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Experimental investigation of reduced-mixing personal ventilation jets

This paper presents an investigation of the design and performance characteristics of personalized ventilation (PV) systems that, in combination with general ventilation, deliver high quality air to the breathing zone (BZ) with no more clean air supply than indicated by ANSI/ASHRAE 62.1-2004, while...

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Published in:	Building and environment 2009-08, Vol.44 (8), p.1551-1558
Main Authors:	Khalifa, H. Ezzat, Janos, Michael I., Dannenhoffer, John F.
Format:	Article
Language:	English
Subjects:	Acceptability Air conditioners Air quality Air supplies Applied sciences Breathing Building technical equipments Buildings Buildings. Public works Cleaning Computation Design engineering Energy use Environmental engineering Ergonomics Exact sciences and technology Indoor air quality Jets Nozzles Personalized Personalized Ventilation Tracer gas Ventilation Ventilation. Air conditioning
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cited_by	cdi_FETCH-LOGICAL-c404t-7252d57f1e8d157261df2955f1bea088519497acdeffad273215628907a348a03
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creator	Khalifa, H. Ezzat Janos, Michael I. Dannenhoffer, John F.
description	This paper presents an investigation of the design and performance characteristics of personalized ventilation (PV) systems that, in combination with general ventilation, deliver high quality air to the breathing zone (BZ) with no more clean air supply than indicated by ANSI/ASHRAE 62.1-2004, while satisfying acceptable ergonomic and aesthetic considerations. Under these conditions, the energy used for conditioning the clean air will not exceed that of a conventional ventilation system. We introduce a novel PV nozzle that achieves high BZ air quality with a small fraction of the clean air indicated by the ANSI/ASHRAE Standard. Tracer gas experimental results presented in this paper demonstrate the advantages of the novel nozzle relative to conventional PV nozzles. The results show that, at a PV clean air supply of only 2.4 l/s, the new nozzle achieves a BZ ventilation effectiveness close to 7 versus less than 2 for a conventional nozzle delivering the same amount of clean air. A companion paper presents a computational analysis of the same concept, validated against the experimental results of the present paper.
doi_str_mv	10.1016/j.buildenv.2008.11.006
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source	ScienceDirect Freedom Collection 2022-2024
subjects	Acceptability Air conditioners Air quality Air supplies Applied sciences Breathing Building technical equipments Buildings Buildings. Public works Cleaning Computation Design engineering Energy use Environmental engineering Ergonomics Exact sciences and technology Indoor air quality Jets Nozzles Personalized Personalized Ventilation Tracer gas Ventilation Ventilation. Air conditioning
title	Experimental investigation of reduced-mixing personal ventilation jets
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