Global ETD Search

131	Spånsugssystem och luftrörelser hos TanumsFönster AB : mätningar och förslag för minskat undertryck i fabrikslokal Hedenbo, Rebecka January 2012 (has links) TanumsFönster ABs fabrik utanför Tanumshede i Bohuslän är byggd i många etapper. Spånsugssystemet och delar av allmänventilationen har inte anpassats tillräckligt till nuvarande byggnad och verksamhet. Det saknas också ritningar och kunskap om aktuella luftflöden. De luftflöden som krävs för att spån-utsugen ska fungera bra ersätts inte av kontrollerad tilluft, istället läcker uteluft in genom otätheter och runt portar på grund av det stora undertryck som finns i byggnaden. Detta skapar, främst vintertid, problem i form av drag och höga uppvärmningskostnader.I detta examensarbete dokumenteras huvuddelarna av spånsugssystemet i maskinhallen med ritningar och flödesmätningar. En rökstudie har gjorts, vilken tydliggör luftrörelserna i hela fabriksdelen av byggnaden, och åtgärder föreslås för att minska undertrycksproblemet. Besök och mätningar i fabriken är gjorda under perioden november 2011 till april 2012. Flödesmätningarna gjordes med Prandtl-rör och ett antal nödvändiga uppskattningar gjordes med stöd av underhållsansvarige Morgan Gustavsson.I nuläget är skillnaden mellan bortfört luftflöde och retur i maskinhallen ca 16 m3/s. Då returen inte lämnas där luften bortförs saknas i två inbyggda fräsrum ca 8 m3/s respektive ca 12 m3/s. Bland de åtgärdsförslag som ges för att minska problemen finns bättre utnyttjande av befintlig ventilation, skapande av en avgränsad kall zon, nya luftöppningar med ljuddämpning och effektivisering av spånsugsflöden. ventilation processventilation fabrik träindustri spån
132	Enquête observationnelle prospective concernant l'utilisation de la ventilation non invasive au service d'accueil et urgence du CHU de Nantes à propos de 49 cas / Lorber, Julien Leconte, Philippe January 2005 (has links) (PDF) Thèse d'exercice : Médecine. Médecine générale : Université de Nantes : 2005. / Bibliogr. f. 103-110 [100 réf.].
133	Etude expérimentale des jets axisymétriques anisothermes horizontaux se développant près d'une paroi application à la modélisation numérique des cavités ventilées / Kuznik, Frédéric Brau, Jean Rusaouen, Gilles January 2006 (has links) Thèse doctorat : Génie Civil : Villeurbanne, INSA : 2005. / Titre provenant de l'écran-titre. Bibliogr. p. 133-139.
134	Modélisation dynamique du confort thermique dans les bâtiments naturellement ventilés Moujalled, Bassam Guarracino, Gérard. Cantin, Richard. January 2007 (has links) Thèse doctorat : Génie Civil : Villeurbanne, INSA : 2007. / Titre provenant de l'écran-titre. Bibliogr. p. 177-186.
135	Airway pressure release ventilation : a systematic experimental approach / Neumann, Peter, January 2000 (has links) Thesis (D.M.S.)--Uppsala University, 2000. / "Acta Universitatis Upsaliensis." Extra abstract sheet inserted. Includes bibliographical references (p. 50-57).
136	Analysis of human exposure at local exhaust ventilation by means of 3D air velocity measurements, tracer gas tests and controlled turbulence environment Catalan Ros, Leyre January 2015 (has links) Local exhaust (LE) ventilation is a ventilation technique where contaminated air is locally extracted close to the contaminant source usually with the purpose to reduce the exposure of workers to dust, fumes or vapour, which can be hazardous to their health. The performance of a LE installation depends however on many influential factors, and there is not yet an international standardized way to test LE constructions. The present study is the natural continuation of some previous studies at the University of Gävle that aimed at contributing to the establishment of such tests. The study entails full scale experimental measurements that include 3-D air velocity measurements and tracer gas tests in a controlled air turbulence environment generated through physical movements of a vertical, human-sized cylinder. These measurements were focused on human exposure, which was analysed by means of a seated human simulator for different configurations in which the exhaust flow rate, turbulence level, the exhaust hood arrangement and the measuring/injecting distance varied. The use of a sonic 3-D anemometer, that yielded both magnitude and direction of the air movement, proved very useful in analysing the generated air turbulence. As a measure of the LE performance, PNV value (Percentage of Negative Velocities) was used. This measure represents the percentage of time when the air flow at the measuring point in front of the exhaust hood is directed away from the nozzle, i.e. when the velocity component in the direction towards the exhaust hood opening is negative. Regarding the results obtained, in an otherwise undisturbed environment, measurement data showed that the natural convection from the human simulator sitting in front of the LE introduces some disturbances of the air flow in the suction region, proportional to the exhaust flow rate. However, when additional turbulence was generated through the controlled movements of the human-sized cylinder, thus creating a controlled turbulence setting, natural human convection leaded to a lower percentage of negative velocities (PNV) in comparison with the case in which human simulator was not present, especially for low exhaust air flow rates and when the exhaust hood was raised from the table. The tracer gas tests implied injection of a neutrally buoyant tracer gas through a perforated sphere placed in front of the exhaust hood. The amount of tracer gas that escaped from the suction flow was measured both in the room air and in the breathing zone. The first measurements yielded a sensitive method for measuring the capture efficiency (CE) of the exhaust hood. The CE is the percentage of injected tracer gas that is directly captured by the exhaust hood. This parameter showed that although the convection flow generated by the human simulator leads to low PNV values, it seems that the tracer gas is not actually being captured, but trapped in that convection flow. As a consequence, PNV and CE get a strong correlation, which is even more intense when injection and capture point are closer together. Hence, PNV represents a good alternative to tracer gas measurements only if the relationship between the correlation of PNV and CE with respect to the distance from the injection to the capture point is known. Finally, measurements of tracer gas in the breathing zone showed random, short and high exposures when turbulence was generated and those exposures got worse by natural human convection. local exhaust ventilation human exposure
137	A study of displacement ventilation systems for use in Hong Kong Lee, Chun-kwong., 李振光. January 1998 (has links) published_or_final_version / Mechanical Engineering / Master / Master of Philosophy
138	The evaluation of dust in a swine barn and its relation to heat exchanger application. Avey, Hugh Reginald. January 1970 (has links) No description available. Barns -- Heating and ventilation. Dust -- Removal
139	Potential energy conservation options for reducing heat load requirements in residences in Atlanta, Georgia Rubel, Jon Frederic 05 1900 (has links) No description available. Dwellings Heating and ventilation Energy conservation
140	Control of airborne micro-organisms in surgical and pharmaceutical cleanrooms Whyte, William January 2001 (has links) No description available. 628.53 Infections; Surgery; Ventilation systems

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