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    Education

    • วท.บ.(วิทยาศาสตร์สิ่งแวดล้อม), มหาวิทยาลัยธรรมศาสตร์, ไทย, 2536
    • วท.ม.(วิทยาศาสตร์สิ่งแวดล้อม), จุฬาลงกรณ์มหาวิทยาลัย, ไทย, 2539
    • Ph.D.(Atmospheric Science ), Monash University, ออสเตรเลีย, 2547

    Interest

    มลพิษทางอากาศ , มลพิษสิ่งแวดล้อม

    Administrative Profile


      Resource

      • จำนวนหน่วยปฏิบัติการที่เข้าร่วม 0 หน่วย
      • จำนวนเครื่องมือวิจัย 0 ชิ้น

      งานวิจัยในรอบ 5 ปี

      Project

      งานวิจัยที่อยู่ระหว่างการดำเนินการ
      • ทุนใน 0 โครงการ
      • ทุนนอก 0 โครงการ
      งานวิจัยที่เสร็จสิ้นแล้ว
      • ทุนใน 0 โครงการ
      • ทุนนอก 3 โครงการ (หัวหน้าโครงการ 3 โครงการ)

      แนวโน้มผลงานทั้งหมดเทียบกับแนวโน้มผลงานในรอบ 5 ปี

      Output

      • บทความ 3 เรื่อง (ตีพิมพ์ในวารสารวิชาการ 3 เรื่อง)

      แนวโน้มการนำผลงานไปใช้ประโยชน์ในด้านต่างๆ

      Outcome

      • การนำผลงานไปใช้ประโยชน์ 0 เรื่อง (เชิงวิชาการ 0 เรื่อง, เชิงนโยบาย/บริหาร 0 เรื่อง, เชิงสาธารณะ 0 เรื่อง, เชิงพาณิชย์ 0 เรื่อง)

      รางวัลที่ได้รับ

      Award

      • รางวัลที่ได้รับ 0 เรื่อง (ประกาศเกียรติคุณ/รางวัลนักวิจัย 0 เรื่อง, รางวัลผลงานวิจัย/สิ่งประดิษฐ์ 0 เรื่อง, รางวัลผลงานนำเสนอในการประชุมวิชาการ 0 เรื่อง)

      นักวิจัยที่มีผลงานงานร่วมกันมากที่สุด 10 คนแรก


      Scopus h-index

      #Document titleAuthorsYearSourceCited by
      1Airborne volatile organic compounds and their potential health impact on the vicinity of petrochemical industrial complexThepanondh S., Varoonphan J., Sarutichart P., Makkasap T.2011Water, Air, and Soil Pollution
      214(1-4),pp. 83-92
      44
      2Roadside particulate air pollution in BangkokJinsart W., Tamura K., Loetkamonwit S., Thepanondh S., Karita K., Yano E.2002Journal of the Air and Waste Management Association
      52(9),pp. 1102-1110
      41
      3Source apportionment analysis of airborne VOCs using positive matrix factorization in industrial and urban areas in ThailandSaeaw N., Saeaw N., Thepanondh S., Thepanondh S.2015Atmospheric Pollution Research
      6(4),pp. 644-650
      30
      4NO2 and SO2dispersion modeling and relative roles of emission sources over Map Ta Phut industrial area, ThailandChusai C., Chusai C., Manomaiphiboon K., Manomaiphiboon K., Saiyasitpanich P., Thepanondh S.2012Journal of the Air and Waste Management Association
      62(8),pp. 932-945
      24
      5Performance evaluation of AERMOD and CALPUFF air dispersion models in industrial complex areaJittra N., Jittra N., Pinthong N., Pinthong N., Thepanondh S., Thepanondh S.2015Air, Soil and Water Research
      8,pp. 87-95
      16
      6Emissions of volatile organic compounds from maize residue open burning in the northern region of ThailandSirithian D., Sirithian D., Thepanondh S., Thepanondh S., Sattler M., Laowagul W.2018Atmospheric Environment
      176,pp. 179-187
      11
      7Proximity analysis of air pollution exposure and its potential riskThepanondh S., Toruksa W.2011Journal of Environmental Monitoring
      13(5),pp. 1264-1270
      9
      8Evaluation of dispersion model performance in predicting SO2 concentrations from petroleum refinery complexThepanondh S., Thepanondh S., Outapa P., Saikomol S.2016International Journal of GEOMATE
      11(1),pp. 2129-2135
      8
      9Prediction of ambient nitrogen dioxide concentrations in the vicinity of industrial complex area, ThailandTunlathorntham S., Tunlathorntham S., Thepanondh S., Thepanondh S.2017Air, Soil and Water Research
      10
      7
      10Influence of grid resolution in modeling of air pollution from open burningSirithian D., Sirithian D., Thepanondh S., Thepanondh S.2016Atmosphere
      7(7)
      7
      11Atmospheric dispersion of polycyclic aromatic hydrocarbons from open burning of agricultural residues in Chiang Rai, ThailandSirithian D., Sirithian D., Thepanondh S., Thepanondh S., Laowagul W., Morknoy D.2017Air Quality, Atmosphere and Health
      10(7),pp. 861-871
      7
      12Development of air pollutant emission factors under real-world truck driving cycleOutapa P., Outapa P., Thepanondh S., Thepanondh S., Kondo A., Pala-En N.2018International Journal of Sustainable Transportation
      12(6),pp. 432-440
      6
      13Effect of speed on emissions of air pollutants in urban environment: Case study of truck emissionsOutapa P., Outapa P., Kondo A., Thepanondh S., Thepanondh S.2016International Journal of GEOMATE
      11(1),pp. 2200-2207
      6
      14Development of air toxic emission factor and inventory of on-road mobile sourcesUtapa P., Utapa P., Thepanondh S., Thepanondh S.2014Air, Soil and Water Research
      7
      6
      15Performance evaluation of AERMOD air dispersion model in Maptaphut industrial area, ThailandJittra N., Jittra N., Thepanondh S., Thepanondh S.2015Environmental Science and Information Application Technology - Proceedings of the 2014 5th International Conference on Environmental Science and Information Application Technology, ESIAT 2014
      ,pp. 225-228
      5
      16Numerical assessment of PM2.5 and O3 air quality in continental Southeast Asia: Baseline simulation and aerosol direct effects investigationNguyen G.T.H., Nguyen G.T.H., Shimadera H., Uranishi K., Matsuo T., Kondo A., Thepanondh S.2019Atmospheric Environment
      219
      5
      17Quantitative evaluation of cleaner production and environmental policy toward the co-benefit of greenhouse gas and odor reduction: case study of Tapioca starch industryWimolrattanasil T., Wimolrattanasil T., Thepanondh S., Thepanondh S., Sattler M.L., Laowagul W.2018Clean Technologies and Environmental Policy
      20(10),pp. 2333-2343
      4
      18Assimilative capacity of air pollutants in an area of the largest petrochemical complex in ThailandThawonkaew A., Thawonkaew A., Thepanondh S., Thepanondh S., Sirithian D., Sirithian D., Jinawa L., Jinawa L.2016International Journal of GEOMATE
      11(1),pp. 2162-2169
      4
      19Emission losses and dispersion of volatile organic compounds from tank farm of petroleum refinery complexSaikomol S., Saikomol S., Thepanondh S., Thepanondh S., Laowagul W.2019Journal of Environmental Health Science and Engineering
      17(2),pp. 561-570
      4
      20A study of AERMOD tiering approach for prediction of nitrogen dioxide in Maptaphut industrial area, ThailandTunlathorntham S., Tunlathorntham S., Thepanondh S., Thepanondh S.2015Environmental Science and Information Application Technology - Proceedings of the 2014 5th International Conference on Environmental Science and Information Application Technology, ESIAT 2014
      ,pp. 229-233
      3
      21Application of The Air Pollution Model (TAPM) to the urban airshed of Bangkok, ThailandJinsart W., Sripraparkorn C., Siems S.T., Hurley P.J., Thepanondh S.2010International Journal of Environment and Pollution
      42(1-3),pp. 68-84
      3
      22Dynamic air toxic emission factor of motorcycles in Bangkok, ThailandOutapa P., Outapa P., Ruangkawsakun J., Ruangkawsakun J., Khantee W., Khantee W., Thepanondh S., Thepanondh S.2017Environmental Engineering and Management Journal
      16(12),pp. 2823-2830
      3
      23Evaluation of resuspension of road dust in a cement industial complex areaPhetrawech T., Phetrawech T., Thepanondh S., Thepanondh S.2017International Journal of GEOMATE
      12(33),pp. 96-103
      3
      24Evaluation of the effectiveness and appropriateness of Bangkok action plans on global warming mitigationsKiewchaum A., Kiewchaum A., Thepanondh S., Thepanondh S., Sirithian D., Sirithian D., Mahavong K., Mahavong K., Outapa P., Outapa P.2017International Journal of GEOMATE
      12(33),pp. 14-21
      2
      25Success of fuel quality improving policy in reducing benzene air concentrations in BangkokJinawa L., Jinawa L., Thepanondh S., Thepanondh S.2016International Journal of GEOMATE
      11(2),pp. 2341-2347
      2
      26Effect of particulate matters from shipping activities around Si Racha Bay - Si Chang IslandKhuntong S., Wongsorntam K., Thepanondh S., Khaenamkaew P.2010EnvironmentAsia
      3(2),pp. 59-68
      2
      27Analysis of industrial source contribution to ambient air concentration using AERMOD dispersion modelKhamyingkert L., Thepanondh S.2016EnvironmentAsia
      9(1),pp. 28-36
      2
      28Source apportionment analysis of volatile organic compounds using positive matrix factorization coupled with conditional bivariate probability function in the industrial areasJindamanee K., Thepanondh S., Thepanondh S., Aggapongpisit N., Sooktawee S.2020EnvironmentAsia
      13(2),pp. 31-49
      2
      29Appropriate scenarios for mercury emission control from coal-fired power plant in Thailand: emissions and ambient concentrations analysisThepanondh S., Thepanondh S., Tunlathorntham V.2020Heliyon
      6(6)
      1
      30Comparison of AERMOD performance using observed and prognostic meteorological dataMalakan W., Malakan W., Keawboonchu J., Keawboonchu J., Thepanondh S., Thepanondh S.2018EnvironmentAsia
      11(2),pp. 38-52
      1
      31Effect of the waste heat recovery system to buoyancy and momentum flux of combustion stack in the cement industryKeawboonchu J., Keawboonchu J., Malakan W., Malakan W., Thongkum W., Thepanondh S., Thepanondh S.2019Environment and Natural Resources Journal
      17(1),pp. 11-21
      0
      32Change of odor distribution due to improvement of wastewater treatment plants in a tapioca starch industryWimolrattanasil T., Wimolrattanasil T., Thepanondh S., Thepanondh S., Sattler M., Laowagul W., Pongprayoon P., Patpai A., Boonyapitak S.2019EnvironmentAsia
      12(3),pp. 43-53
      0
      33Health risk assessment of volatile organic compounds emitted from wastewater treatment plants in Tapioca industryWimolrattanasil T., Wimolrattanasil T., Thepanondh S., Thepanondh S., Sattler M., Laowagul W.2018ASM Science Journal
      11(Special Issue 2),pp. 140-148
      0
      34Modeling of volatile organic compounds dispersion from open crop residue burningSirithian D., Sirithian D., Sirithian D., Thepanondh S., Thepanondh S., Sattler M., Laowagul W.2018ASM Science Journal
      11(Special Issue 2),pp. 181-188
      0
      35Identification of potential emission source of airborne benzene in Maptaphut industrial area, ThailandSaeaw N., Saeaw N., Thepanondh S., Thepanondh S.2015Environmental Science and Information Application Technology - Proceedings of the 2014 5th International Conference on Environmental Science and Information Application Technology, ESIAT 2014
      ,pp. 21-25
      0
      36Sulphur dioxide dry deposition flux and velocity in Northern ThailandThepanondh S., Hooper M., Ayers G.2003Advances in Air Pollution
      13,pp. 255-262
      0
      37Emission factor of VOCs from non-point source: Case study of chemical laboratoryWimolrattanasil T., Thepanondh S.2014Advanced Materials Research
      931-932,pp. 660-664
      0
      38Impact of fuel switching to the level of air toxic and its potential health impact in Bangkok, ThailandThongkum W., Thongkum W., Thepanondh S., Thepanondh S.2014Advanced Materials Research
      931-932,pp. 671-675
      0
      39Emission of oxide of nitrogen from household activity in Rayong Province, ThailandKhaosang J., Thepanondh S.2014Advanced Materials Research
      931-932,pp. 655-659
      0
      40Characteristics and dispersion modeling of vocs emission released from the tank farm of petroleum refinery complexSaikomol S., Thepanondh S., Thepanondh S., Laowagul W., Malakan W., Keawboonchu J., Kultan V.2021EnvironmentAsia
      14(1),pp. 1-12
      0
      41Morphological and physico-chemical characterization of fruit of Melicoccus bijugatus Jacq.LÓPEZ J.C.C., SACHDEV H., THEPANONDH S., HERRERA Y.A.Q.2021Bangladesh Journal of Botany
      50(2),pp. 387-394
      0
      42EXTENT AND MAGNITUDE OF INDUSTRIAL STACK EMISSIONS ON AMBIENT PARTICULATE CONCENTRATIONSHanma P., Thepanondh S., Thepanondh S., Chompunth C., Kwonpongsagoon S., Kwonpongsagoon S., Panya L., Sukjit N.2021International Journal of GEOMATE
      21(84),pp. 202-209
      0