National Institute of Advanced Industrial Science and Technology (AIST) This page is a page of the former research institute. We stopped updating on March 31.2001.
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Environmental Technology Research Network
in the Asia-Pacific Region

DB for Research Project
Category(1) : Air
Category(2) : Risk management


  1. Project Name
  2. Duration
  3. Research Catagory 1
  4. Research Catagory 2
  5. Research Field
  6. Researchers
  7. Affiliation 1
  8. Affiliation 2
  9. Address
  10. Country
  11. Phone
  12. Fax
  13. Project Summary
  14. Publications
  15. International Joint Study with

Monash University (MU), Australia

  1. Indoor Air Environment
  2. 1992-ongoing
  3. indoor air quality
  4. assessment, measurement, source inventory, risk mangement
  5. chemistry, biology, health
  6. Beverley HOOPER and Martin HOOPER
  7. Gippsland Centre for Environmental Science, School of Applied Science
  8. Monash University (MU)
  9. Switchback Rd, Churchill 3842, Victoria
  10. Australia
  11. 161-3-99026412
  12. 161-3-99026738
  13. Bev.Hooper@sci.monash.edu.au
  14. 1) B.M. Hooper and M.A. Hooper, "Indoor Air Pollution: A Short Review". Clean Air, 1986, 20(2), 47.
    2) D Godish, T Godish, B Hooper and M Hooper, "Mold Risk Factors in Latrobe Valley, Victoria, Australia Houses", Proceedings, Indoor Air '93, 6th International Conference on Indoor Air Quality and Climate, Helsinki, Finland, 369-373, Vol 4, 1993.
    3) B M Hooper, M H Garrett, T Godish, D Godish and M A Hooper, "A Comparative Study of Methods of Measuring Formaldehyde in Homes in the Latrobe Valley", Proceedings 12th International Conference of the Clean Air Society of Australia and New Zealand, Perth, 1994, 1, pp575-581.
    4) Hooper, B M et al, Nitrogen Dioxide in the Home Environment and Respiratory Health of School-Age Children. Proc. 7th Int. Conf. on Indoor Air Quality and Climate, Nagoya, Japan, 1996, Vol. 1, pp. 641-646
    5) Garrett M H, et al, Low Levels of Nitrogen Dioxide and Formaldehyde Influence Health in Children. Proc. 13th Int. Clean Air and Environment Conference 1996, pp. 643-648.
  1. Indoor Environment and Asthma in Children
  2. 1993-1996
  3. indoor air, asthma
  4. measurement, source inventory, risk mangement
  5. chemistry, biology, health
  6. Maria GARRETT, Martin HOOPER, Beverley HOOPER
  7. Gippsland Centre for Environmental Science, School of Applied Science
  8. Monash University (MU)
  9. Switchback Rd, Churchill 3842, Victoria
  10. Australia
  11. 161-3-99026414
  12. 161-3-99026738
  13. Maria.Garrett@sci.monash.edu.au
  14. 1) Garrett MH et al. Home Environment and Asthma - Research Methodology. Indoor Air - An Integrated Approach, L Morawska, ND Bofinger and M Maroni (Eds.), Elsevier Science Ltd, pp. 219-22
    2) Garrett MH, et al Low Levels of Formaldehyde in Residential Homes and a Correlation with Asthma and Allergy in Children. Proc. 7th Int. Conf. Indoor Air Quality and Climate, Nagoya, Japan, 1996, Vol. 1, pp. 617-62
    3) Garrett MH et al Nitrogen Dioxide in the Home Environment and Respiratory Health of School-Age Children. Proc. 7th Int. Conf. on Indoor Air Quality and Climate, Nagoya, Japan, 1996, Vol. 1, pp. 641-646
    4) Garrett MH et al Airborne Moulds, House Factors and Health Effects in Children. Proc. 7th Int. Conf. on Indoor Air Quality and Climate, Nagoya, Japan, 1996, Vol. 3, pp. 693-698.
    5) Garrett MH, et al Low Levels of Nitrogen Dioxide and Formaldehyde Influence Health in Children. Proc. 13th Int. Clean Air and Environment Conference 1996, pp. 643-648.

Korea Institute of Science and Technology(KIST), Korea

  1. Emergency Response to Accidental Release and Explosion
  2. 1995-1998
  3. Disaster Prevention, air, water
  4. Accidental Release, countermeasure, risk management
  5. Air
  6. GHIM Y. S., MOON K.C., KIM J.S
  7. Environment Research Center
  8. Korea Institute of Science and Technology(KIST)
  9. P.O. Box 131, Chenongryang Seoul Korea
  10. Korea
  11. 82-2-958-5817
  12. 82-2-958-5805
  13. Emergency Response, Accidental Release, Explosion

Mechanical Engineering Laboratory(MEL), Japan

  1. Evaluation Method for Manufacturing Systems
  2. 1992-1996
  3. global change, air, water, wastes, hazardous substances
  4. counter measures, source inventory, impact assessment, risk management
  5. engineering
  6. Shun'ichi SADO, Atsushi IWATA, Hideo INOUE
  7. Surface and Interface Technology Division,Department of Manufacturing Systems
  8. MEL, AIST, MITI
  10. Japn
  11. 81-298-61-7211
  12. 81-298-61-7167
  13. In order to reduce the ecological impact of manufacturing, it is necessary to minimize the environmental burden of each part of the system. We have developed a new computerized simulation method for assessing the environmental impact of proposed new products and manufacturing processes. Inputs to the simulator include environmental loads, and product and facility information. The materials and energy which are input to and output from the system under analysis are measured in "Ecounits", an index which represents the total environmental burden of the resources used and system outputs. The output from the simulator allows calculation of the predicted increment in ecounits caused by operation of the system. During tests of the simulator, the environmental impact of a hypothetical factory producing mechanical components was predicted, and the simulation method was shown to provide realistic and useful data.
  14. 1) Shun'ichi Sado, Atsushi, Iwata, Hideo Inoue, Seiji Nakahara, Nobuo Shikata, Ecofactory Manufacturing System for Future Generations and its Evaluation Method through Computer Simulation, Environmentally Conscious Design and Manufacturing, 2, 79-84, 1994
    2) Shun'ichi Sado, Atsushi Iwata, Planning and Evaluation of Machinery Manufacturing Processes in Environmental Burden Respects, International Journal of Environmentally Conscious Design & Manufacturing, 4(1), 83-89, 1995