Taipei Medical University

A B C D E F G H I J K L M N O P Q R S T U V W X Y Z
Lee HF
------>authors3_c=None
------>paper_class1=1
------>Impact_Factor=None
------>paper_class3=1
------>paper_class2=1
------>vol=2
------>confirm_bywho=soulchin
------>insert_bywho=m002183
------>Jurnal_Rank=None
------>authors4_c=None
------>comm_author=1
------>patent_EDate=None
------>authors5_c=None
------>publish_day=None
------>paper_class2Letter=None
------>page2=7
------>medlineContent=
------>unit=E0110
------>insert_date=20040419
------>iam=7
------>update_date=None
------>author=???
------>change_event=5
------>ISSN=None
------>authors_c=None
------>score=56
------>journal_name=Ann Disaster Med
------>paper_name=Development of a New Confined Space Model.
------>confirm_date=20040419
------>tch_id=092079
------>pmid=12674550
------>page1=1
------>fullAbstract=We present the performance of a new push-pull ventilation system for sheet-adhesive work inside the body of a sightseeing coach. The target sightseeing coach was 12 m long, 2.5 m wide and 2 m high from floor to ceiling. We made a prototype of an airflow system and a half-scale model of the bus-body. The half scale model was 6 m long, 1.25 m wide and 0.965 m high. The push-pull ventilation system and half-scale model were used to evaluate the flow distributions inside the model. We also measured the concentration of xylene and methanol vapors during simulated sheet-adhesive work. As a result, it was found that the best combination was a the push flow of 24 m3/min and a pull flow of 78 m3/min in this model, and the flow velocity in the model was less than 1 m/s. This system is potentially applicable to any interior work for not only bus-bodies but also train and airplane bodies, which have elongated and confined space with many openings.
------>tmu_sno=None
------>sno=8483
------>authors2=Wang TL
------>authors3=
------>authors4=
------>authors5=
------>authors6=
------>authors6_c=None
------>authors=Lee HF
------>delete_flag=0
------>SCI_JNo=None
------>authors2_c=None
------>publish_area=None
------>updateTitle=Development and evaluation of a new push-pull ventilation system for sheet-adhesive work inside bus-body.
------>language=2
------>check_flag=None
------>submit_date=None
------>country=None
------>no=
------>patent_SDate=None
------>update_bywho=None
------>publish_year=2003
------>submit_flag=None
------>publish_month=None
A B C D E F G H I J K L M N O P Q R S T U V W X Y Z