摘要
介绍了研究透壁通风管路堤降温效果的室内试验方法,对100cm×60cm×100cm尺寸的不同通风管路堤试样进行了实验研究。结果表明,采用透壁通风管能明显增强路堤的降温效果,而只在负温期间通风的透壁通风管路堤降温效果更为显着,路堤在通风管进风口附近的温度变化幅度以及负温区域的范围都明显大于通风管出风口处,形成了路基温度场沿着风向的不对称分布。
A technique of laboratory tests for the cooling mechanism in embankments with perforated ventilation pipes was introduced. Various ventilated-embankment samples with dimensions of 100 cm×60 cm×100 cm under cyclically fluctuating upper-surface temperature were studied experimentally. It was shown that the ventilated embankment with perforated ventilation pipe could enhance the cooling effectiveness of the embankment base. The cooling of perforated ventilation pipe embankment was effective only under negative temperature. Temperature change amplitudes and distribution ranges of negative temperature in the vicinity of air inlet of ventilation pipe were larger than those in the vicinity of air outlet of ventilation pipe. This was a direct consequence of unsymmetrical temperature distribution along a wind direction parallel to the ventilation pipes.
出处
《岩土工程学报》
EI
CAS
CSCD
北大核心
2006年第9期1153-1158,共6页
Chinese Journal of Geotechnical Engineering
基金
浙江省自然科学基金资助项目(M503145)
国家西部交通建设科技项目(200231800004)
绍兴文理学院重点学科建设联合资助
关键词
多年冻土
通风管路堤
降温效果
自然采风口
透壁通风管
permafrost
ventilation pipe embankment
cooling effect
self-windward vent
perforated ventilation pipe
