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Thermal Comfort (thermal + comfort)

Distribution by Scientific Domains

Engineering	83%

Selected Abstracts

Prediction of thermal sensation based on simulation of temperature distribution in a vehicle cabin

HEAT TRANSFER - ASIAN RESEARCH (FORMERLY HEAT TRANSFER-JAPANESE RESEARCH), Issue 3 2001
Takuya Kataoka
Abstract Thermal comfort in an automobile is predicted with numerical simulation. The flow field and temperature distribution are solved with a grid system based on many small cubic elements which are generated automatically with cabin and passenger configuration. Simulation of temperature is combined with simulation of cooling cycle and calculation of heat transfer at the wall including solar radiation to treat transient and actual driving conditions of the vehicle. In order to evaluate thermal comfort, transitional effective temperature is calculated from simulated thermal conditions and physiologic values which are calculated by a simple model of a human thermal system. This system can well predict thermal sensation of passengers in a short period of time. © 2001 Scripta Technica, Heat Trans Asian Res, 30(3): 195,212, 2001 [source]

Differences between young adults and elderly in thermal comfort, productivity, and thermal physiology in response to a moderate temperature drift and a steady-state condition

INDOOR AIR, Issue 4 2010
L. Schellen
Abstract, Results from naturally ventilated buildings show that allowing the indoor temperature to drift does not necessarily result in thermal discomfort and may allow for a reduction in energy use. However, for stationary conditions, several studies indicate that the thermal neutral temperature and optimum thermal condition differ between young adults and elderly. There is a lack of studies that describe the effect of aging on thermal comfort and productivity during a moderate temperature drift. In this study, the effect of a moderate temperature drift on physiological responses, thermal comfort, and productivity of eight young adults (age 22,25 year) and eight older subjects (age 67,73 year) was investigated. They were exposed to two different conditions: S1-a control condition; constant temperature of 21.5°C; duration: 8 h; and S2-a transient condition; temperature range: 17,25°C, duration: 8 h, temperature drift: first 4 h: +2 K/h, last 4 h: ,2 K/h. The results indicate that thermal sensation of the elderly was, in general, 0.5 scale units lower in comparison with their younger counterparts. Furthermore, the elderly showed more distal vasoconstriction during both conditions. Nevertheless, TS of the elderly was related to air temperature only, while TS of the younger adults also was related to skin temperature. During the constant temperature session, the elderly preferred a higher temperature in comparison with the young adults. Practical Implications ,Because the stock of fossil fuels is limited, energy savings play an important role. Thermal comfort is one of the most important performance indicators to successfully apply measures to reduce the energy need in buildings. Allowing drifts in indoor temperature is one of the options to reduce the energy demand. This study contributes to the knowledge concerning the effects of a moderate temperature drift and the age of the inhabitants on their thermal comfort. [source]

Prediction of thermal sensation based on simulation of temperature distribution in a vehicle cabin

Differences between young adults and elderly in thermal comfort, productivity, and thermal physiology in response to a moderate temperature drift and a steady-state condition

Coupling of thermoelectric modules with a photovoltaic panel for air pre-heating and pre-cooling application; an annual simulation

INTERNATIONAL JOURNAL OF ENERGY RESEARCH, Issue 14 2008
Nolwenn Le Pierrès
Abstract Thermoelectric (TE) modules are possible reversible pre-cooling and pre-heating devices for ventilation air in buildings. In this study, the opportunity of direct coupling of TE modules with photovoltaic (PV) cells is considered. This coupling is evaluated through a numerical simulation depending on the meteorological conditions of Chambéry, Alpine region in France, and on the cooling or heating use of the TE modules, through annual energy and exergy efficiencies. For the considered conditions, TE module performances are of the same order as the ones of the vapour compression heat pumps, with a TE coefficient of performance higher than 2 for low values of input DC current. The PV,TE coupling efficiency varies between 0.096 and 0.23 over the year, with an average value of 0.157. Evolutions of the exergy effectiveness of PV and TE elements follow the same trends as the corresponding energy efficiencies but with steeper variations for the coupling exergy yield that varies between 0.004 and 0.014, with an annual average value of 0.010. The direct PV,TE coupling does not seem to be a sustainable option for the summer cooling purpose particularly. A case study with indirect coupling under a warm climate is considered and shows that the use of TE devices could be efficient in housing to ensure summer thermal comfort, but the corresponding necessary PV area would induce a high investment. Copyright © 2008 John Wiley & Sons, Ltd. [source]

A cost-effective operating strategy to reduce energy consumption in a HVAC system

INTERNATIONAL JOURNAL OF ENERGY RESEARCH, Issue 6 2008
Nabil Nassif
Abstract The operation of the building heating, ventilating, and air conditioning (HVAC) system is a critical activity in terms of optimizing the building's energy consumption, ensuring the occupants' comfort, and preserving air quality. The performance of HVAC systems can be improved through optimized supervisory control strategies. Set points can be adjusted by the optimized supervisor to improve the operating efficiency. This paper presents a cost-effective building operating strategy to reduce energy costs associated with the operation of the HVAC system. The strategy determines the set points of local-loop controllers used in a multi-zone HVAC system. The controller set points include the supply air temperature, the supply duct static pressure, and the chilled water supply temperature. The variation of zone air temperatures around the set point is also considered. The strategy provides proper set points to controllers for minimum energy use while maintaining the required thermal comfort. The proposed technology is computationally simple and suitable for online implementation; it requires access to some data that are already measured and therefore available in most existing building energy management and control systems. The strategy is evaluated for a case study in an existing variable air volume system. The results show that the proposed strategy may be an excellent means of reducing utility costs associated with maintaining or improving indoor environmental conditions. It may reduce energy consumption by about 11% when compared with the actual strategy applied on the investigated existing system. Copyright © 2007 John Wiley & Sons, Ltd. [source]

Developing a new cost-efficient control strategy for an actual confectionery plant through the combined exploitation of experimental and numerical analysis

INTERNATIONAL JOURNAL OF ENERGY RESEARCH, Issue 6 2003
Piero Lunghi
Abstract Achieving energy absorption reductions while improving indoor air quality is a major task when designing new air conditioning systems. A cost-effective way to improve energy efficiency without compromising the thermal comfort consists of developing better control. In the present work, an extensive experimental campaign has been coupled with a theoretical analysis with an effective approach. A simulation tool has been implemented and, through its predictions, an efficient control strategy has been developed in a system that resulted in significant energy savings and environmental benefits. Copyright © 2003 John Wiley & Sons, Ltd. [source]

Prosocial to Egoistic Enculturation of Our Children: A Climato-Economic Contextualization

NEGOTIATION AND CONFLICT MANAGEMENT RESEARCH, Issue 2 2009
Evert Van de Vliert
Abstract Are altruistic, cooperative, apathetic, and egoistic cultures passed on from generation to generation in nongenetic ways? A society-level analysis of data from the most recent World Values Surveys showed that adults in increasingly demanding cold or hot climates value cooperative enculturation of children to the extent that their society is richer, but egoistic enculturation to the extent that their society is poorer. These results refine the climatic demands,resources theory of prosociality, which posits that (a) humans in more demanding,colder or hotter,climates find it more difficult to satisfy homeostatic needs for thermal comfort, nutrition, and health; (b) increasingly demanding climates matched by wealth-based resources and availability of homeostatic goods produce more prosocial cultures; and (c) increasingly demanding climates unmatched by wealth-based resources and availability of homeostatic goods produce less prosocial cultures. [source]

Pre-operative forced-air warming as a method of anxiolysis

ANAESTHESIA, Issue 10 2009
R. J. Wen
Summary We tested the hypothesis that pre-operative forced-air warming is as effective for anxiolysis as intravenous midazolam, using a blinded, placebo controlled factorial design. One hundred and twenty patients were randomly assigned to cotton blanket and saline injection (n = 30), forced-air warmer and saline injection (n = 30), midazolam 30 ,g.kg,1 and cotton blanket (n = 30), and forced-air warmer and midazolam 30 ,g.kg,1 (n = 30). Patients completed visual analogue scales for anxiety and thermal comfort, and the State-Trait Anxiety Inventory, at baseline and after 20 min. The estimated effect of midazolam on visual analogue scores for anxiety was ,10 (95% CI ,3 to ,18; p = 0.007) and on state anxiety was ,5 (95% CI ,7 to ,4; p = 0.03). Warming had no influence on visual analogue scores for anxiety (p = 0.50) or state anxiety (p = 0.33), but its estimated effect on thermal comfort was +23 (95% CI 19,27; p < 0.0001). There was no interaction between midazolam and warming. Pre-operative warming was not equivalent to midazolam for anxiolysis and cannot be recommended solely for this purpose. [source]

Ausstattung von Klassenräumen mit Einrichtungen zum Temperieren, Lüften und Belichten

BAUPHYSIK, Issue 3 2009
Gruppenleiterin Raumklimaqualität Runa Tabea Hellwig Dr.-Ing.
Bauphysik allgemein; Energieeinsparung Abstract Fast alle Schulräume werden in Deutschland ausschließlich über Fenster mit Außenluft versorgt. Messungen haben gezeigt, dass die Belüftung der Schulräume vor allem in der kalten Jahreszeit unzureichend ist. Hybride Lüftungssysteme mit einer automatischen Unterstützung der Fensterlüftung könnten eine Möglichkeit bieten, die Häufigkeit schlechter Innenluftqualität in Schulen zu minimieren. Hierbei ist die Anordnung der dezentralen Zuluftöffnungen in den Fassaden eine der kritischsten Systemkomponenten, und es besteht gerade bei Schulgebäuden weiterer Untersuchungs- und Optimierungsbedarf. Im Rahmen des vom Bundesministerium für Wirtschaft und Technologie geförderten Verbund- projektes "Heizenergieeinsparung, thermische Behaglichkeit und gute Luftqualität in Schulgebäuden durch hybride Lüftungstechnik" werden die Eigenschaften von Klassenräumen im Landkreis Miesbach bezüglich der Temperierung, Belüftung und Belichtung aufgenommen. Die Begehung von 22 Schulen im Landkreis Miesbach ermöglicht für einen gesamten Landkreis die Bewertung der baulichen Gegebenheiten, welche die raumklimatischen Verhältnisse entscheidend beeinflussen. Die Belegungsdichte der Klassenräume im Landkreis Miesbach ist eher als normal bis gering einzustufen, da in ca. 80 % der Räume der Mindestwert von 2 m2 je Schüler eingehalten wird. 88 % der untersuchten Räume weisen eine mittlere bis hohe thermische Masse auf. Die meisten Klassenräume im Landkreis haben einen Fensterflächenanteil von 30 bis 60 %. Etwa 50 % der Räume besitzen keinen Sonnenschutz. Der bauliche sommerliche Wärmeschutz muss überwiegend als unzureichend bewertet werden. Etwa zwei Drittel der Klassenräume weisen eine gute bis mittlere Tageslichtversorgung auf. Die Klassenräume werden über Fenster belüftet. Die Fassaden besitzen vielfältige Öffnungsmöglichkeiten, wobei Drehkippflügel und Schwingflügel am häufigsten angetroffen werden. Equipment of classrooms with systems for maintaining temperature, for ventilation and for illumination. Most German classrooms are not equipped with mechanical ventilation systems. Natural ventilation controlled by the occupants opening the windows is the main way to provide fresh air. Measurements in real classrooms showed that the ventilation especially in cold season is insufficient. Hydrid ventilation systems with automatically controlled windows might reduce the prevalence of high carbon dioxide concentration inside the classrooms. The position of the air supply opening in the façade is the most sensible design task. There is still a big potential for optimization. In the frame of the project "Energy saving, thermal comfort and good indoor air quality in schools using hybrid ventilation" supported by the German Federal Ministry for Economic Affairs and Technology the properties of classrooms in the county Miesbach/Germany regarding thermal comfort, ventilation and illumination were collected. In sum data of 106 classrooms in 22 schools were collected. The density of persons is normal to low. Approximately 80% of the rooms offer at least 2 or more square meter per pupil. 88% of the investigated classrooms are built with medium or high thermal mass. The glazed facade area is between 30 and 60% for most of the classrooms. 50% of the classrooms do not have any sun shading device. The summer overheating protection by passive means is insufficient. Two thirds of the classrooms offer a good to acceptable daylight condition. The classrooms are ventilated by opening the windows. There are different opening types of the windows and several combinations of the types in the façades. Tilt and turn windows and the horizontally pivot-hung type are the most prevalent types. [source]

Dem Himmel entgegen , Klimadesign für den Federation Tower Moskau

BAUPHYSIK, Issue 3 2008
Claudius Reiser Dipl.-Ing.
In der Entwicklung des Klimakonzeptes der Turmkappe Ost des Federation Towers in Moskau wurden modernste Simulationswerkzeuge eingesetzt. Die vollständig gläserne Turmkappe in 365 m Höhe soll Raum für einen der schönsten und exklusivsten Bereiche des Hotels geben. Diverse Restaurants, Bars und Lounges sowie ein Sky Dance Club sollen einmal zum Verweilen und zur nächtlichen Vergnügung einladen und dabei stets einen traumhaften Blick über die gesamte Stadt ermöglichen. Mit Hilfe der Simulation wurde für die Turmkappe ein Klimakonzept entwickelt und überprüft, das die thermische Behaglichkeit unter Berücksichtigung von Architektur, Klima und Nutzung gewährleistet. Dazu wurde die Architektur inklusive der Klimatechnik in einem 3D-Modell abgebildet und für den Sommer- und Winterfall berechnet. Der vorliegende Beitrag vollzieht den Planungsablauf von der Lastberechnung bis hin zur Erstellung und Bewertung des Klimakonzeptes in der Simulation. Skywards , climate design for the Moscow Federation Tower. Advanced simulation tools were used in developing the climate design for the roof covering the taller of the two blocks at Moscow's Federation Tower. The all-glass roof space at a height of 365 m is designed to accommodate the finest and most exclusive hotel areas. Several restaurants, bars and lounges and a Sky Dance Club will offer entertainment and fabulous views across the whole city. Simulations were used to develop and verify a design that ensures thermal comfort taking into account architectural, climate and utilisation requirements. The structure and the building services were simulated based on a 3D model, and simulations were carried out for summer and winter scenarios. This paper describes the design process including load calculations and the development and assessment of the climate design by means of simulation. [source]