光谱学与光谱分析
光譜學與光譜分析
광보학여광보분석
SPECTROSCOPY AND SPECTRAL ANALYSIS
2015年
5期
1228-1232
,共5页
红外热像法%空心砖墙%表面温度%热环境%保温
紅外熱像法%空心磚牆%錶麵溫度%熱環境%保溫
홍외열상법%공심전장%표면온도%열배경%보온
Infrared thermography%Hollow brick wall%Surface temperature%Thermal environment%Thermal insulation
建筑墙体的室内表面温度直接反映墙体的保温隔热性能,并且作为室内平均辐射温度的主要组成部分对室内热环境有重要影响。针对建筑工程中大量使用的空心砖墙体具有表面温度不均匀的特点,采用ThermaCAM P20型红外热像仪和ThermaCAM Reporter分析软件,研究应用红外热像法测量空心砖墙体的表面温度,分析空心砖墙体的温度特征以及空心砖、砌筑砂浆、配砖等组成材料对表面温度分布的影响。在高层住宅建筑工程现场,选择三层住宅的填充外墙位置,使用不同的烧结页岩空心砖、砌筑砂浆和配砖砌筑成三种空心砖墙体进行传热实验。通过采集三种烧结页岩空心砖墙体在冬季室内采暖条件下的内表面温度红外热像图,对比分析了两种空心砖和两种砂浆砌筑的墙体表面温度特性数据以及温度均匀性和温度频率分布。结果表明:提高空心砖和砌筑砂浆的保温性,能够有效提高墙体内表面温度,改善室内热环境;由保温砂浆代替水泥砂浆砌筑的节能型烧结页岩空心砖墙体,表面温度的不均匀性从0.6℃下降为0.4℃,并使表面温度频率分布发生变化,从非对称分布变为正态分布;随着表面温度均匀性的提高,平均温度所占的频率增大。本研究为空心砖墙体热功能的提高和优化提供了依据。
建築牆體的室內錶麵溫度直接反映牆體的保溫隔熱性能,併且作為室內平均輻射溫度的主要組成部分對室內熱環境有重要影響。針對建築工程中大量使用的空心磚牆體具有錶麵溫度不均勻的特點,採用ThermaCAM P20型紅外熱像儀和ThermaCAM Reporter分析軟件,研究應用紅外熱像法測量空心磚牆體的錶麵溫度,分析空心磚牆體的溫度特徵以及空心磚、砌築砂漿、配磚等組成材料對錶麵溫度分佈的影響。在高層住宅建築工程現場,選擇三層住宅的填充外牆位置,使用不同的燒結頁巖空心磚、砌築砂漿和配磚砌築成三種空心磚牆體進行傳熱實驗。通過採集三種燒結頁巖空心磚牆體在鼕季室內採暖條件下的內錶麵溫度紅外熱像圖,對比分析瞭兩種空心磚和兩種砂漿砌築的牆體錶麵溫度特性數據以及溫度均勻性和溫度頻率分佈。結果錶明:提高空心磚和砌築砂漿的保溫性,能夠有效提高牆體內錶麵溫度,改善室內熱環境;由保溫砂漿代替水泥砂漿砌築的節能型燒結頁巖空心磚牆體,錶麵溫度的不均勻性從0.6℃下降為0.4℃,併使錶麵溫度頻率分佈髮生變化,從非對稱分佈變為正態分佈;隨著錶麵溫度均勻性的提高,平均溫度所佔的頻率增大。本研究為空心磚牆體熱功能的提高和優化提供瞭依據。
건축장체적실내표면온도직접반영장체적보온격열성능,병차작위실내평균복사온도적주요조성부분대실내열배경유중요영향。침대건축공정중대량사용적공심전장체구유표면온도불균균적특점,채용ThermaCAM P20형홍외열상의화ThermaCAM Reporter분석연건,연구응용홍외열상법측량공심전장체적표면온도,분석공심전장체적온도특정이급공심전、체축사장、배전등조성재료대표면온도분포적영향。재고층주택건축공정현장,선택삼층주택적전충외장위치,사용불동적소결혈암공심전、체축사장화배전체축성삼충공심전장체진행전열실험。통과채집삼충소결혈암공심전장체재동계실내채난조건하적내표면온도홍외열상도,대비분석료량충공심전화량충사장체축적장체표면온도특성수거이급온도균균성화온도빈솔분포。결과표명:제고공심전화체축사장적보온성,능구유효제고장체내표면온도,개선실내열배경;유보온사장대체수니사장체축적절능형소결혈암공심전장체,표면온도적불균균성종0.6℃하강위0.4℃,병사표면온도빈솔분포발생변화,종비대칭분포변위정태분포;수착표면온도균균성적제고,평균온도소점적빈솔증대。본연구위공심전장체열공능적제고화우화제공료의거。
To address the characteristic of uneven surface temperature of hollow brick wall ,the present research adopts soft wares of both ThermaCAM P20 and ThermaCAM Reporter to test the application of infrared thermal image technique in measur-ing surface temperature of hollow brick wall ,and further analyzes the thermal characteristics of hollow brick wall ,and building material’s impact on surface temperature distribution including hollow brick ,masonry mortar ,and so on .The research selects the construction site of a three-story-high residential ,carries out the heat transfer experiment ,and further examines the exterior wall constructed by 3 different hollow bricks including sintering shale hollow brick ,masonry mortar and brick masonry .Infrared thermal image maps are collected ,including 3 kinds of sintering shale hollow brick walls under indoor heating in winter ;and temperature data of wall surface ,and uniformity and frequency distribution are also collected for comparative analysis between 2 hollow bricks and 2 kinds of mortar masonry .The results show that improving heat preservation of hollow brick and masonry mortar can effectively improve inner wall surface temperature and indoor thermal environment ;non-uniformity of surface temper-ature decreases from 0.6 to 0.4 ℃ ,and surface temperature frequency distribution changes from the asymmetric distribution into a normal distribution under the condition that energy-saving sintering shale hollow brick wall is constructed by thermal mortar replacing cement mortar masonry ;frequency of average temperature increases as uniformity of surface temperature increases . This research provides a certain basis for promotion and optimization of hollow brick wall's thermal function .
