超重力因子对CO2水合物生成过程的影响-《郑州大学学报(工学版)》

文章信息/Info

作者:: 白净; 梁德青; 吴能友; 等.; 郑州大学化工与能源学院,河南郑州450001;中国科学院广州天然气水合物研究中心,广东广州510640, 中国科学院广州天然气水合物研究中心,广东广州510640;中国科学院广州能源研究所,广东广州510640, 华南理工大学化工与能源学院,广东广州,510640, 郑州大学化工与能源学院,河南郑州,450001

Author(s):: BAI Jing1; 2; LIANG De-qing2; 3WU Neng-you3; FAN Shuan-shi1; FANG Shu-qi1; 1 : Sehool of Chemical Engineering and Energy , Zhengzhou University ,Zhengzhou 450001，China; 2:Guangzhou Center forGas Hydrate Research，Chinese Academy of Sciences ，Cuangzhou 510640，China; 3 :Cuangzhou Institute of Energy Conver-sion , Chinese Academy of Science,Guangzhou 510640, China; 4: School of Chemical Engineering and Energy , South China U-niversity of Technology ，Guangzhou 510640，China

Keywords:: hydrate; high gravity ; hydrate reactor; formation rate; conversion rate

摘要:: 围绕静态超重力水合反应器构建了一套气体水合物连续生产工艺,考察了该反应器内超重力因子对CO2水合物生成过程中一些重要参数的影响.实验发现,CO2水合物生产速率与超重力因子成指数增长关系,超重力因子为390.285时,CO2水合物生产速率达到最大值36.85 kg/h.在实验范围内CO2气体转化率与超重力因子的关系曲线类似抛物线,超重力因子大约为250左右时CO2气体转化率达到峰值,但总体上转化率不大于27％.同时,对新型水合反应器内CO2水合物生产过程的热量进行分析发现,实验范围内水合反应器热量利用的效率与超重力因子成线性增长关系,其最大值为87.39％.

Abstract:: In this paper, a static high gravity gas hydrate reactor was introduced into, and the CO, gas hydrateformation process was continuous with the processing equipment. The influence of the high gravity factor on theimportant parameters during the CO, hydrate formation process in the new hydrate reactor was investigated. Itwas shown that the CO,hydrate formation rate increased with the high gravity factor by the exponential func-tion.When the high gravity factor was 390.285,the maximal value of the CO,hydrate formation rate was upto 36.85kg/ h. Within the experiments,the change process was similar to a parabola between the CO,gas per-cent conversion rate and the high gravity factor. When the high gravity factor was about 250, the CO, gas con-version was up to the perk value，but on the whole of it was not more than 27% . Besides thermal analysis onthe processes were investigated with the high gravity factor from 20.162 to 390.285. It was found that the en-ergy utilization efficiency increased as a linear function with the high gravity factor,which the maximum valuewas 87.39% .