The developing trend that Building Regulations in the future will be applied to buildings in use rather than to their design intent on paper has many important implications. It will lead to pressure testing of new buildings to ensure air tightness, low energy bills and the associated absence of draughts. Importantly, it means that for the first time, the ventilation air will enter the building through the air inlet ductwork. This offers the designers the opportunity to control the indoor environment to create refreshing comfortable climate while retaining low energy use.
The results of three independent studies involving 90 subjects, and using similar procedures and blind exposures have shown that increasing air quality (by decreasing the pollution load or by increasing the ventilation rate, with otherwise constant indoor climate conditions) can improve the performance of simulated office work (text typing, addition and proof-reading). An analysis of the combined data from these studies is presented to establish the relationship between air quality and performance in offices.
The objective of this study was to test a new office space where the environmental conditions could be well controlled- a "field laboratory", located at Mid Sweden University in 6stersund. To test the laboratory, the same experiment that had been carried out earlier at the Technical University of Denmark (DTU) was repeated. A further objective was to test whether the earlier results from DTU showing a negative impact of increased indoor air pollution on perceived air quality, Sick Building Syndrome (SBS) symptoms and performance could be repeated.
The paper discusses the suitability of the sunken courtyard concept in the desert climate using Kuwait as a case study. It investigates three issues related to the concept: its ability to modify the harsh climate and to reduce the energy consumption, its constrnction costs compared to aboveground building, and the occupants' attitude towards living underground. The results are shown to be all positive and will be significant to the policy-makers, designers, and homeowners.
For more than 100 years, temperature control has been the principal concern of our industry. That focus and our collective efforts have achieved immense improvements in the human condition – improvements so fundamental that they are usually overlooked and unappreciated, even by ourselves. We seldom reflect on what the world was like before the refrigeration of food and medicine, or before the availability of low-cost, reliable heat in the winter and cooling in the summer. However, in spite of- or because of- those achievements, the expectations of the public have moved higher.
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