|Table of Contents|

Distributions of air-conditioning air supply parameters and passenger compartment temperature of highway sleeper bus(PDF)

长安大学学报(自然科学版)[ISSN:1006-6977/CN:61-1281/TN]

Issue:
2010年05期
Page:
93-98
Research Field:
Publishing date:
2010-10-20

Info

Title:
Distributions of air-conditioning air supply parameters and passenger compartment temperature of highway sleeper bus
Author(s):
XIE Xu-liang1 SHEN Fu-lin1 LIN Fan2
1. School of Automobile, Chang'an University, Xi'an 710064, Shaanxi, China; 2. Shanghai Fuel Cell Vehicle Powertrain Co Ltd, Shanghai 201804, China
Keywords:
automobile engineering highway sleeper bus air conditioning air supply parameters temperature distribution experiment investigation
PACS:
U469.1
DOI:
-
Abstract:
In order to verify thermal comfort of a four-ducted air-conditioning system equipped on a highway sleeper bus, the test devices, such as anemoscope, K-type thermocouples and data acquisition instrument, were adopted to experimentally investigate the air supply parameters of the air-conditioning and temperature distribution of passenger compartment according to relative test standards. The results show that there exists the large difference of air supply velocity and temperature among the air supply outlets, and the air flow can not be organized efficiently. In the longitudinal direction of the passenger compartment, the relative high temperature exists in the front and rear part, while the relative low temperature exists in the middle part. The average temperature of left-bottom berths is higher than that of other berths. The temperature distribution of the passenger compartment is highly non-uniform and the average temperature is relatively low, which will not comply with the thermal comfort requirement of human body. 4 tabs, 10 figs, 12 refs.

References:

[1] 陈荫三,魏 朗,李 强.公路卧铺大客车:中国,88205642.5[P].1990-12-19.
[2]李贤能.国产卧铺客车的回顾与未来[C]//中国汽车学会.2005年中国客车学术年会论文集.西安:陕西科学技术出版社,2005:43-48.
[3]Norin F,Wyon D P.Driver vigilance:the effects of compartment temperature[J].SAE Paper,1992:168-172.
[4]谢金法,朱 涛,李水良,等.空调客车内部流场计算流体动力学数值模拟[J].中国机械工程,2007,18(13):1591-1594. XIE Jin-fa,ZHU Tao,LI Shui-liang,et al.Numerical simulation of inner flow for air-conditioned bus using computational fluid dynamics[J].China Mechanical Engineering,2007,18(13):1591-1594.
[5]Murakami S,Kato S,Ooka R.Comparison of numerical predictions of horizontal nonisothermal jet in a room with three turbulence models-EVM,ASM,and DSM[J].ASHRAE Transactions,1994,100:697-704.
[6]包 涛,孙宗鑫,袁秀玲,等.客车空调气流组织的改进及模拟分析[J].西安交通大学学报,2005,39(1):61-65. BAO Tao,SUN Zong-xin,YUAN Xiu-ling,et al.Improvement and numerical analysis on the airflow distribution of bus air conditioning system[J].Journal of Xi'an Jiaotong University,2005,39(1):61-65.
[7]GB/T 12782—91,汽车采暖性能试验方法[S].
[8]JT/T 216—95,客车空调系统技术条件[S].
[9]QC/T 658—2000,汽车空调整车降温性能试验方法[S].
[10]CJ/T 134—2001,城市公交空调客车空调系统技术条件[S].
[11]卢 曦,吴文权.汽车车内热环境研究的现状和发展[J].上海理工大学学报,2001,23(2):162-166. LU Xi,WU Wen-quan.Review on state-of-art and development of inner thermal environment of automobile[J].Journal of University of Shanghai for Science and Technology,2001,23(2):162-166.
[12]王若平.汽车空调[M].北京:机械工业出版社,2007.

Memo

Memo:
-
Last Update: 2010-10-20