2019 International Congress on 

Chemical, Biological and Environmental Sciences 

(ICCBES 2019)

May 7-9, 2019 Osaka, Japan

The conference program will be announced on March 22, 2019

 

ICCBES Welcome Socializing Event, please click here

Keynote Speaker (1)

head shot photo

Prof. In-Soung, Chang 

Department of Environmental Engineering

Hoseo University

Education: 

Feb., 1996; Ph.D.Feb., 1996 ;    Ph.D.
Dept. of Chemical Technology, College of Engineering, Seoul National University, Seoul, South Korea
Feb., 1992; M.S.
Dept. of Chemical Technology, College of Engineering, Seoul National University, Seoul, South Korea
Feb., 1990; B.S.
Dept. of Chemical Technology, College of Engineering, Seoul National University, Seoul, South Korea

Professional Experiences:

Mar. 1997 to date
Professor, Department of Environmental Engineering, Hoseo University, Asan, Korea

Feb. 2014 to January. 2015
Vice Dean of College of Engineering, Hoseo University, Asan, Korea

Oct. 2008 to Feb. 2012
Dean of the 2nd stage BK21 Graduate School, Hoseo University, Asan, Korea

Honors and AwardsHonors and Awards


Awarded fellowship for abroad research supported by LG Yonam Foundation, University of Oxford (2007~2008)
Biographical record was registered in the "Great Minds of the 21st Century (2003-2004 Edition)", ABI (American Biographical Institute)

Title:

Disinfection By-products Free Disinfection Using High Voltage Pulse

Abstract:

Ozonation for the purpose of disinfection of drinking water usually produces various kinds of disinfection byproducts (DBPs). Among the DBPs, bromate (BrO3-) is notorious for its potential carcinogenic nature. World health organization (WHO) limits the bromate to 10 ppb in drinking water. To reduce this bromate formation during the disinfection processes, a high voltage impulse (HVI) technique was applied in this study. HVI has been used as one of disinfection process for non-thermal sterilization of foods. The HVI system consisted of the power supply, high voltage generator, capacitors and impulse generator. HVI with 10 to 20 kV/cm of electric fields was introduced to sample waters in order to monitor if bromates are formed or not. As the precursor of bromate, i.e., bromide (Br-) spiked into the sample waters by 1,000 ppb, bromate was not generated at all times, indicating that the bromate formation was completely inhibited. A model microorganism, Escherichia coli is inoculated to the sample waters to test the disinfection efficiency. More than 2-log reduction (99 %) of E.coli was achieved after HVI treatment with 20kV/cm, 100Hz, 4μs pulse width. Consequently, HVI technique could be used for an alternative strategy for bromate free-disinfection procedure for water disinfection.


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IMPORTANT DATES

Abstract/ Full Paper Submission Deadline

January 10, 2019

Notification of Acceptance 
From January 30, 2019

Paper reviewing takes 20 days

Registration & Payment Deadline 

March 10, 2019

Final Modificstion Deadline 

March 26, 2019

Conference Date 
May 7-9, 2019

 

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