当前位置:首 页 > bet36亚洲官网 > 正文

第四届国际化学链会议

 地点:江苏  发布时间:2016/9/22 10:08:39 字体大小:+
 会议开始时间:2016/9/26  会议结束时间:2016/9/28

会议背景介绍:

Chemical looping concept is based on the use of materials with oxidation‐reduction cycle that can either oxidize or reduce fuel. The required oxygen to convert fuel is provided by a redox material, eliminating the need of conventional air separation units. Its process was investigated to provide clean and efficient solutions for energy and environment, such as combustion, hydrogen production, gasification, reforming and waste disposal.

Carbonate looping is a very efficient post combustion CO2 capture technology with lowest energy demand and CO2 mitigation cost compared to other post combustion CCS processes.CO2 contained in the flue gas is absorbed by carbon carrier (solid sorbent) and released in aregenerator.

In recent years, researches have mainly been focused on oxygen/carbon carrier materials,reactor concepts, potential applications and emission control. The process has been investigated in several pilot plants at different scales, from lab scale test rigs to a semi-industrial scale. Theresearch involves different kinds of fuels, such as gaseous, liquid and solid fuel, and a number of different oxygen/carbon carrier materials.

The 1st international conference on Chemical Looping was hosted by Dr. Thierry Gauthier inIFP-Lyon, France in 2010. Prof. Dr.-Ing. Bernd Epple hosted the 2nd conference at TechnischeUniversitt Darmstadt, Germany in 2012. And Prof. Anders Lyngfelt was responsible for the 3rd conference at Chalmers University of Technology, Sweden in 2014.

第4届国际化学链会议将于2016年9月26日至28日在南京东南大学举行,请从事相关研究工作的老师和学生积极投稿。

征文范围及要求:

Chemical looping combustion pilot plants

Chemical looping for hydrogen productioin

Chemical looping gasification reforming

Chemical looping materials

Chemical looping modelling

Carbonate looping technology and modelling

E-MAIL: clc2016@pub.seu.edu.cn

会议网站: http://etcc.seu.edu.cn/f5/20/c7052a128288/page.psp

声明
1、 今日会议频道仅负责发布会议信息,部分会议信息来自互联网,由于网络的不确定性,今日会议对所发布的信息不承担真实性的鉴别工作。如需参会、汇款、获取邀请函或会议日程,请与主办单位联系,请谨慎选择汇款参会。今日会议不承担任何汇款参会的后果。
2、若您发现信息有误或需要信息发布,请联系:
010-50830819;邮箱:meeting@scitoday.cn.
Copyright ? 2014 北京今日创见科技有限公司 All Rights Reserved.
关于我们 | 网站声明 | 服务条款 | 联系方式
京ICP备 14047472号-1   京公网安备 11010502030844号