To achieve the intended results of building, managing and using a property requires knowledge,continuity and communication, which can be assured by a dynamic and flexible quality assurance(QA) system. Such a system, intended to ensure high-quality indoor environmental conditions, hasbeen developed and successfully applied over the last ten years. However, although clients have beenvery satisfied with the QA system and its results, the pressure for energy efficiency improvement hasincreased.
This paper presents a case study of a typically poor energy performing factory building singled outfrom nation-wide study on factory buildings for improving energy performance. Short term energymonitoring has shown that lighting system is the main energy consumer of landlord area energyusage in these naturally ventilated factory buildings. It aims to maximize significant energyperformance upgrading opportunities in the lighting system and explore the use of photovoltaics toachieve low-energy factory buildings.
The utilization factor is a relative well-known concept used in some simplified calculation methodssuch as the procedure described in the CEN EN-13790 where the FU depends on the inertia of thezone. In this paper we will analyse the inertia influence of each component of the zone in the inertia ofthe zone itself. With the results of this study, we will be able to know where to act if we desire to ariseor diminish the whole thermal inertia of a room. The present paper starts analysing the energy storedand released in building components as walls.
1. Thoughts 1. Why care? 2. Sustainable Architecture or just Architecture, are they something different? 3. On past and future – learning from tradition. 4. On the overwhelming power of design. 5. On starchitecture. 6. On the design process and the golden
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