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Institut of Tecnology Bandung (ITB), Indonesia

 1. Project Name
 2. Duration
 3. Research Category 1
 4. Research Category 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


1  The use of local similarily theory to determine diffusivity coefficient in 
   order to determine dispersion coefficient(sigma) in Gaussion plume dispersion 
   formula.
2  1997-1998
3  air
4  modelling
5  meteorology
6  
7  Air Pollution Division, Department of Environmental Engineering 
8  Institute of Technology Bandung 
9  Oanegha 10, Bandung 40132 
10 Indonesia
11 022-250-26-47
12 022-250-26-47
13 The objective is to determine ƒÐ, and use it in Gaussion plune dispersion 
   formula using similarity theory to determine diffusivity coefficient, K and 
   after determining K,ƒÐis concluded.
14 
15 


1  Determination of performance coefficient of ACT sludge process;
   Development of ground water recharge modelling
2  1992-1999
3  water, wastes
4  conutermeasures, modeling, water resource development, treat, use & process
5  engineering
6  B. Csestib, Suprihanto N, J. Nobella
7  Env, Eng, Department, ITB ; Env. Study Center
8  Institute of Technology Bandung 
9  JL.Ganesa No 10 Bandung 40132
10 Indonesia
11 62-22-2502-647
12 62-22-2502-647
13 a.This project aims at developing an eng. procedure for determining 
   coeffcient or parameters used in designing b.waste treatment plant
   Development of engineering model of ground water well recharge for subsurfase 
   ground water
14 B.Cieatib, Determining of coeficient "M" for activated
   sludge process, Jurnal technig lingkunga , oct-1994
15 G.W.R.C-(Australia)


1  Improvement of water and sediment quality of shrimp pond system by microbial
   process
2  1998-2000
3  water,waste, conutermeasures
4  bioremediation
5  bioprocess engineering
6  Linawah Harajito, Yenni Ciawi, Gary Robinson
7  Division of marine biotechnology, CCMRS, IPB, BOGOR
8  Institute of Technology Bandung  and Kent Univ, UK
9  kampus-IPB, Darmaga,Bogor
10 Indonesia
11 62-251-621-086
12 62-251-621-086
13 This project aims to develop a process employing microorganisms (including 
   microalgae to improve shrimp pond system Nitrification and denitrification
   microorganism are employed to remove ammonia and also produced feed(microalgae)
14 Gary Robinson, Dr. (Univ. of Kent at Canterbury, UK) 
15 


1  Rock Magnetic Characterization of Environmental Change
2  1996-2000
3  rock and soil magnetism
4  magnetic analysis, instrumentation
5  environmental geophysics
6  S.Bijaksana, E.Agustine, S.Zulaikah
7  Physics Department
8  Institute of Technology Bandung
9  Jalan Ganesa 10, Bundung 40132, 
10 Indonesia
11 62-22-2500977/0834
12 62-22-2500977/6452
13 This project aims at developing a set of magnetic characterization for rock,
   sediments & soils that can be used as proxy indicators of environmental changes
14 1) Bijaksana,S. and J.P.Hodych, physics and chemistry of the earth, 
     vol.22 No1-2 ,pp189-193,1997
   2) Bijaksana,S and A.A.Kadir, proceeding of the 22nd scientific annual 
      meeting, Indonesian geophyisical association, oct 16-17,1997
   3) Bijaksana,S. proceeding of the 16th national symposium on physics,
      Dec12-14,1996
15 


1  Microbial degradation of halogenated organic compounds
2  1994-1998
3  wastes, microbiology
4  source inventory
5  biology
6  T.Hernawan, I.Sastramimardja, Soetijoso
7  Lab. of Micro Biology & Lab. of Biochemistry, URC on Biotechnology
8  Institute of Technology Bandung
9  JL. Budiluhur 12A-Bandung, 40153
10 Indonesia
11 62-22-235263(home); 62-22-2509172ext3279 ; 62-22-2504987ext1671
12 62-22-2504987
13 PTO
14 1) Dehalogenating and growth of soil bacterial & stroins uielobolizing 
      halogenated organic compounds(1994).   South East Asia Work Shop on 
      "Rapid Method in Microbiology, Kaschsast University, Bangkok-Thailand
   2) Growth and dehalogenating capabilties of a local strain, P.cepacia in 
      several halogenated organic oubslookes. The fourth international 
      symposium of Eternet-APR, Bandung Indonesia(1998)
15 


1  Design and Development of a Low Cost and Environmentally Friendly Domestic 
   Liquid Waste Treatment Unit
2  1995-1996
3  water, wastes
4  modelling, product design
5  engineering, product design
6  Oemar Hanodjo, Vsri Haryati, Lanny Hardhy, Deddy Kuruiadi
7  Center for Research on Technology
8  Institute of Technology Bandung
9  17, Gasesha Street Bandung, 40132
10 Indonesia
11 62-22-2503307
12 62-22-2501768
13 The project concerns mainly with the design, development and construction of 
   a low cost and environmentally friendly domesic liquid waste unit.
   The unit is a two phase, biological processing of liquid waste namely 
   anaeroic and aerobic processes.  The unit containing the biofilm culsture 
   that is disigned for reducing BOD concent. of the liguid waste.
14 
15 


1  Effects of inocolum sources and temperature on anaerobic decolorization of 
   reactive azo dyes
2  1997-1998
3  water, wastes
4  treatment, conutermeasures
5  microbcology
6  A.S.Arocansyan; D.A.S.Utomo; R.Hasibuan
7  Deot. of Chemical Enginering
8  Institut of Tecnology Bandung(ITB)
9  Jl. Ganesa 10, Bandung 40132
10 Indonesia
11 62-22-2506454
12 62-22-2501438
13 In this study, the effect of inoculum sources and temprature on the anaerobic 
   decolorization of azo reactive dyes was investigated. 
   For 4 hours of incubation, the decolorization of CI-198, CI-141 and CI-5 in 
   anaerobic system was found to be first order with respect to dye 
   concentration.
14 It also shows that the acclimatized inoculum was only fasher in reducing 
   CI-5, but no better for other dyes.   Therefore, the fresh activated sludge
   from a textile wastewater treatment was suggested as a good source of micro 
   oxamisus. Moreover, the decolorization rate increased wish temperature.
   The increase was very significant for CI-198 and CI-141 
15 Sehoch,7.etal.(1998).Effect of inoculum sources and temperature on anaerobic 
   decolorization of reactive azo dyes',  .the Fourth International Symposium of
   Eternet-APR, Bandung-Indonesia,23-24 March 1998.
16 Foreled by the ASAHI GLASS foundation through overseas research great.


1  Biologycal Treatment of Textile Waste Water
2  1992-1997
3  waste water
4  conutermeasures, decolorization, degradation of Metabolic
5  biology; engineering; toxicology
6  Wiesmann, Libra
7  
8  Technische Universitay Berlin and Institut of Tecnology Bandung(ITB)
9  Jl. Ganesa No 10, Bandung 40132
   Dept. of Environmental Engineering
10 Indonesia
11 62-22-432189
12 62-22-432189
13 Throug combination of anaerobic and aerobic condition was textile waste water 
   (reactive dye) decolorization and degradation.   We used fixed bed reactors 
   and also mixed culture.
14 
15 Tu Berlin, Germany