Please use this identifier to cite or link to this item: http://hdl.handle.net/11452/25703
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dc.contributor.authorLin, Xing-Jun-
dc.contributor.authorCortus, Erin L.-
dc.contributor.authorZhang, Ruihong-
dc.contributor.authorJiang, Shumei-
dc.contributor.authorHeber, Albert J.-
dc.date.accessioned2022-04-11T12:36:49Z-
dc.date.available2022-04-11T12:36:49Z-
dc.date.issued2012-
dc.identifier.citationLin, X. J. vd. (2012). "Thermal environmental control of high-rise layer houses in California". Transactions of the ASABE, 55(5), 1909-1920.en_US
dc.identifier.issn2151-0032-
dc.identifier.urihttps://doi.org/10.13031/2013.42353-
dc.identifier.urihttps://elibrary.asabe.org/abstract.asp?aid=42353-
dc.identifier.urihttps://ur.booksc.eu/book/84862196/3a1409-
dc.identifier.urihttp://hdl.handle.net/11452/25703-
dc.description.abstractThe ventilation systems of two high-rise layer houses in California were monitored from 10/25/07 to 10/31/09 (m/d/y) for the National Air Emission Monitoring Study to facilitate the calculation of air pollutant emission rates. The ventilation systems, building structural design, feeding systems, and manure management practices of the houses were identical. Each house had approximately 32,500 laying hens in cages on the second floor (layer room) and was mechanically ventilated in cross-flow fashion with 12 sidewall single-speed exhaust fans on the first floor, consisting of two 91 cm fans and ten 122 cm fans. The fan rotational speeds, differential static pressure, temperature, relative humidity, and the evaporative misting system of each house and outside weather variables were continuously monitored. All 24 fans were evaluated with a portable fan tester three times during the two-year test. Fan airflow models were developed from in situ fan test data to calculate the fan airflow rates based on house differential static pressure and fan rotational speeds. The results showed that the fan performance factors of the 91 cm and 122 cm fans were 75% and 84% of the airflows, respectively, of new unused fans. The daily mean dry standard house ventilation rate averaged 47 m(3) s(-1) at dry standard conditions and ranged from 12 to 88 m(3) s(-1). The daily mean hen-specific ventilation rates averaged 5 m(3) h(-1) hen(-1) and ranged from 1.3 to 9.8 m(3) h(-1) hen(-1). Relative uncertainties of the hourly mean hen-specific ventilation rates averaged +/- 4.8% and ranged from +/- 2.9% to +/- 8.8%. The house differential static pressures ranged from -35 to -10 Pa 92% of the time. The layer room temperatures were controlled by adjusting the ventilation rate, which generally increased with ambient temperature. The evaporative misting system decreased the layer room temperature by up to 8 degrees C from the ambient, or barn inlet, air temperature while contributing to an increase of up to 3.8 g kg(-1) in the house humidity ratio relative to barn inlet conditions.en_US
dc.description.sponsorshipAgricultural Air Research Councilen_US
dc.language.isoenen_US
dc.publisherAmer Soc Agricultural & Biological Engineersen_US
dc.rightsinfo:eu-repo/semantics/closedAccessen_US
dc.subjectAgricultureen_US
dc.subjectAirflow rateen_US
dc.subjectDifferential static pressureen_US
dc.subjectFan curveen_US
dc.subjectFANSen_US
dc.subjectFRSen_US
dc.subjectHouse temperatureen_US
dc.subjectHumidity ratioInlet temperatureen_US
dc.subjectLaying hensen_US
dc.subjectModelen_US
dc.subjectUncertaintyen_US
dc.subjectVentilation ratesen_US
dc.subjectBuildingsen_US
dc.subjectCaliforniaen_US
dc.subjectUnited statesen_US
dc.subjectEnvironmental managementen_US
dc.subjectFansen_US
dc.subjectFloorsen_US
dc.subjectFog dispersalen_US
dc.subjectManuresen_US
dc.subjectModelsen_US
dc.subjectStructural designen_US
dc.subjectVentilationen_US
dc.subjectAir flow-rateen_US
dc.subjectFan curvesen_US
dc.subjectHumidity ratioen_US
dc.subjectInlet temperatureen_US
dc.subjectStatic pressureen_US
dc.subjectUncertaintyen_US
dc.subjectAir temperatureen_US
dc.subjectAirflowen_US
dc.subjectAtmospheric pollutionen_US
dc.subjectHumidityen_US
dc.subjectMultistorey buildingen_US
dc.subjectPerformance assessmenten_US
dc.subjectPoultryen_US
dc.subjectPressure gradienten_US
dc.subjectSpatiotemporal analysisen_US
dc.subjectTemperature effecten_US
dc.subjectUncertainty analysisen_US
dc.subjectHousesen_US
dc.titleThermal environmental control of high-rise layer houses in Californiaen_US
dc.typeArticleen_US
dc.identifier.wos000311330100028tr_TR
dc.identifier.scopus2-s2.0-84872292030tr_TR
dc.relation.publicationcategoryMakale - Uluslararası Hakemli Dergitr_TR
dc.contributor.departmentUludağ Üniversitesi/Ziraat Fakültesi/Biyosistem Mühendisliği Bölümü.tr_TR
dc.contributor.orcid0000-0003-0087-6718tr_TR
dc.identifier.startpage1909tr_TR
dc.identifier.endpage1920tr_TR
dc.identifier.volume55tr_TR
dc.identifier.issue5tr_TR
dc.relation.journalTransactions of the ASABEen_US
dc.contributor.buuauthorKılıç, İlker-
dc.contributor.researcheridAAG-8511-2021tr_TR
dc.relation.collaborationYurt dışıtr_TR
dc.subject.wosAgricultural engineeringen_US
dc.indexed.wosSCIEen_US
dc.indexed.scopusScopusen_US
dc.wos.quartileQ3en_US
dc.contributor.scopusid55156382800tr_TR
dc.subject.scopusBarns; Swine Housing; Fans (Equipment)en_US
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