中央空调室内空气净化技术及装置开发
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摘要
人们超过80%的时间在室内度过,室内空气品质(IAQ)的好坏极大的影响着人们的生产和生活,国内外的调查表明众多建筑的室内空气存在较大问题,因此对其研究具有重要意义。
本文分析了室内空气的主要污染物和主要来源,阐述了病态建筑综合症及其形成原因,室内空气品质、热湿环境、气流等对人体热舒适的影响,并主要针对当前国内公共建筑集中空调通风系统污染严重的现状,分析了有中央空调系统的室内空气污染的主要部位及污染形成的原因,旨在寻求一种能有效控制及利用空调通风系统减少室内污染的有效方法。为此,本文结合国内外研究成果,提出了利用光触媒等高科技产品和手段研制空调系统空气净化装置,对室内空气利用空调系统进行消毒、过滤、净化,以达到改善室内空气品质,提高人们生活工作环境的目的。
通过对本课题提出的净化装置的测试分析发现,该装置净化效率比传统单一的净化方式更高,且对甲醛、NO_2、SO_2等都有较好的净化效果,非常适用于净化室内空气。
The time exceeding 80% for people is spent in indoor, indoor air quality (IAQ) extremely affects people's production and life . The domestic and foreign investigations indicate that many problems of indoor air quality do exist in a lot of buildings, therefore,it is vital significal to research these problems.
This dissertation analyses the main pollutants an its sourses of indoor air,expatiating what is sick building syndrome(SBS) and its forming causes,the influence causes by IAQ ,thermal and moist environment,air flow etc to human's comfortable degree .Aim at the present sersious polluting situation of the central air-conditioning and ventilating systems in domestic public buildings,a effective way is searched for reducing the indoor pollution.
For this purpose, we combined home and abroad research result, have put forward to applying the high technology,such as photocatalyst and its products ,to develop air purifying device . it can carries out sterilizing , fliteration , purification to indoor air and improves air quality and people's working and life environment .
By the test of this purifying device parameter ,the analysis result shows that the purifying efficient of this device is more efficient than traditional unitary manner. It can be used to purify formaldehyde , NO_2 , SO_2 etc affectively .it is more suitable for purifying indoor air at present.
本文分析了室内空气的主要污染物和主要来源,阐述了病态建筑综合症及其形成原因,室内空气品质、热湿环境、气流等对人体热舒适的影响,并主要针对当前国内公共建筑集中空调通风系统污染严重的现状,分析了有中央空调系统的室内空气污染的主要部位及污染形成的原因,旨在寻求一种能有效控制及利用空调通风系统减少室内污染的有效方法。为此,本文结合国内外研究成果,提出了利用光触媒等高科技产品和手段研制空调系统空气净化装置,对室内空气利用空调系统进行消毒、过滤、净化,以达到改善室内空气品质,提高人们生活工作环境的目的。
通过对本课题提出的净化装置的测试分析发现,该装置净化效率比传统单一的净化方式更高,且对甲醛、NO_2、SO_2等都有较好的净化效果,非常适用于净化室内空气。
The time exceeding 80% for people is spent in indoor, indoor air quality (IAQ) extremely affects people's production and life . The domestic and foreign investigations indicate that many problems of indoor air quality do exist in a lot of buildings, therefore,it is vital significal to research these problems.
This dissertation analyses the main pollutants an its sourses of indoor air,expatiating what is sick building syndrome(SBS) and its forming causes,the influence causes by IAQ ,thermal and moist environment,air flow etc to human's comfortable degree .Aim at the present sersious polluting situation of the central air-conditioning and ventilating systems in domestic public buildings,a effective way is searched for reducing the indoor pollution.
For this purpose, we combined home and abroad research result, have put forward to applying the high technology,such as photocatalyst and its products ,to develop air purifying device . it can carries out sterilizing , fliteration , purification to indoor air and improves air quality and people's working and life environment .
By the test of this purifying device parameter ,the analysis result shows that the purifying efficient of this device is more efficient than traditional unitary manner. It can be used to purify formaldehyde , NO_2 , SO_2 etc affectively .it is more suitable for purifying indoor air at present.
引文
[1] 孙晓航.室内空气污染对人体健康影响及防治对策.黑龙江环境通报,2005,29(3):74-75
[2] 张华山,袭著革.室内空气污染因素对人体的危害及净化技术措施.洁净与空调技术,2005,1:23-24
[3] 宋广生.室内空气质量标准解读.北京:机械工业出版社.2003:58—89
[4] 袭著革.室内空气污染与健康.北京:化学工业出版社,2003:26—28
[5] 王金木.空调系统污染与健康.中国城乡企业卫生,2005,2:34—35
[6] 涂舫.公共建筑集中空调通风系统污染控制方法的研究.[硕士学位论文].上海:同济大学,2006:25—60
[7] 王锡琴.TiO_2/ACF光催化的室内空气净化装置研究.[硕士学位论文].成都:四川大学,2005:5—9
[8] 沈晋明,聂一新.通风空调对室内空气品质的影响.建筑热能通风空调.2006,25(5):17—20
[9] 洪学新,余亮.空调系统对空气品质影响及改进措施.节能环保技术.2006,8:35—36
[10] 褚毅.室内空气环境及污染问题分析与研究.[硕士学位论文].长春:吉林大学,2006:42—50
[11] 邹声华,丁力行.空调系统新风和回风对室内空气品质的影响.建筑热能通风空调,2002,4
[12] 刘永华.建筑装修导致室内空气污染的研究.[硕士学位论文].重庆:重庆大学,2004:58-64
[13] 李江.紫外线消毒技术的研究.[硕士学位论文].天津:天津大学,2003
[14] 王琨,李文朴.室内空气污染及其控制措施的比较研究.哈尔滨工业大学学报,2004,36(4):493—495
[15] 许太明,陈刚,牛炳晔.新型等离子体与光催化复合空气净化技术研究.环境与健康,2006,23(6):535—536
[16] 杨武,荣命哲.低温等离子体空气净化原理及应用.电工技术杂志,2000,3:31—32
[17] 亓玉栋.空调系统与室内空气品质.环境与健康,2006,23(4):380—381
[18] W K Chow, W Y Fung. Numerical studies on the indoor air flow in the occupied zone of ventilated and air-conditioned space. Building and Environment, 1996, 31 (4): 319~344
[19] 王丽涛.光触媒技术防治室内空气污染.辽宁大学学报,2006,33(2):124—126
[20] 尹雪云.纳米光催化技术在室内空气净化器中的应用研究.[硕士学位论文].北京:北京工业大学,2003:13-16
[21] Hangan, F McKenty, L Gravel, etal.Numerical simulations for comfort assessment and optimization of the ventilation design for complex atriums.Journal of Wind Engineering and Industrial Aerodynamics, 2001, 89 (9): 1031~1045
[22] 连铁军.集中式空调的空气消毒方法及其效果的研究.[硕士学位论文].济南:山东大学,2005
[23] PARK J Setc.Development of small and efficient ozone generatorsusing corona discharge.IEEE Proceedings of the fifth Russan-korean International Symposium on Science and Technology.Russia Tomsk, 2001, 282-284
[24] 雷闫盈,李蓉,王小刚.热分解法制备纳米TiO_2微粒膜及其杀菌性能的研究.化工新型材料,2006,34(8):71—73
[25] 李瑛.负载TiO_2纤维布的制备及光催化性能的研究.工业催化,2006,14(8):68—69
[26] YAN-fenghong, CHEN xun.Study on Model of Indoor Air Pollution Forecast for Decoration Under Natural Ventilation Condition. Biomendicao and Environmental Sciences, 2005,18:345-348
[27] 侯付彬.ACF负载TiO2光催化氧化处理室内空气污染物的研究.[硕士学位论文].武汉:武汉大学,2005
[28] 李英柳.纳米TiO_2负载于活性碳纤维吸附光催化氧化室内挥发性有机气体甲醛的研究.[硕士学位论文].武汉:武汉大学,2004:20-23
[29] 戚海浪.室内空气品质改善措施的研究:[硕士学位论文].南京:南京理工大学,2003:
[30] ZHANG Yinping, LI Xiaofeng. Spatial flow influence factor: A novel concept for indoor air pollutant control. Science in China: Series E Technological Sciences 2006,49(1):115-128
[31] 黄翔.空调工程.第一版.北京:机械工业出版社,2006,607-610
[32] 王海桥,李锐.空气洁净技术.第一版.北京:机械工业出版社,2006:105—142
[33] 蔡来胜,刘春雁.新型室内空气净化器的研究与性能实验研究.流体机械,2003,31(12)
[34] 李一诺,陶冶.微型空气净化器的创新.技术医疗卫生装备,2006,27 (1)
[35] Fulin Wang,Harunori Yoshida,Hiroaki Kitagawa etal. odel-based ommissioning for filters in room air-conditioners. Energy and Buildings, 2005,37:125-133
[36] N.Subramanyam,M.P.Maiya,S.Srinivasa Murthy.Parametric studies on a desiccant assisted air-conditioner. Applied Thermal Engineering, 2004,24:279-288
[37] 黄翔.空调工程.第一版.北京:机械工业出版社,2006,607-610
[38] 张文福.医学消毒学.北京:军事医学科学出版社,2002,47:108
[39] 张庆松.王雨群.贾祥焱等.中央空调通风系统空气净化装置的研究.江苏建筑,2006,6:73—76
[40] 戚海浪.室内空气品质改善措施的研究:[硕士学位论文].南京:南京理工大学,2003:
[41] 王雨群,贾祥众,张百龙.纳米生态酶空气材料及其在空气净化器中的应用.江苏建筑,2005,4:36—38
[42] 梁斌光.催化净化室内空气中甲醛的研究.[硕士学位论文].南京:南京理工大学,2004:27—36
[43] 方传艳.纳米TiO_2薄膜光催化降解甲醛气体实验与理论研究.[硕士学位论文].大连:大连理工大学,2005:36—41
[44] 李江紫.外线消毒技术的研究:[硕士学位论文].天津:天津大学,2003:11—19
[45] 井立强,孙晓君,徐自力等.ZnO超微粒子光催化氧化SO_2的研究.催化学报:2002,23(1):37—40
[2] 张华山,袭著革.室内空气污染因素对人体的危害及净化技术措施.洁净与空调技术,2005,1:23-24
[3] 宋广生.室内空气质量标准解读.北京:机械工业出版社.2003:58—89
[4] 袭著革.室内空气污染与健康.北京:化学工业出版社,2003:26—28
[5] 王金木.空调系统污染与健康.中国城乡企业卫生,2005,2:34—35
[6] 涂舫.公共建筑集中空调通风系统污染控制方法的研究.[硕士学位论文].上海:同济大学,2006:25—60
[7] 王锡琴.TiO_2/ACF光催化的室内空气净化装置研究.[硕士学位论文].成都:四川大学,2005:5—9
[8] 沈晋明,聂一新.通风空调对室内空气品质的影响.建筑热能通风空调.2006,25(5):17—20
[9] 洪学新,余亮.空调系统对空气品质影响及改进措施.节能环保技术.2006,8:35—36
[10] 褚毅.室内空气环境及污染问题分析与研究.[硕士学位论文].长春:吉林大学,2006:42—50
[11] 邹声华,丁力行.空调系统新风和回风对室内空气品质的影响.建筑热能通风空调,2002,4
[12] 刘永华.建筑装修导致室内空气污染的研究.[硕士学位论文].重庆:重庆大学,2004:58-64
[13] 李江.紫外线消毒技术的研究.[硕士学位论文].天津:天津大学,2003
[14] 王琨,李文朴.室内空气污染及其控制措施的比较研究.哈尔滨工业大学学报,2004,36(4):493—495
[15] 许太明,陈刚,牛炳晔.新型等离子体与光催化复合空气净化技术研究.环境与健康,2006,23(6):535—536
[16] 杨武,荣命哲.低温等离子体空气净化原理及应用.电工技术杂志,2000,3:31—32
[17] 亓玉栋.空调系统与室内空气品质.环境与健康,2006,23(4):380—381
[18] W K Chow, W Y Fung. Numerical studies on the indoor air flow in the occupied zone of ventilated and air-conditioned space. Building and Environment, 1996, 31 (4): 319~344
[19] 王丽涛.光触媒技术防治室内空气污染.辽宁大学学报,2006,33(2):124—126
[20] 尹雪云.纳米光催化技术在室内空气净化器中的应用研究.[硕士学位论文].北京:北京工业大学,2003:13-16
[21] Hangan, F McKenty, L Gravel, etal.Numerical simulations for comfort assessment and optimization of the ventilation design for complex atriums.Journal of Wind Engineering and Industrial Aerodynamics, 2001, 89 (9): 1031~1045
[22] 连铁军.集中式空调的空气消毒方法及其效果的研究.[硕士学位论文].济南:山东大学,2005
[23] PARK J Setc.Development of small and efficient ozone generatorsusing corona discharge.IEEE Proceedings of the fifth Russan-korean International Symposium on Science and Technology.Russia Tomsk, 2001, 282-284
[24] 雷闫盈,李蓉,王小刚.热分解法制备纳米TiO_2微粒膜及其杀菌性能的研究.化工新型材料,2006,34(8):71—73
[25] 李瑛.负载TiO_2纤维布的制备及光催化性能的研究.工业催化,2006,14(8):68—69
[26] YAN-fenghong, CHEN xun.Study on Model of Indoor Air Pollution Forecast for Decoration Under Natural Ventilation Condition. Biomendicao and Environmental Sciences, 2005,18:345-348
[27] 侯付彬.ACF负载TiO2光催化氧化处理室内空气污染物的研究.[硕士学位论文].武汉:武汉大学,2005
[28] 李英柳.纳米TiO_2负载于活性碳纤维吸附光催化氧化室内挥发性有机气体甲醛的研究.[硕士学位论文].武汉:武汉大学,2004:20-23
[29] 戚海浪.室内空气品质改善措施的研究:[硕士学位论文].南京:南京理工大学,2003:
[30] ZHANG Yinping, LI Xiaofeng. Spatial flow influence factor: A novel concept for indoor air pollutant control. Science in China: Series E Technological Sciences 2006,49(1):115-128
[31] 黄翔.空调工程.第一版.北京:机械工业出版社,2006,607-610
[32] 王海桥,李锐.空气洁净技术.第一版.北京:机械工业出版社,2006:105—142
[33] 蔡来胜,刘春雁.新型室内空气净化器的研究与性能实验研究.流体机械,2003,31(12)
[34] 李一诺,陶冶.微型空气净化器的创新.技术医疗卫生装备,2006,27 (1)
[35] Fulin Wang,Harunori Yoshida,Hiroaki Kitagawa etal. odel-based ommissioning for filters in room air-conditioners. Energy and Buildings, 2005,37:125-133
[36] N.Subramanyam,M.P.Maiya,S.Srinivasa Murthy.Parametric studies on a desiccant assisted air-conditioner. Applied Thermal Engineering, 2004,24:279-288
[37] 黄翔.空调工程.第一版.北京:机械工业出版社,2006,607-610
[38] 张文福.医学消毒学.北京:军事医学科学出版社,2002,47:108
[39] 张庆松.王雨群.贾祥焱等.中央空调通风系统空气净化装置的研究.江苏建筑,2006,6:73—76
[40] 戚海浪.室内空气品质改善措施的研究:[硕士学位论文].南京:南京理工大学,2003:
[41] 王雨群,贾祥众,张百龙.纳米生态酶空气材料及其在空气净化器中的应用.江苏建筑,2005,4:36—38
[42] 梁斌光.催化净化室内空气中甲醛的研究.[硕士学位论文].南京:南京理工大学,2004:27—36
[43] 方传艳.纳米TiO_2薄膜光催化降解甲醛气体实验与理论研究.[硕士学位论文].大连:大连理工大学,2005:36—41
[44] 李江紫.外线消毒技术的研究:[硕士学位论文].天津:天津大学,2003:11—19
[45] 井立强,孙晓君,徐自力等.ZnO超微粒子光催化氧化SO_2的研究.催化学报:2002,23(1):37—40