Energy Simulation Analysis of Solar Wall Heating and Ventilation System in Severe Cold Region

机译：严寒地区太阳能墙采暖通风系统的能量模拟分析

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In order to analyze the volume of air, which meet air supply conditions, per centiare Solar Wall panel can heated, also verify the feasibility and energy-conservation effect of Solar Wall System in severe cold region of China, a 3D model was established. The realizable k-ε model of the CFD Simulation Software FLUENT was applied to simulate conditions of different air supply velocity in the coldest month(January). The conclusion is that per centiare Solar Wall panel can heat 72.24 m³/h airflow, which can well meet the air supply condition during heating period in Shenyang. Therefore, Solar Wall Air System is available in heating air, which mixed by fresh air and recycling return air, and is significant in energy conservation. What is more, the air supply is within the capacity of the system, proving that the system is applicable and has significant energy-saving and low carbon effect in severe cold regions in China.

机译：为了分析满足供气条件的空气量，可以对百分率的太阳能墙板进行加热，并验证太阳能墙系统在中国严寒地区的可行性和节能效果，建立了3D模型。应用CFD仿真软件FLUENT的可实现k-ε模型来模拟最冷月份（一月）中不同送风速度的情况。结论是，百分率的太阳能墙板可以加热72.24 m ^{3 / h的气流，完全满足沉阳采暖期间的供气条件。因此，太阳能墙空气系统可用于加热空气，该空气与新鲜空气混合并再循环回风，在节能方面具有重要意义。而且，空气供应量在系统的能力范围内，证明该系统适用于中国，并且在中国严寒地区具有显着的节能和低碳效果。}

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《Third International Measuring Technology and Mechatronics Automation》|2011年|p.52-55|共4页
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作者
Ma Zhongjiao; Yu Jin; Song Jialin;
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原文格式 PDF
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中图分类 TP216;
关键词
FLUENT; SolarWall; energy conservation; low carbon; severe cold region;

机译：流体;太阳能墙;节能;低碳;严寒地区;

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2. Simulation analysis of a solar-assisted heat pump system for space heating in severe cold areas [J] . Huifang Liu, Shicong Zhang, Yiqiang Jiang, Building Services Engineering Research & Technology . 2015,第4期

机译：严寒地区空间供热太阳能辅助热泵系统的仿真分析
3. The Influence of Window-Wall Ratio on Heating Energy Consumption of Rural House in Severe Cold Regions of China [J] . Teng Shao, Hong Jin, Wuxing Zheng, E3S Web of Conferences . 2020,第10期

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4. Energy Simulation Analysis of Solar Wall Heating and Ventilation System in Severe Cold Region [C] . Ma Zhongjiao, Yu Jin, Song Jialin International Conference on Measuring Technology and Mechatronics Automation . 2011

机译：严寒地区太阳能壁加热和通风系统的能量仿真分析
5. Energy-saving non-metallic connectors for precast sandwich wall systems in cold regions [D] . Allard, Austin James 2014

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6. Energy Analysis of a Complementary Heating System Combining Solar Energy and Coal for a Rural Residential Building in Northwest China [O] . Xiaofei Zhen, Jinping Li, Yassir Idris Abdalla Osman, -1

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7. The Influence of Window-Wall Ratio on Heating Energy Consumption of Rural House in Severe Cold Regions of China [O] . Teng Shao, Hong Jin, Wuxing Zheng, 2020

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8. Net Energy Analysis Model for the Evaluation of a Solar Heating,Ventilation and Air Conditioning System. [R] . christ,matt a. hrapla,michael f. 1977

机译：太阳能采暖，通风和空调系统评估的净能量分析模型。

Energy Simulation Analysis of Solar Wall Heating and Ventilation System in Severe Cold Region

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