MODELLING THE FORMALDEHYDE EMISSION FROM MULTI-LAYER WORK SURFACES USED IN OFFICE WORKSTATION SYSTEMS

Volatile organic compounds (VOCs) emitted from various sources may adversely affect human health,comfort and performance. In particular, formaldehyde has been identified as a major indoor pollutantwhose emission is controlled by workstation systems. Engineered wood products such asparticleboards have widely been used with wood veneer and laminate to form work surfaces ofworkstation systems, which is a major formaldehyde emission component. The emission rate offormaldehyde depends on the composition of each material layer, temperature and moisture content inthe materials.

INVESTIGATION OF AIR POLLUTION IN LARGE-SCALE BUILDINGS AND OF EMPLOYEES’ PERSONAL EXPOSURE LEVEL

Recently, a big change in indoor air environment has been recognized. This new problem is caused byhigh air tightness, high adiabatic and newly building material, and has been the cause of healthproblems which is called Sick Building Syndrome. This study has been conducted to understand thepresent state of indoor air pollution by chemical pollutions in 23 Japanese large-scale buildings to beopen for public people. We also investigated the personal exposure level of employees under theperiod of working at the above-mentioned building and of staying at individual houses.

Methods and results of characterisation of organic emissions from an indoor material.

Presents the method and example results for the determination of organic air emissions from a common indoor material. Sample materials were ventilated at controlled air change rates, temperature and relative humidity using a well instrumented and characterized stainless steel test chamber. Tenax filled glass cartridges were used to analyse the chamber outlet air stream, which are than thermally desorbed for further concentration onto a Nutech model 8528 purge and trap system and desorption to a packed column gas chromatograph.

Sensory and chemical characterisation of VOC emissions from building products: impact of concentration and air velocity.

Describes a study of the emissions from five commonly used building products: three floor coverings - PVC, floor varnish on beechwood parquet and nylon carpet on a latex foam backing; an acrylic sealant and a waterborne wall paint on gypsum board. Small scale test chambers were used over 50 days. A sensory panel was used to assess odour intensity and VOCs were measured. Emissions were studied under two or three different area-specific ventilation rates.