Qualification
Two years’ experience in laboratory with wastewater treatment and drinking water treatment
Skills: Microsoft Office (Advanced) /ArcGIS/AutoCAD/High Performance Liquid Chromatography
Education
Master of Science University of Washington, Department of Civil and Environmental Engineering 09/2012-12/2013
GPA: 3.76(4.0)
Core Course & Grades
Aquatic Chemistry (4.0) | Microbiology Process Fundamentals (3.8) | GIS for Civil Engineers (3.8)
Organic Chemistry (3.8) | Air Resource Management (4.0) | Risk Assessment (3.9)
Bachelor of Science Fudan University, Department of Environmental Science and Engineering 09/2008-07/2012
Overall GPA: 3.32 (4.0) | Major GPA: 3.62 (4.0)
Core Course & Grades
Environmental Biology (A) | Fundamentals of Environmental Engineering (Hydromechanics) (A) Environmental Engineering (A-) | Experiments in Environmental Chemistry (A-)
Academic Experience
Academic Conference “TOP BRASIL” Program 07/2011-08/2011
Listened lectures given by professors from Tsinghua University, University of Sao Paulo and other universities, focusing on environment protection and sustainable development
Attended seminars on environment issues with Brazilian professors and students
Effect of Different Nitrogen source on Growth and Toxin Production of Microcystis Aeruginosa 07/2011-04/2012
Article: Review of Environmental Factors Effecting on Growth and Toxin Production of Algae in Drinking Water Sources, China Sciencepaper Online, 2013-01-18
Article: Research of Effect of Nitrogen and Phosphorus on Growth and Toxin Production of Harmful Algae, Environment and Health, 2013, vol(4)
Program leader: Fudan`s Undergraduate Research Opportunity Program
Used same concentration of organic nitrogen (amino acids) and inorganic nitrogen as two patterns of nitrogen resource to explore their effect on growth and toxin production of Microcystis aeruginosa
Used different concentrations of same amino acids to explore the effect of concentration of amino acids on growth and toxin production of Microcystis aeruginosa.
Formation Mechanism of Disinfection Byproducts of Micro-polluted Water 09/2010-07/2011
Protein, DNA and other typical chemicals were chosen to investigate the brominated and iodinated DBPs formation, and with increasing bromide ion concentration, the concentration of CHCl3 decreased continuously, while CHCl2Br and CHClBr2 increased initially and then decreased, and CHBr3 increased continuously
Coursework: Simulating Domestic Sewage Treatment by Bio-membrane process 03/2011-06/2011
Used bio-membrane to explore best removing rate of COD and nitrogen by changing HRT, way of aeration and finally concluded that COD average removing rate could reach 85.37%, while nitrogen removing rate was 69.23%
Program coworker: Literature reference, Proposal writing and Determination of COD, NO3-N...
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