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机构地区:[1]天津大学建筑设计规划研究总院,天津300384 [2]天津城建大学能源与安全工程学院,天津300384 [3]天津中怡建筑规划设计有限公司,天津300384
出 处:《环境工程学报》2017年第8期4732-4736,共5页Chinese Journal of Environmental Engineering
基 金:天津市教委社科重大项目(2016JWZD33);国家自然科学基金资助项目(51506141)
摘 要:为了使沼气罐内有一个相对均匀的温度环境、提高沼气的产气效率,通过改变沼气罐内的加热位置,找出能使沼气罐内温度场均匀的加热位置,减小罐内温度梯度过大对发酵造成的影响。用实验研究和数值模拟相结合的方法,研究沼气罐内的温度场分布情况,结果表明,中部加热较上部加热和下部加热能取得良好的罐内温度场,温度梯度较小,使罐内上、中、下各部分温度分别维持在33.95、34.02和33.6℃,比传统的采用下部换热能取得更好的温度场。To maintain a relatively steady environmental temperature and improve the efficiency of biogas production,the temperature field distribution in a biogas tank was studied by changing the position at which heating was applied. The goal was to find the location from which heating could provide a uniform temperature field and minimize the impact of an overly steep temperature gradient on the fermentation process. With a combination of experimental study and numerical simulation,the temperature field in the tank was studied and the results showed that centrally located heating could obtain a better temperature field than with upper or heating locations.Moreover,central heating could keep the temperature of upper,central,and lower areas at 33. 95,34. 02,and 33. 6 ℃,respectively. This results in a lower temperature gradient and gets a better temperature field than that obtained with traditional heating in the lower area.
分 类 号:X705[环境科学与工程—环境工程]
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