The stake of sustainable development is to ensure today's and future developments of awealthy and healthy society in a high quality environment. This is also valid for sustainablebuildings that should take account of environmental, economical and social stakes. Thisincludes, among others, low energy use, good indoor environment quality (IEQ) and health.One of the aims of the European HOPE project is to evaluate buildings from these points ofview.

Under the aspect of consumer protection different kinds of labelling systems for materialemissions have been developed in many European countries and by industrial organizations.Despite a common market there is no harmonized system for material emission available inEurope. In the second half of 2001, the European Collaborative Action on Urban Air, IndoorEnvironment & Human Exposure established a working group to bring forward theharmonization of the indoor material labelling schemes at European level.

The scope of this paper is the definition of some indoor air quality health-based criteria forhealthy buildings. One possible approach to establish indoor air quality health-based criteriacould be to define target values of a set of measurable parameters (chemical, physical andbiological) related to health. Target values to assess the parameters are set according to fullexposure (e.g. WHO guidelines, 24 h all people) or partial exposure (e.g., EPA guidelines, 8 haverage adult).

Klima ADE is a program for fast selection and calculation of air diffusion devices, which isbased on:- Design criteria for the thermal environment are based on EN ISO 7730 (optimaloperative temperature and maximum mean air velocity in occupied zone).

The German Federal Environmental Agency has published a ‘mould guide’, which aims at harmonizing procedures to investigate and evaluate indoor mould contamination. The policy behind the guide is not to make a health assessment for every individual case ba

The Healthy Building Technology Programme was established in Finland to abolish thefactors causing building related problems as it was clearly seen that deficiencies in indoor airhad an economical importance even at the national level (Rantama, 2003).

A very important issue for all activities for better IAQ in Finland has been the introduction of theclassification guidelines for indoor air quality and climate. These guidelines, published by FISIAQ,including measurable target values, cleanliness requirements and emission criteria for buildingmaterials, have been in use in Finland since 1995 and were revised in 2001.An essential part of the successful IAQ classification has been the emission classification ofconstruction materials.

Indoor air quality is one of the main factors, which affect indoor environment. Through analyzing indoor air quality (IAQ), 9 main factors have been established in this paper, such as temperature, wind speed and relative humidity, and so on. By the adaptive degree of humans physiology and psychology to indoor environment, IAQ is partitioned into 3 grades, that is comfortable, rather comfortable and uncomfortable. By above 3 grades, the limitation scopes of every grade of all factors are given, accordingly.

It is showed that side grinder produce significantly metal sheet dust onto the inner surfaces ofventilation ducts. New, cleaner installation method was developed in which shears are used asinstallation tools. The aim of this study was to carry out ventilation system installations atthree building sites with clean installation method and to collect information about operatingcharacteristics of the shears by interviewing assembly workers.The results of dust measurements showed that the average amount of dust on the inner surfacesof supply air ducts was very low in all three buildings.

Heating, ventilation and air-conditioning (HVAC) systems play an important role formaintaining a healthy and comfort indoor climate for buildings. Faults in the systems decreasethe performance and lead to higher energy consumption or lower thermal comfort level.Researches of the fault detection and diagnosis (FDD) on the building HVAC systems havebeen presented in recent decades. However, many of them use simulation tools or software tocheck the behaviour under the faulty condition. Few people introduced real faults into the realsystems to get the responses.