温则为800~1200℃。焚烧垃圾可消灭细菌等有害微生物与寄生虫卵。其发生的热量可以利用。
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