mtbe

  • 网络甲基叔丁基醚(Methyl tert-Butyl Ether);甲基第三丁基醚;甲基叔丁醚

mtbemtbe

mtbe

甲基叔丁基醚(Methyl tert-Butyl Ether)

甲基叔丁基醚mtbe); 液化气; 丁二烯; 芳烃; 主营行业: 汽油添加剂; 燃料油添加剂; 经营模式: 生产加工 是否提供加工/定制服务:

甲基第三丁基醚

甲基第三丁基醚(MtBE)之气相光电催化分解反应特性与机制探讨 陈郁雯1洪崇轩2林怡利2蔡宗岳 陈郁雯 水中磺醯胺抗生素类化 …

甲基叔丁醚

溶石药物甲基叔丁醚MTBE)具有很强的脂溶性,可以引起恶心呕吐、烧灼感,十二指肠糜烂;注入肝实质可致肝坏死,注入 …

汽油添加剂

异丁烯是生产汽油添加剂MTBE)、低碳烯烃烷基化、混合低碳烯烃(轻汽油)醚化、丁基橡胶及有机玻璃等化学品的重要原 …

甲基特丁基醚(Methyl-t-butyl ether)

其中包括汽油添加剂中的甲基特丁基醚(MTBE) ,煤炭和石油中的苯。而其中绝大多数对人类健康的影响还是未知数。

1
Among the most significant soil contaminants are hydrocarbons, heavy metals, MTBE[7], herbicides, pesticides and chlorinated hydrocarbons. 其中最重的土壤污染物是碳氢化合物,重金属,甲基叔丁基醚[7],除草剂,杀虫剂和氯化烃。
2
Current research work shows that the individual sensitivities to MTBE may be different among the people. 目前的研究结果表明,不同的个体之间对MTBE的感受性可能存在差异;
3
The batch experiment was performed to investigate the adsorption characteristics of methyl tert-butyl ether(MTBE) in different clayey soils. 通过静态间歇吸附实验研究了甲基叔丁基醚(MTBE)在不同粘性土壤中的吸附特性。
4
Methyl tert-butyl ether is a widely used gasoline additive, for increasing fuel octane levels and reducing tailpipe emission of pollutants. 甲基叔丁基醚(MTBE)是一种汽油添加剂,广泛应用于中高档汽油中。
5
A fuel oxygenate, MTBE enhances the octane in gasoline and decreases carbon monoxide emission by increasing burning efficiencies. 燃料氧化时,甲基叔丁酯(MtBE)提高了汽油中的辛烷值,从而通过提高燃烧效率来减少了一氧化碳的泄露。
6
There is no justification for attributing the issue of leakage solely to MTBE, while ignoring other petrol components. 将泄漏问题全部归罪于MTBE,同时却忽略汽油中的其它成分是不公平的。
7
Pesticide residues, chlorinated solvents, MTBE petrol additives and oil and petrol may pose a threat to clean groundwater. 农药残留,氯化溶剂,汽油添加剂,油和汽油都可能威胁到地下水的清洁。
8
The first commercialization of catalytic distillation technology is for synthesis of MTBE, a gasoline octane improver. 催化蒸馏技术的首次工业化是为了合成MTBE,一种汽油辛烷值改进剂。
9
Microbial biodegradation of MTBE involves both the aerobic and anaerobic metabolism. 微生物降解主要涉及有氧代谢和无氧代谢两大途径。
10
MTBE is a human suspected carcinogen, therefore, on the issue of MTBE pollution and degradation technology is very important and practical. 而MTBE具有人体可疑致癌性,因此,研究MTBE的环境污染问题及降解修复技术具有重要的现实意义。
11
TThis paper introduces working condition, principle, and technological process of preparing isobutene by MTBE cracking methods. 本文介绍了MTBE裂解法制备异丁烯的生产条件、原理、工艺流程。
12
In recent years, MTBE has been detected in groundwater and surface water in many cities of the world. 近年来,世界各国的许多城市的水源水中相继检测出甲基叔丁基醚(MTBE)。
13
MTBE, TAME are the ideal stabilizers in 21st century. IN the near future, there will be no products to take their place. TAME等醚类产品是二十一世纪清洁汽油最理想的稳定剂,近期内尚无其它产品可以取代。
14
China's major, ethanol consumption structure in the future will move to down-stream products like alcohol fuels, MTBE and acetic acid. 今后,我国甲醇消费结构将重点转移到醇类燃料、甲基叔丁基醚、醋酸等下游产品上。本文简要介绍了醋酸、甲醛。
15
and the possible effect of MTBE on human being existing under the conditions of long and low exposure is debated. 不同学者对于长期低浓度接触情况下,MTBE对人体健康可能会产生的影响存在争论。
16
The study results of the toxicity of methyl tertiary butyl ether (MTBE) were reviewed. 对国内外有关甲基叔丁基醚(MTBE)毒性的研究结果作了综述。
17
EC-300 has performed ahead of expectation in field testing for removal of MTBE. EC-300的表现超在去除MTBE方面大大超出了我们的预期。
18
When gasoline included the additive MTBE, it last crossed the $1 barrier in February 2004. 2004年2月汽油中加入添加物MTBE后价格就跨过了1美元的门槛。
19
MTBE and its metabolites have some genotoxicity and a little reproductive toxicity; MTBE及其代谢产物具有一定的遗传毒性和轻微的生殖毒性;
20
Impact of MTBE phase out on chemical markets MTBE 禁用对化工品市场的影响
21
Influence of MTBE addition into gasoline on emission performance of a EFI gasoline engine 掺烧MTBE对电喷汽油机排放特性的影响
22
Production Technology of MTBE by Mixed Phase Catalyst Distillation and its Quality Control 混相催化蒸馏法生产MTBE的技术及质量控制
23
Characteristics and Affecting Factors of MTBE Removal by Several Physicochemical Processes 物化法去除MTBE的特性与影响因素
24
Dynamic Simulation and Control Strategy Evaluation for MTBE Reactive Distillation Process MTBE反应精馏过程动态模拟和控制系统分析
25
Screening for MTBE Degrading Bacteria and Its Degrading Kinetics MTBE降解菌的分离及降解动力学分析
26
Study on the separation of methanol and MTBE by the combined process of distillation and pervaporation 精馏和渗透蒸发耦合过程分离MTBE和甲醇的研究
27
Study on Acidity and Catalytic Activity of the Catalyst for MTBE Cracking to Isobutene MTBE裂解制异丁烯催化剂表面酸性与活性的研究
28
Design of Combined Control Strategy of MTBE Reactive Distillation Process 甲基叔丁基醚反应精馏过程联合控制方案设计
29
Analysis and Mathematical Simulation of Heat Pipe Reactor for MTBE Synthesis 甲基叔丁基醚热管反应器的数学模拟与分析
30
Potential harmfulness of MTBE and discussion about its substitute MTBE的潜在危害及其替代产品的探讨