机构地区:[1]同济大学新农村发展研究院,同济大学国家设施农业工程技术研究中心,上海200092
出 处:《农业工程学报》2017年第20期210-217,共8页Transactions of the Chinese Society of Agricultural Engineering
基 金:国家高技术研究发展计划(863计划)资助项目(2013AA103006-02)
摘 要:沼气工程全混式厌氧发酵池加温负荷计算准确性关系到整个系统设计合理性、运行稳定性和系统经济性,明确加温负荷模型并了解主要因素对其影响特性非常重要。针对上海实际沼气工程全混式厌氧发酵池热过程,建立加温负荷物理和数学模型,为分析加温负荷各组成部分的大小、对全年加热量的影响,提出月平均负荷百分比、月围护结构散热率、月平均池容日负荷、全年池容总加温负荷以及设计池容加温负荷5个指标。考察不同发酵温度和顶膜保温层厚度等主要因素对加温负荷的影响得出:上海地区发酵温度为(30±1)、(35±1)℃的加温负荷约是发酵温度为(25±1)℃的1.54和1.94倍;发酵温度35℃相对于发酵温度30℃,总加温负荷增加约40%,同时热量获得的难度加大,源侧进水温度相同时热泵机组制热能效比(coefficient of performance,COP)下降约0.6;确定经济发酵温度为30℃;通过对比顶膜采用橡塑保温层厚度分别为0、25、50和75 mm对加温负荷的影响,得出每增加25 mm橡塑保温层后围护结构散热负荷减少率为67.99%、16.49%和7.28%,总加温负荷减少率为48.02%、7.17%和2.85%,确定上海地区顶膜经济保温层厚度为50 mm。根据模型计算加温负荷结果与实际工程试验计算结果相比,相对误差在0.6%~7.8%之间,结果可以为沼气工程加温负荷计算和保温层厚度提供参考。Calculation accuracy of heating load in mixed anaerobic fermentation tank is related to design rationality, stability and economic operation of the whole system, so it is very important to master the heating load model and understand the influence of main factors on its characteristics. Aiming at the heat process of the whole mixed anaerobic fermentation tank of the actual biogas project in Shanghai, physical and mathematical model of heating load was established. Five indicators, i.e. monthly average load percentage, monthly heat dissipation rate of the envelope, monthly mean daily capacity of the pool, total heating load of pool capacity and designed heating load of pool, are used to analyze the size of heating load of the various components and the impact on the annual heat. The heating load of the biogas project mainly includes the feeding load and the heat dissipation of the envelope, in which the heating load of the feed liquid is related to the feeding amount, the feeding temperature and the temperature of the fermentation tank. The heat dissipation of the envelope is mainly related to the fermentation temperature, pool body structure materials, and so on. Therefore, it is necessary to study the relationship between the heating load characteristics and the fermentation temperature. This study takes a small fermentation tank with a volume of 15 m3 in Jiading Campus of Tongji University in Shanghai as the study object. The temperature of the fermentation tank is(25±1),(30±1) and(35±1) ℃, the total feeding amount is 750 kg per day, and the feeding time is between 10:00 and 10:30. It is concluded that the heat dissipation capacity of the envelope is larger than that of the feeding load, and the total heating load is closely related to the temperature of the fermentation tank, the ambient temperature and the temperature of the liquid. The effects of different fermentation temperatures and top film thicknesses of the insulation layer on the heating load show that the heating loads in Shanghai area under the
关 键 词:加温 发酵 负荷 沼气工程 全混式厌氧发酵池 物理和数学模型 影响因素
分 类 号:S216.4[农业科学—农业机械化工程] TK124[农业科学—农业工程]
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