The state also ranks 39th for CO2 emissions from fossil fuel combustion.
化石燃料燃烧的CO2排放量居39位。
WHO is preparing new indoor air quality guidelines for household fuel combustion.
世卫组织正在针对家用燃料的燃烧问题起草室内空气质量新指南。
In which the fuel combustion as a major forest conditions, forest fire effects prominent.
其中在可燃物作为森林燃烧的重要条件,对森林火险影响突出。
Furthermore, the state has the fourth lowest rate of CO2 emissions from fossil fuel combustion.
更重要的是,这个州来自化石燃料燃烧的CO2排放量是最少的四个州之一。
Therefore, the accession of the biomass improved the mixed fuel combustion characteristics obviously.
生物质的加入对混合燃料的燃烧特性有比较明显的改善作用。
In fact, each unit volume of fuel combustion, about 1 million to unit volume of air through the filter.
事实上,每单位体积的燃油燃烧时,约需要有1万单位体积的空气通过滤清器。
Compared with air combustion, the wall surface heat transfer coefficient increased under oxy-fuel combustion.
富氧燃烧方式下管壁表面换热系数较空气燃烧方式升高。
In this paper, optimizing control of calcining heat and fuel combustion in a ring-type calciner are expounded.
本文阐述了碳素环式焙烧炉的温度控制和燃料优化控制。
Even oxy-fuel combustion, which has been used for more than a decade, is restricted by these heat transfer dynamics.
就连已被人们使用了十多年的氧燃料的燃烧法,也会受到这些传热动力学方面的限制。
Capturing CO2 from fossil fuel combustion is of importance in the CO2-constrained world for mitigation of climate warming.
控制和减缓化石能源燃烧所排放的CO2对于缓解全球变暖和温室效应具有重要意义。
For this purpose, the gas fuel combustion on different coefficient of air consumption has been described in this dissertation.
本文就是基于此目的,对不同空气消耗系数下的气体燃料燃烧展开了研究工作。
This paper introduces some results of theoretical and experimental aerodynamic investigation of base bleed by solid fuel combustion.
本文介绍固体燃料底部排气燃烧空气动力理论及实验研究的若干结果。
The "Keystone State" ranks 48th in CO2 emissions from fossil fuel combustion, 49th for particulates in the air, and 49th for toxic exposure.
拱心石之州在化石燃料燃烧产生CO2上排名48,可吸入颗粒排名49,毒素暴露位居49。
The finding that passive smoking and biomass fuel combustion also increase TB risk should be substantiated with larger studies in future.
被动吸烟和生物燃料的燃烧也会增加肺结核的感染风险的发现在未来还要经过大量的研究。
The temperature and concentration distribution in the aluminiferous solid fuel combustion are measured by BOXCARS with single laser pulse.
介绍了用单脉冲BOXCARS技术测量含铝固体燃剂燃烧场的温度及氮气的浓度。
With the gradual awareness of environmental protection, the pollutant emissions from fuel combustion have been paid more and more attention.
随着人类环保意识的逐渐加强,燃料燃烧的污染物排放问题成为社会普遍关注的话题。
After the spark plug ignition, the water molecule can generate much oxygen in the high temperature and high pressure to supply the fuel combustion.
在火花塞点火后,水分子在高温高压下产生大量的氧气,供油分子充分燃烧。
The analysis of duel-fuel combustion system of a diesel engine was made and the characteristics of the duel fuel combustion process were introduced.
对单缸柴油机双喷油器直喷燃烧系统进行了研究,分析了供油系统油管分叉夹角及截面收缩比、燃烧室油线布置及几何形状的优化原则。
Study on the laminar combustion characteristics of low calorific value gas fuel provide people with an overall understanding of the fuel combustion quality.
对低热值气体燃料层流燃烧特性的研究可对燃料的燃烧品质进行全面的了解,为其在发动机上的应用提供理论基础。
Human activities such as fossil fuel combustion, nitrogen fertilizer production and cultivation of nitrogen fixing crops are the main sources of reactive n.
人类活动,如燃料燃烧、氮肥生产、固氮植物的培育和畜牧业的集约经营等是引起全球活性氮增加的主要原因。
Comparing with the plain standard condition, the plateau low oxygen low pressure environment will have different influence on the fuel combustion characteristic.
相对于平原标准条件下,高原特殊的低氧低压环境对可燃物燃烧特性会产生很多不同方面的影响。
Road, also not crowded, not the automobile exhaust emissions, all with maglev instead of fuel combustion, thus "greenhouse effect" that a big problem also disappear.
道路上,也没有了拥挤,没有了汽车尾气的排放,全都用磁悬浮来代替燃料的燃烧,从而“温室效应”这一大难题也随之消失。
This paper introduces the mechanism, advantages of oxy-fuel combustion in glass melting furnace and there are some problems and solutions in the application process.
阐述了玻璃熔窑全氧燃烧技术的机理,全氧燃烧应用的优点以及应用过程中存在的一些问题和解决方法。
To accurately describe the fuel combustion and radiative heat transfer processes in furnaces is very crucial in comprehensive numerical simulation of ethylene pyrolyzer.
在乙烯裂解炉综合模拟研究中,准确地描述炉膛内燃料燃烧和辐射传热过程极其重要。
Macro assessment indicated that the largest source of CO2 emissions of refineries was fuel combustion, accounting for more than 90% of total CO2 emissions of refineries.
评估结果显示,我国炼化企业CO2最大排放源是燃料燃烧,占CO2排放总量的90%以上。
Macro assessment indicated that the largest source of CO2 emissions of refineries was fuel combustion, accounting for more than 90% of total CO2 emissions of refineries.
评估结果显示,我国炼化企业CO2最大排放源是燃料燃烧,占CO2排放总量的90%以上。
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