# | Document title | Authors | Year | Source | Cited by |
1 | Evaluation of dispersion model performance in predicting SO2 concentrations from petroleum refinery complex | Thepanondh S., Thepanondh S., Outapa P., Saikomol S. | 2016 | International Journal of GEOMATE 11(1),pp. 2129-2135 | 8 |
2 | Source contribution of 1,3 butadiene in the vicinity of petrochemical industrial area | Sukjit N., Thepanondh S., Thepanondh S., Kwonpongsagoon S., Kwonpongsagoon S., Jinsart W., Punya L., Hanma P. | 2021 | Applied Environmental Research 43(4),pp. 29-38 | 0 |
3 | Source Identification of VOCs and their Environmental Health Risk in a Petrochemical Industrial Area | Pinthong N., Thepanondh S., Thepanondh S., Kondo A. | 2022 | Aerosol and Air Quality Research 22(2) | 2 |
4 | Evaluation of the effectiveness and appropriateness of Bangkok action plans on global warming mitigations | Kiewchaum A., Kiewchaum A., Thepanondh S., Thepanondh S., Sirithian D., Sirithian D., Mahavong K., Mahavong K., Outapa P., Outapa P. | 2017 | International Journal of GEOMATE 12(33),pp. 14-21 | 2 |
5 | NO2 and SO2dispersion modeling and relative roles of emission sources over Map Ta Phut industrial area, Thailand | Chusai C., Chusai C., Manomaiphiboon K., Manomaiphiboon K., Saiyasitpanich P., Thepanondh S. | 2012 | Journal of the Air and Waste Management Association 62(8),pp. 932-945 | 24 |
6 | Characteristics and dispersion modeling of vocs emission released from the tank farm of petroleum refinery complex | Saikomol S., Thepanondh S., Thepanondh S., Laowagul W., Malakan W., Keawboonchu J., Kultan V. | 2021 | EnvironmentAsia 14(1),pp. 1-12 | 0 |
7 | Comparison of AERMOD performance using observed and prognostic meteorological data | Malakan W., Malakan W., Keawboonchu J., Keawboonchu J., Thepanondh S., Thepanondh S. | 2018 | EnvironmentAsia 11(2),pp. 38-52 | 1 |
8 | Development of air pollutant emission factors under real-world truck driving cycle | Outapa P., Outapa P., Thepanondh S., Thepanondh S., Kondo A., Pala-En N. | 2018 | International Journal of Sustainable Transportation 12(6),pp. 432-440 | 6 |
9 | Change of odor distribution due to improvement of wastewater treatment plants in a tapioca starch industry | Wimolrattanasil T., Wimolrattanasil T., Thepanondh S., Thepanondh S., Sattler M., Laowagul W., Pongprayoon P., Patpai A., Boonyapitak S. | 2019 | EnvironmentAsia 12(3),pp. 43-53 | 0 |
10 | Prediction of ambient nitrogen dioxide concentrations in the vicinity of industrial complex area, Thailand | Tunlathorntham S., Tunlathorntham S., Thepanondh S., Thepanondh S. | 2017 | Air, Soil and Water Research 10 | 7 |
11 | Characteristics and Impact of VOCs on Ozone Formation Potential in a Petrochemical Industrial Area, Thailand | Pinthong N., Pinthong N., Thepanondh S., Thepanondh S., Kultan V., Kultan V., Keawboonchu J., Keawboonchu J. | 2022 | Atmosphere 13(5) | 0 |
12 | Source apportionment analysis of airborne VOCs using positive matrix factorization in industrial and urban areas in Thailand | Saeaw N., Saeaw N., Thepanondh S., Thepanondh S. | 2015 | Atmospheric Pollution Research 6(4),pp. 644-650 | 39 |
13 | Modeling of volatile organic compounds dispersion from open crop residue burning | Sirithian D., Sirithian D., Sirithian D., Thepanondh S., Thepanondh S., Sattler M., Laowagul W. | 2018 | ASM Science Journal 11(Special Issue 2),pp. 181-188 | 0 |
14 | Performance evaluation of AERMOD air dispersion model in Maptaphut industrial area, Thailand | Jittra N., Jittra N., Thepanondh S., Thepanondh S. | 2015 | Environmental 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 |
15 | Evaluation of resuspension of road dust in a cement industial complex area | Phetrawech T., Phetrawech T., Thepanondh S., Thepanondh S. | 2017 | International Journal of GEOMATE 12(33),pp. 96-103 | 3 |
16 | Atmospheric dispersion of polycyclic aromatic hydrocarbons from open burning of agricultural residues in Chiang Rai, Thailand | Sirithian D., Sirithian D., Thepanondh S., Thepanondh S., Laowagul W., Morknoy D. | 2017 | Air Quality, Atmosphere and Health 10(7),pp. 861-871 | 8 |
17 | Social restriction effects on air pollution: How the PM2.5 concentration changed with lockdown management of COVID-19 pandemic control in Bangkok Thailand | Htwe T.T.H., Htwe T.T.H., Thepanondh S., Thepanondh S., Kwonpongsagoon S., Kwonpongsagoon S., Chompunth C., Jindamanee K. | 2021 | EnvironmentAsia 14(3),pp. 80-90 | 0 |
18 | Proximity analysis of air pollution exposure and its potential risk | Thepanondh S., Toruksa W. | 2011 | Journal of Environmental Monitoring 13(5),pp. 1264-1270 | 10 |
19 | Emission of oxide of nitrogen from household activity in Rayong Province, Thailand | Khaosang J., Thepanondh S. | 2014 | Advanced Materials Research 931-932,pp. 655-659 | 0 |
20 | Analysis of industrial source contribution to ambient air concentration using AERMOD dispersion model | Khamyingkert L., Thepanondh S. | 2016 | EnvironmentAsia 9(1),pp. 28-36 | 4 |
21 | Dynamic air toxic emission factor of motorcycles in Bangkok, Thailand | Outapa P., Outapa P., Ruangkawsakun J., Ruangkawsakun J., Khantee W., Khantee W., Thepanondh S., Thepanondh S. | 2017 | Environmental Engineering and Management Journal 16(12),pp. 2823-2830 | 3 |
22 | Numerical assessment of PM2.5 and O3 air quality in continental Southeast Asia: Baseline simulation and aerosol direct effects investigation | Nguyen G.T.H., Nguyen G.T.H., Shimadera H., Uranishi K., Matsuo T., Kondo A., Thepanondh S. | 2019 | Atmospheric Environment 219 | 10 |
23 | Identification of potential emission source of airborne benzene in Maptaphut industrial area, Thailand | Saeaw N., Saeaw N., Thepanondh S., Thepanondh S. | 2015 | Environmental 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 |
24 | Roadside particulate air pollution in Bangkok | Jinsart W., Tamura K., Loetkamonwit S., Thepanondh S., Karita K., Yano E. | 2002 | Journal of the Air and Waste Management Association 52(9),pp. 1102-1110 | 47 |
25 | Health risk assessment of volatile organic compounds emitted from wastewater treatment plants in Tapioca industry | Wimolrattanasil T., Wimolrattanasil T., Thepanondh S., Thepanondh S., Sattler M., Laowagul W. | 2018 | ASM Science Journal 11(Special Issue 2),pp. 140-148 | 0 |
26 | Airborne volatile organic compounds and their potential health impact on the vicinity of petrochemical industrial complex | Thepanondh S., Varoonphan J., Sarutichart P., Makkasap T. | 2011 | Water, Air, and Soil Pollution 214(1-4),pp. 83-92 | 51 |
27 | Effect of the waste heat recovery system to buoyancy and momentum flux of combustion stack in the cement industry | Keawboonchu J., Keawboonchu J., Malakan W., Malakan W., Thongkum W., Thepanondh S., Thepanondh S. | 2019 | Environment and Natural Resources Journal 17(1),pp. 11-21 | 0 |
28 | Application of The Air Pollution Model (TAPM) to the urban airshed of Bangkok, Thailand | Jinsart W., Sripraparkorn C., Siems S.T., Hurley P.J., Thepanondh S. | 2010 | International Journal of Environment and Pollution 42(1-3),pp. 68-84 | 4 |
29 | Effect of particulate matters from shipping activities around Si Racha Bay - Si Chang Island | Khuntong S., Wongsorntam K., Thepanondh S., Khaenamkaew P. | 2010 | EnvironmentAsia 3(2),pp. 59-68 | 2 |
30 | Performance evaluation of AERMOD and CALPUFF air dispersion models in industrial complex area | Jittra N., Jittra N., Pinthong N., Pinthong N., Thepanondh S., Thepanondh S. | 2015 | Air, Soil and Water Research 8,pp. 87-95 | 17 |
31 | Morphological and physico-chemical characterization of fruit of Melicoccus bijugatus Jacq. | LÓPEZ J.C.C., SACHDEV H., THEPANONDH S., HERRERA Y.A.Q. | 2021 | Bangladesh Journal of Botany 50(2),pp. 387-394 | 0 |
32 | Influence of grid resolution in modeling of air pollution from open burning | Sirithian D., Sirithian D., Thepanondh S., Thepanondh S. | 2016 | Atmosphere 7(7) | 10 |
33 | Impact of fuel switching to the level of air toxic and its potential health impact in Bangkok, Thailand | Thongkum W., Thongkum W., Thepanondh S., Thepanondh S. | 2014 | Advanced Materials Research 931-932,pp. 671-675 | 0 |
34 | EXTENT AND MAGNITUDE OF INDUSTRIAL STACK EMISSIONS ON AMBIENT PARTICULATE CONCENTRATIONS | Hanma P., Thepanondh S., Thepanondh S., Chompunth C., Kwonpongsagoon S., Kwonpongsagoon S., Panya L., Sukjit N. | 2021 | International Journal of GEOMATE 21(84),pp. 202-209 | 1 |
35 | Assimilative capacity of air pollutants in an area of the largest petrochemical complex in Thailand | Thawonkaew A., Thawonkaew A., Thepanondh S., Thepanondh S., Sirithian D., Sirithian D., Jinawa L., Jinawa L. | 2016 | International Journal of GEOMATE 11(1),pp. 2162-2169 | 5 |
36 | Development of air toxic emission factor and inventory of on-road mobile sources | Utapa P., Utapa P., Thepanondh S., Thepanondh S. | 2014 | Air, Soil and Water Research 7 | 7 |
37 | Formation potentiality and source apportionment analysis of secondary organic aerosol in urban and suburban area, Thailand | Punya L., Thepanondh S., Thepanondh S., Kwonpongsagoon S., Kwonpongsagoon S., Laowagul W., Sukjit N., Hanma P. | 2022 | Songklanakarin Journal of Science and Technology 44(1),pp. 191-200 | 0 |
38 | Effect of speed on emissions of air pollutants in urban environment: Case study of truck emissions | Outapa P., Outapa P., Kondo A., Thepanondh S., Thepanondh S. | 2016 | International Journal of GEOMATE 11(1),pp. 2200-2207 | 6 |
39 | Formation potential and source contribution of secondary organic aerosol from volatile organic compounds | Jookjantra P., Thepanondh S., Thepanondh S., Keawboonchu J., Kultan V., Laowagul W. | 2022 | Journal of Environmental Quality
| 0 |
40 | Appropriate scenarios for mercury emission control from coal-fired power plant in Thailand: emissions and ambient concentrations analysis | Thepanondh S., Thepanondh S., Tunlathorntham V. | 2020 | Heliyon 6(6) | 2 |
41 | Quantitative evaluation of cleaner production and environmental policy toward the co-benefit of greenhouse gas and odor reduction: case study of Tapioca starch industry | Wimolrattanasil T., Wimolrattanasil T., Thepanondh S., Thepanondh S., Sattler M.L., Laowagul W. | 2018 | Clean Technologies and Environmental Policy 20(10),pp. 2333-2343 | 5 |
42 | Emissions of volatile organic compounds from maize residue open burning in the northern region of Thailand | Sirithian D., Sirithian D., Thepanondh S., Thepanondh S., Sattler M., Laowagul W. | 2018 | Atmospheric Environment 176,pp. 179-187 | 15 |
43 | Sulphur dioxide dry deposition flux and velocity in Northern Thailand | Thepanondh S., Hooper M., Ayers G. | 2003 | Advances in Air Pollution 13,pp. 255-262 | 0 |
44 | Success of fuel quality improving policy in reducing benzene air concentrations in Bangkok | Jinawa L., Jinawa L., Thepanondh S., Thepanondh S. | 2016 | International Journal of GEOMATE 11(2),pp. 2341-2347 | 2 |
45 | A study of AERMOD tiering approach for prediction of nitrogen dioxide in Maptaphut industrial area, Thailand | Tunlathorntham S., Tunlathorntham S., Thepanondh S., Thepanondh S. | 2015 | Environmental 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 |
46 | Emission losses and dispersion of volatile organic compounds from tank farm of petroleum refinery complex | Saikomol S., Saikomol S., Thepanondh S., Thepanondh S., Laowagul W. | 2019 | Journal of Environmental Health Science and Engineering 17(2),pp. 561-570 | 11 |
47 | Emission factor of VOCs from non-point source: Case study of chemical laboratory | Wimolrattanasil T., Thepanondh S. | 2014 | Advanced Materials Research 931-932,pp. 660-664 | 0 |
48 | Source apportionment analysis of volatile organic compounds using positive matrix factorization coupled with conditional bivariate probability function in the industrial areas | Jindamanee K., Thepanondh S., Thepanondh S., Aggapongpisit N., Sooktawee S. | 2020 | EnvironmentAsia 13(2),pp. 31-49 | 8 |
49 | Sustainability and economic feasibility through the production of oyster mushroom (Pleurotus ostreatus (jacq.) p. kumm.) derived from the waste of coffee-industry: A case study in the western area of san salvador, el salvador | Lopez J.C.C., Thepanondh S., Sachdev H., Avelar A.M.P., Leon M.C.D.C. | 2021 | Polish Journal of Environmental Studies 30(6),pp. 5617-5628 | 0 |