In order to compare measurements and subjective votes on thermal comfort in a nonconditionedindoor environment under German climate conditions, a field survey was carriedout in an office and laboratory building in Karlsruhe during July 2005. Over a period of 4weeks 50 subjects filled in questionnaires twice a day every Tuesday and Thursday and accompanyingmeasurements were carried out at the workplaces.

Recently, the ventilation for the removal of pollutants has received much attention in responseto the increased needs for the health and better comforts of the occupants in apartmenthousing. To provide constant ventilation air flow, constant airflow mechanical ventilationsystem is predicted to be installed, and the installation of such mechanical system would leadto many problems.The purpose of this study is to evaluate application of hybrid ventilation system using thebalcony space in apartment housing.

This paper presents a new design concept of hybrid air conditioning system by using aportable air conditioner to achieve a better personal control of indoor environment withoutsacrificing the responsibility to a sustainable environment. The results of the detailedcomputational flow dynamics (CFD) simulation in this study, through a systematic analysison the parameters of wall opening, outdoor wind speed and temperature, show that with anappropriate design of wall openings, this hybrid system can sustain a comfortableenvironment until affected by strong wind blast.

This research proposes a simple device added to a window. The device improves indoorventilation using solar heat. It made from shoji paper, which is the traditional paper of Japan.The structure of the device is five air layers from five partitions of shoji paper. The deviceprovides insulation. In summer, it is used for ventilation. In winter, it is used for insulation atnight. Experiments were conducted with the device, and the ventilation performance andthermal insulation were confirmed. This paper reports the results of a numerical analysis ofthe device installed in a building model.

The density of Dhaka is increasing exponentially, and with it the demand for residentialaccommodation. Rapid densification is increasing hard surfaces and changing the urbantexture, thereby escalating heat absorption. This intensifies dependency on valuableconventional energy resources, for thermal comfort.Research shows that regional climatic data differs markedly from localised microclimaticeffects within the built environment. In built-up residential areas of the city there is the lack ofnatural wind flow, one of the most important ingredients for comfort during the warmmonsoons.

The article shows methods for wind influence on building ventilation systems analysis.Solution has been carried out through the experiment in wind tunnel as well as by CFDmodelling. Mean pressures and pressure variations have been measured on the model surfacewith respect of the ventilation intake and exhaust usual situating, with height of the roofparapets modification. The experimental results was presented by pressure coefficients-outputis possible convert to different boundary conditions. The wind effect was analysed in differentwind direction.

In the SARS epidemics in 2003, cluster of cases occurred in high-rise residential(HRR) building blocks, especially in Hong Kong, which gave rise to the concern of the possible roles of air flow. In this paper, the multiple parallel airborne transmission routes are discussed. In particular we closely investigated one of the most likely virus-spread paths, which is related to single-side ventilation air flow through open windows caused by buoyancy effects.

Within the Polish - Norwegian project SUREBILD (Sustainable Redevelopment of Buildings) special attention was paid to find the economically feasible technologies that might improve current poor indoor air quality in Polish schools. Detailed analysis has been performed for selected primary school including different scenarios of modernization of ineffective passive stack ventilation system. The results indicated that hybrid ventilation was the most interesting option from energy point of view.

Many naturally ventilated building designs rely on buoyancy (or “stack effect”) and night cooling of the structure. It is well known that for an exposed building, even mild winds can produce pressures well above those due to stack effect. It is also commo

Global climatic warming trends are becoming more and more obvious. They are characterizedby longer and more intense heat wave periods as witnessed in extreme by the summers 2003and 2006. This situation asks for mechanical cooling applications in office buildings. Is itpossible to reach good indoor environmental conditions using hybrid ventilation strategiesonly? This question has been investigated by measurements in the Forum Chriesbach, a newlow energy office building located in Dbendorf, Switzerland.