ประสิทธิภาพของแบบจำลองอุทกวิทยา SWAT ในการจำลองปริมาณน้ำท่าของลุ่มน้ำวัง

[1] B. Kwanyuen, “Comparative study of rainfall change in the north of Thailand,” in Proceedings the International Conference: The Chao Phraya Delta: Historical Development, Dynamics and Challenges of Thailand’S Rice Bowl, Kasetsart University, Bangkok, 2000, pp. 369–377.

[2] R. Srinivasan, T. S. Ramanarayanan, J. G. Arnold, and S. T. Bednarz, “Large areahydrologic modeling and assessment: Part II,” Journal of the American Water Resources Association, vol. 34 no. 1, pp. 91–101, 2007.

[3] Bureau of Large Scale Water Resources Development, Royal Irrigation Department. (2012, September). Wang River Basins [Online]. Available: web.rid.go.th/lproject/const/water25/25river/07wang.ppt (in Thai).

[4] Hydro and Agro Informatics Institute. (2012, February). Data collection and analysis data project of 25 basins and flood drought model, Wang River Basins [Online]. Available: http://www.thaiwater.net/web/attachments/25basins/07-wong.pdf (in Thai).

[5] W. Wangpimool. (2009, May). Operation manual on SWAT model applications (2nd ed.) [Online]. Available: http://www.tnmckc.org/upload/document/IKMP/5.Component4/1.DSF/SWAT_Manual_Thai_V2-2009.pdf (in Thai).

[6] B. Khantisidhi and O. Vonnarart. (2014, July 30). ARC SWAT 2012 UserGuide [Online]. Available: https://www.dropbox.com/s/yhfyjwgjnpgp9rq/ SWAT_UserGuide_Thai.pdf?dl=0 (in Thai).

[7] C. Santhi, J. G. Arnold, J. R. Williams, W. A. Dugas, R. Srinivasan, and L. M. Hauck, “Validation of the SWAT model on a Large River Basin with point and nonpoint,” Journal of the American Water Resources Association, vol. 37 no. 5, pp. 1169–1188, 2001.

[8] B. Buranet, “The effect of climate change and land use change on catchment hydrology in Huai Kraseaw Basin,” M.S. thesis, Department of Civil Engineering, Faculty of Engineering King Mongkut’s University of Technology Thonburi, 2009 (in Thai).

[9] O. Vesurai, “The impacts of land use changes on runoff in the upper Nan Basin using SWAT hydrologic model,” M.S. thesis, Department of Water Resources Engineering, Faculty of Engineering Chulalongkorn University, 2005 (in Thai).

[10] M. Jain and S. Sharma. Hydrological modeling of Vamsadhara River Basin, India using SWAT. presented at International Conference on Emerging Trends in Computer and Image Processing Dec. 15–16, 2014 Pattaya (Thailand) [Online]. Available: http://psrcentre.org/images/extraimages/21%201214056.pdf

[11] P. Wuttichaikitcharoen and C. Saratun. Runoff estimation in Mae Chaem basin using SWAT. presented at the 5th National Convention on Water Resources Engineering [Online]. Available: https://www.researchgate.net/profile/Piyawat_Wuttichaikitcharoen/publication/2 6 2 4 8 4 2 5 5 _ R u n o f f _ E s t i m a t i o n _ i n _Mae_Chaem_Basin_using_SWAT_in_Thai/links/0046353bebe692d42a000000/Runoff- Estimation-in-Mae-Chaem-Basin-using-SWATin-Thai.pdf

[12] P. Phomcha, “Suitability of SWAT model for simulating of monthly streamflow in Lam Sonthi watershed,” Journal of Industrial Technology, vol. 7, no. 2, pp. 49–56, 2011.

[13] S. Sophonphattanakul, “Changes in hydrometeorologic condition and land use and their impacts on reservoir projects in the upper Ping River basin,” M.S. thesis, Department of Civil Engineering, Faculty of Engineering King Mongkut’s University of Technology Thonburi, 2008 (in Thai).

[14] S. Intaruksa, “The application of geo-informatics for studying runoff quantity using hydrologic model (SWAT) case study of Maejang basin, Lampang Province,” M.S. thesis, Department of Geoinformatics, Faculty of Geoinformatics Burapha University, 2012 (in Thai).