The faults during design and installation phases are more critical with cooling systems than with normal HY AC systems: direct evaporated systems in particular require experienced engineers and mechanics. The most common fault is oversizing the systems and the design of the year-round-use system without winter conditions equipment. When the outdoor temperature is cold these systems present problems. The aim of this paper is to present the retrofitting concepts of cooling systems together with improved energy efficiency and operation of the system.

The paper is structured in four sections. The introduction sets the notion of solar control as a fundamental issue in deciding the priorities of climate-responsive design for different building types and locations in Europe. The second section presents an overview of application contexts and means of solar control, and discusses design priorities and threshold conditions for different space functions and environmental design requirements.

A short state of the art in heat attenuation studies and technology is presented, with reference to the climate conditions of Mediterranean countries. The main areas of mass, insulation, building shape, glazing and control are considered. The main problems pertaining to each area are discussed and the most promising perspectives illustrated. A possible scenario for a future European concerted action is proposed, considering both applied research, pre-normative studies, and industrial developments.

Ventilative cooling represents one of the heat dissipation techniques in the building design process. In this paper, we identify the driving forces of natural ventilation and their implications within the building. We focus on the various strategies to enhance the air circulation and exhibit the limits of this cooling technique. Design guidelines for architects based on existing knowledge are suggested. Finally, perspectives in terms of future research actions are exposed

To increase of diffusion on the bioclimatic architecture is necessary to make the calculation Method easy to use for designers. In particular the available calculation method for analytical, based on transfer functions or finite elements method or those made for simplified calculations are generally very complex to use. Is necessary to develop methods of analytical type and simplified more "friendly" to use.

Comfort conditions in a warm/hot environment can be achieved by means of several cooling strategies ranging from the obvious sun shading to the less obvious radiant cooling. These strategies are identified and three selected computer models are evaluated in terms of their capability to cope with them. The result is that the most popular or sophisticated computer models available are not able to deal with passive cooling. Also the problem of is the interface between currently available computer models and their final users, the architects, is analyzed.