【作者】 刘东方；

【导师】 黄志甲；

【作者基本信息】 安徽工业大学 ， 供热、供燃气、通风及空调工程， 2011， 硕士

【摘要】 低温储粮是指使粮堆平均温度长期保持在15℃（低温）或20℃（准低温）及以下。随着人们对粮食安全的更高要求及节能技术的发展,低温储粮新技术的开发与其相关综合技术的应用研究具有非常重要的意义。本文以合肥某高大拱板平房仓为研究对象,旨在通过建立仓顶光伏发电驱动粮仓补冷空间通风空调系统降低粮温,并优化组合其它低温储粮工艺,实现零能耗低温储粮。首先,研究了粮仓围护结构传热及冷负荷。根据气象参数及粮仓建筑的特点,采用CFD模拟法、空调负荷概算法、空调谐波法分别研究计算,并对其结果对比分析。其次,研究了粮仓通风系统气流组织。根据仓内传热温度分布特点,采用了粮仓补冷空间通风低温储粮,对其通风效果进行CFD模拟,用多目标决策层次分析法对模拟得到的气流组织评价指标结果优化选择,确定了具体的粮仓补冷空间通风气流组织方案。最后,设计了粮仓补冷空间空调系统和仓顶光伏发电系统,并进行了各系统的投资预算;制定了低温储粮优化组合方案,并对其用于粮食储藏技术进行了经济性分析。研究结果得出:1)要使堆粮线上部空间的温度降到15℃,需要补给的冷量为48kW。通过仓房屋面进入仓内的热流量占整个粮仓围护结构热负荷的比重约为83%;2)当送风速度6m/s,送风温度10℃,送风口距堆粮线高度2.3m,送风口个数30,送风口尺寸300mm×100mm时,形成最优1/4粮仓补冷空间上送下回通风气流组织;3)粮仓补冷空间空调通风系统选用风冷涡旋冷水机组制备冷源,初投资为18万元,162kWp的仓顶光伏发电系统总造价为646万元,每年发电量为166.3MWh,其能在静态回收期9.7年内节省标煤582t,减排CO₂1610t等;4)光伏发电驱动粮仓补冷空间空调低温储粮系统虽然初投资高,但优化组合的技术推广到500亿斤仓容,每年可形成经济效益2011.5万元,且带来社会、环境效应也是巨大的,因此可被广泛推广应用于国家仓储行业。更多还原

【Abstract】 Low-temperature grain storage means the average temperature of the grain bulk kepts at and below 15 （low temperature） or 20 （standard low temperature） centigrade. With higher demands on food security and the development of energy saving technology, the development of new technology for low-temperature grain storage and application of related comprehensive technology has important significance. This study takes Hefei Tall Arch Board Storehouse as a research object. It aims to build the Photovoltaic power generation system to drive the air-conditioning of the barn space filled cold air to cool the grain and optimizes the combination of other low-temperature grain storage technology. At the end, zero energy-consumption at low temperature grain storage is realized.Firstly, the heat transfer and cooling load of the barn is studied. According to meteorological parameters and the characteristics of the barn building, the CFD simulation, air-conditioning load estimates method, air-conditioning of harmonic method is applied to calculate and compare the cooling load of the barn.Secondly, the air distribution of the ventilation system of the barn is studied. According to the temperature distribution of warehouses, the air distribution of the ventilation system of the barn space filled cold air for low temperature grain storage is simulated by CFD software. The method of Multi-Objective Decision Analytic Hierarchy Process is used to optimize the simulation results. Subsequently, the specific program of air distribution in the barn is decided.Finally, the air-conditioning system of the barn space filled cold air and the roof photovoltaic power generation system are designed and budgeted. The program of optimized combination for low temperature grain storage is developed, and its economic analysis is done The main fruits in my study are as follows:1) To drop the temperature of the space over the bulk line to 15℃, the supplied cooling capacity is 48kW. The heat load through the roof into the envelope of the warehouse accounts for about 83% of total heat load of the envelope. 2) When the air velocity is 6m/s, air temperature is 10℃, the air outlet located 2.3m over the bulk line , the number of the outlets are 30 and the size of them are all 300mm×100mm, the air distribution of the ventilation system in the 1/4 barn is best. 3) The cold air sources is made by air-cooled water chillers units. The initial investment of the air conditioning system of the barn space filled cold air is 180 thousand yuan. The total cost of the 162kWp roof photovoltaic power generation system is 6.46 million yuan. The annual electricity generation is 166.3MWh. It can save 582 tons of standard coal and reduce 1610 tons of CO₂ emissions during the static payback period of 9.7 year. 4) The initial investment of the system of PV-driven air-conditioning for Low-temperature grain storage is high, but 20.115 million yuan can be earned each year using the optimal combination of technology to the storage capacity of 50 billion kilograms. The environmental and social benefits are also enormous. It can be applied to national storage.更多还原