หลักสูตรลาดกระบัง

223

• Srirattanarak, S. and Pongpeng, J. (2009) “Factors influencing success of housing projects:
a view from owners” Proceedings of the 14th National Convention on Civil Engineering (CD-
ROM), Engineering Institute of Thailand, Nakhon Ratchasima, Thailand.

• Priwan, P. and Pongpeng, J. (2009) “A framework for quality systems implementation in
construction industry: a view from contractors” Proceedings of the 14th National Convention
on Civil Engineering (CD-ROM), Engineering Institute of Thailand, Nakhon Ratchasima,
Thailand.

• Temtawong, S. and Pongpeng, J. (2009) “Factors influencing accidents in building projects”
Proceedings of the 14th National Convention on Civil Engineering (CD-ROM), Engineering
Institute of Thailand, Nakhon Ratchasima, Thailand.

• Duangpim, S. and Pongpeng, J. (2009) “Factors for evaluating construction-project delivery
systems” Proceedings of the 14th National Convention on Civil Engineering (CD-ROM),
Engineering Institute of Thailand, Nakhon Ratchasima, Thailand.

• Potephosee, V., Srisuakam, U. and Pongpeng, J. (2008) “Implementation of electronic
government procurement for construction projects: problems and suggestions” Proceedings
of the 13th National Convention on Civil Engineering (CD-ROM), Engineering Institute of
Thailand, Chonburi, Thailand.

• Pusamlee, R. and Pongpeng, J. (2008) “Evaluating ethics of contractors: a view from
owners” Proceedings of the 13th National Convention on Civil Engineering (CD-ROM),
Engineering Institute of Thailand, Chonburi, Thailand.

• Wongjuk, P. and Pongpeng, J. (2008) “A model for evaluating construction-project delivery
systems” Proceedings of the 13th National Convention on Civil Engineering (CD-ROM),
Engineering Institute of Thailand, Chonburi, Thailand.

• Montopyai, N. and Pongpeng, J. (2008) “Factors for evaluating success of managing building-
construction projects: a view from contractors” Proceedings of the 2nd Technology and
Innovation for Sustainable Development Conference (CD-ROM), Khon Kaen University, Khon
Kaen, Thailand.

• Srisuakam, U. and Pongpeng, J. (2007) “Virtue and ethics of officials in government
procurement of construction projects: a broad viewpoint” Proceedings of the 12th National
Convention on Civil Engineering (CD-ROM), Engineering Institute of Thailand, Phitsanulok,
Thailand.

• Chainarong, P. and Pongpeng, J. (2007) “Factors for evaluating main contractor ability: a
view from subcontractors” Proceedings of the 12th National Convention on Civil Engineering
(CD-ROM), Engineering Institute of Thailand, Phitsanulok, Thailand.

• Sermsilp, V. and Pongpeng, J. (2007) “Factors for construction-project selection: a view
from contractors” Proceedings of the 12th National Convention on Civil Engineering (CD-
ROM), Engineering Institute of Thailand, Phitsanulok, Thailand.

วศ.ด.(วิศวกรรมโยธา) ภาควชิ าวศิ วกรรมโยธา คณะวศิ วกรรมศาสตร สจล.

224

• Panmeeros, T. and Pongpeng, J. (2007) “A model for evaluating building designers by
owners” Proceedings of the 12th National Convention on Civil Engineering (CD-ROM),
Engineering Institute of Thailand, Phitsanulok, Thailand.

• Kaewpradub, S. and Pongpeng, J. (2007) “Barriers to e-procurement implementation in
construction industry: a view from the government sector” Proceedings of the 12th National
Convention on Civil Engineering (CD-ROM), Engineering Institute of Thailand, Phitsanulok,
Thailand.

• Pongpeng, J. and Laungbongkot, P. (2006) “A survey of multicriteria models for
construction-project selection by contractors: necessary capabilities of future models”,
Proceedings of the 11th National Convention on Civil Engineering (CD-ROM), Engineering
Institute of Thailand, Phuket, Thailand.

• Laungbongkot, P. and Pongpeng, J. (2006) “A model for making a decision on construction-
project selection: a view from contractors”, Proceedings of the 11th National Convention on
Civil Engineering (CD-ROM), Engineering Institute of Thailand, Phuket, Thailand.

• Pongpeng, J. (2006) “A common set of factors for evaluating contractor ability: a case study
between Thai and Queensland construction industries”, Proceedings of the 11th National
Convention on Civil Engineering (CD-ROM), Engineering Institute of Thailand, Phuket,
Thailand.

• Sajjarungruang, C. and Pongpeng, J. (2005) “Factors influencing the evaluation of building-
designer ability: an owner view’s point”, Proceedings of the 10th National Convention on
Civil Engineering, Engineering Institute of Thailand, Chonburi, Thailand, CEM-67 – CEM-72.

• Pongpeng, J. (2005) “Application of a computer program in the selection of a contractor:
cases study”, Proceedings of the 10th National Convention on Civil Engineering, Engineering
Institute of Thailand, Chonburi, Thailand, CEM-73 – CEM-78.

• Srisuakam, U. and Pongpeng, J. (2003) “A modification of the PMO’s regulation on
procurement B.E. 2535 to support e-Procurement”, Proceedings of Engineering Innovation
for sustainable resources management, Khon Kaen University, Khon Kaen, Thailand.

• Pongpeng, J. (2003) “Evaluating Contractor ability: a view from the Queensland
construction industry”, Ladkrabang Engineering Journal, 22(3): 72-77.

• Pongpeng, J. (2002) “A survey of concepts and models related to contractor selection: a
direction of model development”, Proceedings of the 9th National Convention on Civil
Engineering, Engineering Institute of Thailand, Petchaburi, Thailand, CEM-12 – CEM-17.

• Pongpeng, J. (2002) “Criteria for evaluating contractor ability: incorporating physical
characteristic of contractors”, Proceedings of the 8th National Convention on Civil
Engineering, Engineering Institute of Thailand, Khon Kaen, Thailand, CEM-83 – CEM-88.

วศ.ด.(วิศวกรรมโยธา) ภาควิชาวศิ วกรรมโยธา คณะวิศวกรรมศาสตร สจล.

225

• Pongpeng, J. and Liston, J. (2001) “Multicriteria in tender evaluation: Thai construction
industry,” Proc. Conf. on Real Research in Civil Engineering, QUT, pp.20-
49.

วศ.ด.(วิศวกรรมโยธา) ภาควชิ าวศิ วกรรมโยธา คณะวิศวกรรมศาสตร สจล.

226

2. ศ.ดร.สุชชั วรี D สุวรรณสวัสดิ์
• Suwansawat S., “Determining Settlement Troughs over Twin Tunnels using a

Superposition Technique”. Journal of Geotechnical and Geoenviromental Engineering,
ASCE, April 2007, pp. 445-468.
• Suwansawat S., “Lining Response of Twin Tunnels affected by EPB Shield Operation”.
Proc. the 33th World Tunnel Congress, Prague, Czech Republic, May 2007, pp. 1261-
1266.
• Suwansawat S., “Longitudinal Surface Settlements induced by EPB Tunneling in Bangkok
Clay”. Proc. the 33th World Tunnel Congress, Prague, Czech Republic, May 2007, pp.
921-926.
• Suwansawat S., "A tool for rock tunnel design by convergence-confinement method”.
Proc. of the ISRM International Symposium: 4th Asian Rock Mechanics Symposium,
Singapore, 2006.
• Suwansawat S., “Artificial Neural Networks for Predicting the Maximum Surface
Settlement Caused by EPB Shield Tunneling”. Tunneling and Underground Space
Technology, Vol. 21, No. 2, March 2006.
• Suwansawat S., “Using artificial neural networks for predicting surface settlements over
twin tunnels”. Proc. International Symposium on Underground Excavation and
Tunneling, 2006, pp. 309-318.
• Suwansawat S., “Superposition technique for mapping surface settlement troughs over
twin tunnels”. Proc. International Symposium on Underground Excavation and
Tunneling, 2006, pp. 341-352.
• Suwansawat S., “Longitudinal surface settlements affected by EPB shield tunneling in
soft ground”. Proc. International Symposium on Underground Excavation and Tunneling,
2006, pp. 353-362.
• Suwansawat S., “Geotechnical experience in the design and construction of the first
Bangkok MRT subway line”. Journal of Engineering Geology, Geomechanics and
Tunneling, 2/2005, pp. 18-24.
• Suwansawat S., “Design Aspects of the Bangkok Blue Line Extension”. Proc. the 31th
World Tunnel Congress, Istanbul, Turkey, May 2005.
• Suwansawat S., “Construction Planning of the Second Phase Subway System to the
Southern Bangkok”. Proc. the 22nd Conference of Asean Federation of Engineering
Organizations (CAFEO), Myanmar, December 2004.
• Suwansawat S., “Influences of Tail Void Grouting on Lateral Ground Deformations
Conducted with Shield Tunneling”. Proc. the 15th Southeast Asia Geotechnical
Conference, Bangkok, November 2004.

วศ.ด.(วศิ วกรรมโยธา) ภาควิชาวศิ วกรรมโยธา คณะวศิ วกรรมศาสตร สจล.

227

• Suwansawat S., “Applying Neural Networks for Concrete Strength Prediction in the
Construction of Suvarnabhumi Airport”. Proc. The 1st KMITL International Conference
Integration of Science and Technology for Sustainable Development, Bangkok, August
2004.

• Suwansawat S., “Design of Optimum ANN for Forecasting Ground Deformations Caused
by Shield Tunneling”. The 1st KMITL International Conference Integration of Science and
Technology for Sustainable Development, Bangkok, August 2004.

• Suwansawat S., “Development of Calibration Cell for Time Domain Reflectometry
Technique for Water Content Measurement”. The 1st KMITL International Conference
Integration of Science and Technology for Sustainable Development, Bangkok, August
2004.

• Suwansawat S., “Shield Tunneling Database Management for Ground Movement
Evaluation”. Proc. the 30th World Tunnel Congress, Singapore, May 2004.

• Suwansawat S., “The M.R.T. Chaloem Ratchamongkhon Line: A Road to Success of the
First Subway Project in Bangkok”. Proc. the 21st Conference of Asean Federation of
Engineering Organizations (CAFEO), Indonesia, October 2003.

• Suwansawat S., “The Challenging Subway Project in Bangkok: New Hope of Thais in
Solving Traffic problem”. Keynote Lecture, Proc. the 8th Conference of the Association
for Computer Aided Architectural Design Research in Asia, Bangkok, May 2003.

• Suwansawat S., “Prediction of Surface Settlements Induced by EPB Tunneling in Bangkok
Using ANN”. Proc. the 4th Regional Symposium on Infrastructure Development in Civil
Eng., Bangkok, April 2003, pp. 645-654.

• Suwansawat S., “3-D Deformation Analysis of Earth Pressure Balance Shield Tunnelling in
Bangkok Subsoil”. Geotechnical Engineering Journal, Vol. 33, No. 1, pp. 13-28.

• Suwansawat S., “Tunneling for the Chaloem Ratchamongkon Line in Bangkok”. Proc.
2001 of Rapid Excavation and Tunneling Conference (RETC), Society for Mining,
Metallurgy, and Exploration, Littleton, Colorado, pp. 113-129.

• Suwansawat S., “Bangkok MRTA: Chaloem Ratchamongkon Line”. Tunnel & Tunneling
International, November 1999, pp. 19-22.

• Suwansawat S., “Cell size for water content dielectric constant calibrations for time
domain reflectometry”. Geotechnical Testing Journal, ASTM, 22(1), March 1999, pp. 3-12.

• Heama N, Jongpradist P, Suwansawat S, and Lueprasert P.,” TUNNEL LINING RESPONSES
DUE TO ADJACENT LOADED PILE – NUMERICAL INVESTIGATION”, 6th International
Conference on GEOMATE, 2016, pp. 117-122.

• Lueprasert P, Jongpradist P, Heama N, Ruengwirojjanakul K and Suwansawat S.,” 3D-FEA
OF EPB SHIELD TUNNEL EXCAVATION USING SHELL ELEMENT AND GROUTING LAYER”, 6th
International Conference on GEOMATE, 2016, pp. 92-97

วศ.ด.(วศิ วกรรมโยธา) ภาควชิ าวศิ วกรรมโยธา คณะวิศวกรรมศาสตร สจล.

228

• Kwanlikit N, Lueprasert P, Jongpradist P and Suwansawat S., “3-D Finite Element Analysis
for behavior of existing tunnel”, The 21 st National Convention on Civil Engineering,
2016, pp. 1253-1259.

• Ruengwirojjanakul K, Jongpradist P, Lueprasert P and Suwansawat S., “Impact of adjacent
pile under loading on existing tunnels”, The 21 st National Convention on Civil
Engineering, 2016, pp. 1273-1279.

• Lueprasert P, Jongpradist P, Charoenpak K, Chaipanna P and Suwansawat S., “Three-
dimensional finite element analysis for preliminary establishment of tunnel influence
zone subject to pile loading”, Maejo International Journal of Science and Technology,
2015, pp. 209-223.

• Heama N, Suwansawat S, Lueprasert P and Jongpradist P., “Study of lining behavior
affected by adjacent loading pile in MRTA Blue Line Project”, The 20th National
Convention on Civil Engineering, 2015.

• Likitlersuang S., Surarak C., Suwansawat S., Wanatowski D., Oh E. and Balasubramaniam
A.S., “Simplified finite-element modelling for tunnelling-induced settlements”,
Geotechnical Research, 2014, pp. 133-152.

• Tumthieng, W. and Suwansawat, S., “Application of ANN on Settlement Analysis by FEM
due to Tunneling in Bangkok Subsoil”, The 18th National Convention on Civil
Engineering, 2013.

• Malaisree P. and Suwansawat S., “Sample of risk assessment during The Bangkok MRTA
Blue Line Extension indesign phase”, The 17th National Convention on Civil Engineering,
2012.

• Malaisree P. and Suwansawat S., “The Plan for the Bangkok MRTA Blue Line Extension
Project”, The 17th National Convention on Civil Engineering, 2012.

• Lueprasert P., Jongpradist P. and Suwansawat S., “APPLYING 2D FOR 3D FINITE ELEMENT
ANALYSIS IN THE BANGKOK MRT BLUE LINE SOUTH EXTENSION PROJECT”, Proc.The 36th
World Tunnel Congress 2010, 2011.

• Malaisree P. and Suwansawat S., “Process of Risk Management Plan (RMP) for The
Bangkok MRT Blue Line Extension Project”, International Conference & Exhibition on
Tunnelling and Trenchless Technology, 2011.

• Malaisree P. and Suwansawat S., “Risk management during The Bangkok MRTA Blue Line
Extension Design Phase”, The 1st and the 9th Iranian Tunnelling Symposium 2011, 2011.

• Lueprasert, P., Jongpradist P. and Suwansawat S., “Excavation Scenario Analysis for
NATM Tunnel in Bangkok Subsoil”, Proc.The 36th World Tunnel Congress 2010, Vol. 1,
2010.

• Chaiwonglek C. and Suwansawat S., “Analysis of shield’s mechanism inducing ground
deformations”, Proc.The 36th World Tunnel Congress 2010, Vol. 1, 2010.

วศ.ด.(วศิ วกรรมโยธา) ภาควิชาวศิ วกรรมโยธา คณะวิศวกรรมศาสตร สจล.

229

• Sunthornjak S., Suwansawat S. and Kongsomboon T., “Predicting ground deformations
induced by shield tunneling using correlation coefficient – ANN technique”, Proc.The
36th World Tunnel Congress 2010, Vol. 1, 2010.

• Srijunthong P., Suwansawat S. and Prayongphan S., “Instrumentation and monitoring
system of Bangkok Blue Line South Extension Subway Project”, Proc.The 36th World
Tunnel Congress 2010, Vol. 1, 2010.

• Malaisree P., Suwansawat S. and Aye Z. Z., “Risk control for the Bangkok MRTA Blue Line
Extension Project”, Proc.The 36th World Tunnel Congress 2010, Vol. 1, 2010.

• Lueprasert P., Suwansawat S., and Jongpradist P., “Excavation patterns analysis of NATM
by 3D-Finite Element in Bangkok MRT Blue Line South Extension Project”, The 15th
National Convention on Civil Engineering, 2010.

• Chaiwonglek C. and Suwansawat S., “NATM Station in BANGKOK MRT BLUE LINE SOUTH
EXTENSION”, The 14th National Convention on Civil Engineering, 2009.

• Lueprasert P., Jongpradist P. and Suwansawat S., “3-D FEA OF NATM EXCAVATION FOR
BANGKOK MRT BLUE LINE SOUTH EXTENSION”, Proc.The 35th World Tunnel Congress
2009, Vol. 1, 2009.

• Srijunthong P. and Suwansawat S., “A Study of Shield Operational Factors on Surface
Settlements using ANN”, Proc.The 35th World Tunnel Congress 2009, Vol. 1, 2009.

• Chotidilok P. and Suwansawat S., “Ground improvement design and technique for
supporting the construction of Bangkok Blue Line South Extension Subway”, Proc.The
35th World Tunnel Congress 2009, Vol. 1, 2009.

• Nakthong S. and Suwansawat S., “DESIGN AND APPRAISAL OF TWIN TUNNELS FOR
BANGKOK MRTA EXTENSION PROJECT”, Proc.The 35th World Tunnel Congress 2009, Vol.
1, 2009.

• Sunthornjak S. and Suwansawat S., “Optimized Ground Movement Variables Using Field
and Shield Operational Parameters Correlation”, Proc.The 35th World Tunnel Congress
2009, Vol. 1, 2009.

• Chaiwonglek C. and Suwansawat S., “SHIELD’S THREE-ZONES MECHANISM APPROACH
FOR PREDICTING GROUND DEFORMATIONS”, Proc.The 35th World Tunnel Congress 2009,
Vol. 1, 2009.

• Lueprasert P., Jongpradist P. and Suwansawat S., “3-D FEA OF NATM EXCAVATION FOR
BANGKOK MRT BLUE LINE SOUTH EXTENSION”, The 14th National Convention on Civil
Engineering, 2009.

• Srijunthong P. and Suwansawat S., “A Study of Shield Operational Factors on Surface
Settlements using ANN”, The 14th National Convention on Civil Engineering, 2009.

วศ.ด.(วิศวกรรมโยธา) ภาควิชาวศิ วกรรมโยธา คณะวิศวกรรมศาสตร สจล.

230

• Nakthong S. and Suwansawat S., “DESIGN AND APPRAISAL OF TWIN TUNNELS FOR
BANGKOK MRTA EXTENSION PROJECT”, The 14th National Convention on Civil
Engineering, 2009.

• Sunthornjak S. and Suwansawat S., “Optimized Ground Movement Variables Using Field
and Shield Operational Parameters Correlation”, The 14th National Convention on Civil
Engineering, 2009.

• Chaiwonglek C. and Suwansawat S., “DESIGN CRITERIA OF NATM AND CUT AND COVER
UNDERGROUND STATIONFOR THE BANGKOK MRTA BLUE LINE EXTENSION”, The 13th
National Convention on Civil Engineering, 2008.

• Srijunthong P., HovanotayanS. and Suwansawat S., “GEOTECHNICAL MONITORING FOR
BANGKOK UNDERGROUND BLUE LINE EXTENSION”, The 13th National Convention on
Civil Engineering, 2008.

• Nakthong S. and Suwansawat S., “DESIGN AND ANALYSIS OF SUBWAY TUNNEL LINING
FOR BANGKOK BLUE LINE EXTENSION”, The 13th National Convention on Civil
Engineering, 2008.

• Suwansawat S., Chanchaya C. and Wattanakityingyong C., “BEHAVIOR ANALYSIS OF
TUNNELING SHIELD PART 1: DIRECTIONAL CONTROL”, The 13th National Convention on
Civil Engineering, 2008.

• Chotidilok P., Hovanotayan S. and Suwansawat S., “DESIGN OF GROUND IMPROVEMENT
TECHNIQUES FOR THE MRTA BANGKOK BLUE LINE EXTENSION TUNNEL”, The 13th
National Convention on Civil Engineering, 2008.

• Suwansawat S. and Chanchaya C., “INFLUENCES OF SHIELD OPERATIONAL PARAMETERS
ON GROUND MOVEMENTS DURING TUNNEL CONSTRUCTION”, The 13th National
Convention on Civil Engineering, 2008.

• Lueprasert P. and Suwansawat S., “USING OF NEW AUSTRIAN TUNNELING METHOD
(NATM) IN BANGKOK BLUE LINE UNDERGROUND SOUTH EXTENSION”, The 13th National
Convention on Civil Engineering, 2008.

• Sunthornjak S. and Suwansawat S., “TUNNEL-INDUCED GROUND SETTLEMENT AND
INFLUENCED ZONE ANALYSIS COMPUTING PROGRAM”, The 13th National Convention on
Civil Engineering, 2008.

• Nakthong S. and Suwansawat S., “Lining Design of Twin Tunnels for the Extension MRTA
Project in Bangkok”, Proc. The 26th Conference of ASEAN Federation of Engineering
Organization, 2008.

• Chaiwonglek C. and Suwansawat S., “NATM technique for the construction of new MRTA
Subway Stations within the Bangkok Old City Area”, Proc. The 26th Conference of ASEAN
Federation of Engineering Organization, 2008.

วศ.ด.(วศิ วกรรมโยธา) ภาควชิ าวศิ วกรรมโยธา คณะวศิ วกรรมศาสตร สจล.

231

• Lueprasert P. and Suwansawat S., “The First Applying of NATM for the Extension MRTA
Project in Bangkok”, Proc. The 26th Conference of ASEAN Federation of Engineering
Organization, 2008.

• Chaiwonglek C. and Suwansawat S., “CRITICAL NATM UNDERGROUND STATIONS FOR THE
BANGKOK MRTA BLUE LINE EXTENSION PROJECT”, Proc.The 34th World Tunnel Congress
2008, 2008.

• Keomanee K. Suwansawas S. and Laokhongthavorn L., “An Application of Artificial Neural
Network for Prediction Load Bearing Capacity for Driven Piles in Bangkok is subsoil”, The
13th National Convention on Civil Engineering, 2008.

• Sunthornjak S. and Suwansawat S., “Determination of ground movement variables Using
Back Analysis of field and shield operation measurements”, Proc. The 26th Conference
of ASEAN Federation of Engineering Organization, 2008.

• Chotidilok P. and Suwansawat S., “Evaluation of ANN Performance and Shield
Operational Factor’s Correlation for Predicting Surface Settlements”, Proc. The 26th
Conference of ASEAN Federation of Engineering Organization, 2008.

• Srijanthong P. and Suwansawat S., “Geotechnical Monitoring Design for Bangkok MRTA
Project”, Proc. The 26th Conference of ASEAN Federation of Engineering Organization,
2008.

วศ.ด.(วศิ วกรรมโยธา) ภาควิชาวศิ วกรรมโยธา คณะวศิ วกรรมศาสตร สจล.

232

3. ผศ.ดร.ชลดิ า อต:ู ะเภา
• U-tapao, C., Gabriel, S. A., Moryadee, S., Peot, C., and Ramirez, M. (28)2016, A stochastic,

Two-level Optimization Model for Compressed Natural Gas Infrastructure Investment
Wastewater management, Journal of Natural Gas Science & Engineering.
• Somkiat Khwanpruk, Worawat Sriudom and Chalida U-tapao, 2015, Identification optimal
strategies for natural gas pipeline network management in Thailand, 4th International
conference of Environmental Engineering Association of Thailand, 27-29 May 2015,
Thailand
• ชลิดา อตDู ะเภา และ จกั รกริช กติ ตพิ งษชยั กจิ , 2558, ประเมนิ วิธกี ารที่เหมาะสมสาํ หรับการจัดการมูลฝอย
พน้ื ทศี่ ึกษา เมอื งโบราณ อูทD อง, งานประชมุ วิชาการสิ่งแวดล$อมแหDงชาติ ครงั้ ที่ 14, 27-29 พ.ค. 58,
เชียงใหมD, ประเทศไทย
• ศุภกร ประพสั สร และ ชลดิ า อDตู ะเภา, 2558, ความสมั พันธระหวาD งพลังงานแสงอาทิตยกบั การปลกู ตน$ ไม$
ในเมือง, งานประชมุ วิชาการวิศวกรรมโยธาแหงD ชาติ ครั้งที่ 20, 8-10 ก.ค. 58, ชลบุรี, ประเทศไทย
• U-tapao, C., Laokhongthavorn L., and Dejtisakdi, W., 2015, AN EQUILIBRIUM MODEL OF
ETHANOL MARKET, IN THAILAND, International Conference on Sustainability Initiatives (ICSI)
2015 in conjunction with 8th ASEAN Environmental Engineering Conference (AEEC), 24-25
August 2015, Kuala Lumpur, Malaysia,
• Laokhongthavorn L. and U-tapao, C., 2015, A Stochastic, Multi-objective Optimization
Model for Solid Waste Management System: A Case Study of Bangkok, Thailand,
International Journal of Civil Engineering, under review.
• ชลดิ า อDูตะเภา, 2557, แบบจําลองการประเมินคDาทางคณติ ศาสตรแบบหลายวัตถปุ ระสงคเพื่อบรหิ ารจดั การ
ขยะมูลฝอย, งานประชุมวิชาการวศิ วกรรมโยธาแหDงชาติ ครั้งที่ 19, 14-16 พ.ค. 57, ขอนแกนD , ประเทศไทย
• U-tapao, C., 2014, A Stochastic, Multi-objective Optimization Model for Solid Waste
Management System: Case Study for Bangkok, Thailand, 20th International Interdisciplinary
Conference on the Environment, 13-15 June 2014, Colorado, USA.

วศ.ด.(วศิ วกรรมโยธา) ภาควิชาวศิ วกรรมโยธา คณะวิศวกรรมศาสตร สจล.

233

• Srinil, S., U-tapao, C. and Laokhongthavorn L., 2014, Identification of Optimal Strategies for
Energy Management and Reducing Carbon Dioxide Equivalent Emissions at Wastewater
Treatment Plants in Bangkok, Thailand, 20th International Conference on Advance in Civil
engineering for Sustainable Development, 27-29 August 2014, Nakonratchasrima, Thailand.

• Laokhongthavorn L., and U-tapao, C., 2014, A Multi-Objective, Optimization Model for
Management of Wastewater: Case Study for Bangkok, Thailand, 7th ASEAN Environmental
engineering Conference, 21-22 November 2014, Palawan, Philippines.

• Laokhongthavorn L., U-tapao, C., and Dejtisakdi, W., 2014, An Equilibrium Modeling
between Energy and Food Producers in Thailand, International Conference on Engineering
and Technology 2014, 27-28 November 2014, Bangkok, Thailand.

• Gabriel, S. A., U-tapao, C., Peot, C., and Ramirez, M. 2013, A multi-objective, mixed-integer
optimization model for wastewater-derived energy, Engineering Optimization, under
review.

• U-tapao, C., Gabriel, S. A., Peot, C., and Ramirez, M. 2013, A stochastic MPEC for sustainable
wastewater management, Optimization and Engineering, under review.

• U-tapao, C., Gabriel, S. A., Peot, C., and Ramirez, M., 2013, A Stochastic MPEC for Sustainable
Wastewater Management, INFORMS 2013 conference, Minneapolis, MN, U.S.

• U-tapao, C., Gabriel, S. A., Peot, C., and Ramirez, M., 2013, A Stochastic MPEC for Sustainable
Wastewater Management, Asia Pacific Clean Energy Summit and Expo, Honolulu, HI, U.S.

• U-tapao, C., Gabriel, S. A., Peot, C., and Ramirez, M., 2011, A Stochastic, Multi-Objective,
Mixed-Integer Optimization Model for Biosolids Management program
at the Blue Plains AWTP, 5th Trans-Atlantic INFRADAY conference. Washington, DC, U.S.

• U-tapao, C., Gabriel, S. A., Peot, C., and Ramirez, M., 2011, A Stochastic, Multi-Objective,
Mixed-Integer Optimization Model for Biogas Production at the Blue Plains AWTP, 5th
European water and wastewater management conference & exhibition, London, England.

วศ.ด.(วศิ วกรรมโยธา) ภาควิชาวศิ วกรรมโยธา คณะวิศวกรรมศาสตร สจล.

234

• U-tapao, C., Gabriel, S. A., Peot, C., and Ramirez, M., 2010, A Multi-objective Optimization
Model for Biogas Production at the Blue Plains Advanced Wastewater Treatment Plants, DC
Water, INFORMS 2010 conference, Austin, TX, U.S.

• U-tapao, C., Gabriel, S. A., Peot, C., and Ramirez, M., 2010, A Multi-objective Optimization
Model for Biogas Production at the Blue Plains Advanced Wastewater Treatment Plants, DC
Water, 4th Trans-Atlantic INFRADAY conference. Washington, DC, U.S.

• U-tapao, C., Gabriel, S. A., Peot, C., and Ramirez, M., 2009, Identification of optimal strategies
for energy management and reducing carbon dioxide emission at
the Blue Plains Advanced Wastewater Treatment Plant (AWTP), 3rd Trans-Atlantic INFRADAY
conference. Washington, DC, U.S.

4. ผศ.ดร.ภาสกร ขันทองทิพยD
• Khanthongthip, P. , Novak, J. T. , ( 2011) Impact of Substrate Feed Patterns on Solids

Reduction by the Cannibal Process . Annual WEF Residuals and Biosolids Management
Conference .May 22-25, Sacramento, CA
• Khanthongthip, P. , Novak, J. T. , ( 2012) The Performance of the Cannibal Processin
Biological Solids .The 5th AUN/SEED-Net Regional Conference on Civil and Environmental
Engineering .October 24-26, Ho Chi Minh City, Vietnam
• Khanthongthip, P., Novak, J.T., (2013) The Role of Fe(III) Reducing Microorganism and
Extracellular proteases on the Biosolids Reduction in the Cannibal process. 2nd Water
Research Conference (IWA). January 20-23, Singapore
• Khanthongthip, P., Novak, J.T., (2013) The Role of Microbially Reducible Iron Flocs and
Extracellular proteases on the Sludge Reduction in the Cannibal Process . Annual WEF
Residuals and Biosolids Management Conference, May 5-8, Nashville, TN
• Khanthongthip, P. , Novak, J. T. , ( 2013) The effects of iron and system operation for
sludge reduction in the Cannibal process . 13th World Congress on Anaerobic Digestion,
Recovering ) bio ( Resources for the World ( IWA) , June 25- 28, Santiago de Compostela,
Spain
• Khanthongthip, P., Novak, J.T., (2013) The Function of Fe)III (Reduction Ecology and The
Activity of Extracellular Proteolytic Enzyme on Sludge Destruction in the Cannibal
Process .Microbial Ecology and Water Engineering Conference )IWA(, July 7-10, Ann Arbor,
MI
• Khanthongthip, P., Novak, J.T., (2013) The Influence of Iron and Process Configuration
on the Cannibal Process Performance and Biosolids Reduction Mechanism . WaterJAM
2013, September 8-12, Richmond, VA

วศ.ด.(วศิ วกรรมโยธา) ภาควชิ าวศิ วกรรมโยธา คณะวศิ วกรรมศาสตร สจล.

235

• Khanthongthip, P. , Novak, J. T. , ( 2014) Impact of Substrate Feed Patterns on Solids
Reduction by the Cannibal Process .Water Environment Research )in press(

• Khanthongthip, P., Novak, J.T., (2014) The Effects of Iron and System Operation on the
performance of the Cannibal process fed with municipal wastewater . The IWA
Pretreatment of Water and Wastewater, May 18-21, Shanghai, China

• Khanthongthip, P. , Novak, J. T. , ( 2014) The Influence of Iron and Feed patterns of the
influent for Sludge Reduction in the CannibalTM process . 2nd IWA specialist conference
on Eco Technologies for Sewage Treatment Plants 2014, June 23-25, Velona, Italy

• Khanthongthip, P., Novak, J.T., (2015) The Effect of Silver Sulfide Nanoparticles (Ag2S
NPs) on Methane Production during Anaerobic Digestion of Waste Activated Sludge.
International Conference on Biochemistry and Molecular biology, June 22- 23, Paris,
France

• Khanthongthip, P. , Novak, J. T. , ( 2015) The effect of CuO nanoparticles on methane
production during waste activated sludge anaerobic digestion. 7th European Meeting on
Chemical Industry and Environment. June 10-12, Tarragona, Spain

• Khanthongthip, P., Novak, J.T., (2015) The characteristics of odors production from WAS
during anaerobic digestion. 6th IWA International Conference on Odours & Air Emissions.
16-18 November, Paris, France

• Khanthongthip, P., Novak, J.T., Doyle, M.L., 2015 .Impact of substrate feed patterns on
solids reduction by the cannibal process .Water Environ .Res .87 (3), 274–280.

• Khanthongthip, P. , Novak, J. T. , ( 2016) The Effects of ZnO Nanoparticles on The
Performance of The Cannibal Process. 3rd IWA Specialized International Conference
Ecotechnologies for Wastewater Treatment 2016 (ecoSTP16). 27-30 June, Cambridge, UK

• Khanthongthip, P., Novak, J. T. , (2016) The roles of temperature surfactant and pH on
the performance of dissolved air flotation in wastewater treatment. 7th International IWA
Conference on Flotation for Water and Wastewater Systems. September 27- 30,
Toulouse, France

วศ.ด.(วิศวกรรมโยธา) ภาควชิ าวศิ วกรรมโยธา คณะวศิ วกรรมศาสตร สจล.

236

5. ดร.ศลษิ า ไชยพุทธ

• Bergado, D.T., Chaiyaput, S., Voottipriex, P., Hino, T. and Chanmee, N. (2017). Mitigations
of Flooding and Soil Erosions Geo-Disasters in Thailand and Laos due to Climate Change: From
Mountains to Lowlands, Journal of Lowland Technology International, (in press)

• Chaiyaput, S. and Sugimoto, M. (2016). Effect of Boundary Conditions in Segmental Lining
Model on Its Sectional Force, Journal of Lowland Technology International, June 2016, Vol.
18, No. 1, pp. 9-22.

• Artidteang, S., Bergado, D.T., Chaiyaput, S., Tanchaisawat, T., and and Lam, L.G. (2016).
Performance of Ruzi Grass Combined with Woven Limited Life Geotextiles (LLGS) for Soil
Erosion Control, Journal of Lowland Technology International, June 2016, Vol. 18, No. 1,
pp. 1-8.

• Artidteang, S., Tanchaisawat, T., Bergado, D.T., and Chaiyaput, S. (2015). Natural Fibers in
Reinforcement and Erosion Control Applications with Limited Life Geosynthetics, Ground
Improvement Case Histories: Compaction, Grouting and Geosynthetics, June 10, 2015,
pp. 717-740. (Book Chapter)

• Artidteang, S., Bergado, D.T., Chaiyaput, S., and Tanchaisawat, T. (2015). Embankment
Reinforced with Limited Life Geotextiles on Soft Clay, Proceedings of the Institution of
Civil Engineers: Ground Improvement, May 2015, Vol. 168, No. 2, pp. 130-143.

• Chaiyaput, S., Bergado, D.T., and Artidteang, S. (2014). Measured and Simulated Results of
a Kenaf Limited Life Geosynthetics (LLGs) Reinforced Test Embankment on Soft Clay.
Geotextiles and Geomembranes, February 2014, Vol. 42, No.1, pp. 39-47.

• S. Chaiyaput, and M. Sugimoto. (2017), 3D FEM Analysis on the Measured Earth Pressure on
Lining Considering Initial Ground Displacement, World Tunnel Congress 2017 (WTC 2017),
Bergen, Norway.

• S. Chaiyaput, and D.T. Bergado. (2017), Improvement Methods for Slope Failures due to
Climate Change, 2017 KMITL-Tokai Joint Seminar, Tokai University, Japan.

• D.T. Bergado, and S. Chaiyaput. (2017), LLGs for Erosion Control Combined with Vegatation
and for Embankment Reinforcements on Soft Ground with 2D/3D FEM Simulations,
International Conference on Geotechniques for Infrastructure Projects, Thiruvananthapuram,
India.

• D.T. Bergado, P. Vootipruex, P. Jamsawang, S. Artidteang and S. chaiyaput. (2016), The
Development of Soft Ground Improvements Using Prefabricated Vertical Drain (PVD) and Deep
Cement Mixing (DCM) Techniques, The 3th Thai Geotechnical Conference, Bangkok, Thailand.

• Chaiyaput, S., Huynh, T.N., and Sugimoto, M. (2015), Influence of Copy Cutter Length on H&V
Shield Behaviour, The 15th Asian Regional Conference on Soil Mechanics and Geotechnical
Engineering (15ARC), Fukuoka, Japan.

วศ.ด.(วศิ วกรรมโยธา) ภาควิชาวศิ วกรรมโยธา คณะวิศวกรรมศาสตร สจล.

237

• Artidteang, S., Bergado, D.T., and Chaiyaput, S. (2015), Properties Life Geosynthetics (LLG) for
Slope Stability Analysis on Soft Ground, The 15th Asian Regional Conference on Soil Mechanics
and Geotechnical Engineering (15ARC), Fukuoka, Japan.

• Nguyen Duc Tam, Gun Kurosaki, and CHAIYAPUT SALISA (2015), Study on the Behavior of
Primary Lining by SENS, Japan Society of Civil Engineers (JSCE2015), Okayama, Japan. (in
Japanese)

• S. Chaiyaput, T.N. Huynh, and M. Sugimoto. (2015), Ground Reaction Curve to Analyze
Segmental Lining in Tunneling, International Conference on Geotechnical Engineering
(ICGE2015), Colombo, Sri-Lanka.

• Chaiyaput, S., Bergado, D.T., Artidteang, S. and Sugimoto, M. (2014), Investigation of Kenaf
Limited Life Geosynthetics (LLGs) for Reinforcement, International Symposium on Woods
Utilization (ISWU2014), Saga, Japan.

• Artidteang, S., Bergado, D.T., Chaiyaput, S., and Lam, L.G. (2014), Ruzi Grass Combined with
Water Hyacinth Woven Limited Life Geotextiles (LLGs) for Soil Erosion Control, 9th
International Symposium on Lowland Technology (ISLT2014), Saga, Japan.

• C. Salisa, C.F.C. Algjandra, H.N. Thi, T. Tamai, and M. Sugimoto (2014), Influence of Effective
Rate in Copy Cutter Length on H&V Shield Behavior, Japan Society of Civil Engineers
(JSCE2014), Osaka, Japan.

• Artidteang, S., Bergado, D.T., and Chaiyaput, S. (2013). Stability Analyses of Embankment
with Limited Life Woven Geosynthetics (LLGs) Reinforced on Soft Clay, Proc. 18th Southeast
Asian Geotechnical & Inaugural AGSSEA Conference, Singapore.

• Artidteang, S., Bergado, D.T., Chaiyaput, S., and Saowapakpiboon, J. (2012), Investigation of
Water Hyacinth Woven Limited Life Geotextiles (LLGs) and Applications, 5th Asian Regional
Conference on Geosynthetics (GA2012), Bangkok, Thailand.

• Chaiyaput, S., Bergado, D.T., and Artidteang, S. (2012), FEM 2D Numerical Simulations
Reinforced Embankment on Soft Ground by Limited Life Geosynthetics (LLGs), 5th Asian
Regional Conference on Geosynthetics (GA2012), Bangkok, Thailand.

• Artidteang, S., Bergado, D.T., Tanchaisawat, T., and Chaiyaput, S. (2012), Kenaf Woven Limited
Life Geotextiles (LLGs) Reinforcement Interaction by Pullout and Direct Shear Tests, 8th
International Symposium on Lowland Technology (ISLT2012), Bali, Indonesia.

วศ.ด.(วศิ วกรรมโยธา) ภาควชิ าวศิ วกรรมโยธา คณะวศิ วกรรมศาสตร สจล.

238

6. รศ.ดร.อมุ า สบี ุญเรอื ง

• Ginn T.R., E.M. Murphy, A. Chilakapati, U. Seeboonruang, “Stochastic-Convective Transport
with Nonlinear Reaction and Mixing: Application to Intermediate-Scale Experiments in
Aerobic Biodegradation in Saturated Porous Media”, J CONTAM HYDROL, 48 (1-2), 121-149,
MAR 2001.

• Seeboonruang U., T.R. Ginn, “Upscaling Heterogeneity in Aquifer Reactivity via Exposure-
time Concept: Forward Model”, J CONTAM HYDROL, 84 (3-4), 127-154, MAR 2006.

• Seeboonruang U., T.R. Ginn, “Upscaling Heterogeneity in Aquifer Reactivity via Exposure-
time Concept: Backward Model”, J CONTAM HYDROL, 84 (3-4), 155-177, MAR 2006.

• Seeboonruang U., Ichikawa T., “The Effect of Acid Sulphuric Soil Restraint by Groundwater
Control in Nakhon Nayok Province, Thailand”, SOILS AND FOUNDATIONS, 47 (6), 1089 –
1100, DEC 2007.

• Seeboonruang U. “A Statistical Assessment of the Impact of Land Uses on Surface Water
Quality Indexes”, Journal of Environmental Management, Journal of Environmental
Management, 101, pp. 134-142.

• Seeboonruang U. “Relationship between groundwater properties and soil salinity at the
Lower Nam Kam River Basin in Thailand” Environ Earth Sci. DOI 10.1007/s12665-012-2012-
5

• Sirikaew U., Seeboonruang U. “Assessment of Social Impacts of a Reservoir on a Saline
Soil Area in Northeast Thailand”, Advanced Materials Research, Vols. 622-623 (2013) pp
1659-1663.

• Seeboonruang U. (2014) “An empirical decomposition of deep groundwater time series
and possible link to climate variability” Global NEST Journal, 16; 87-103.

• Seeboonruang U. (2014) “Physico-chemical characterization of saline subsurface system
near small endorheic ponds in Thailand”. Environ Earth Sci. 71(7), pp 3273-3286.

• Seeboonruang U. (2015) “An application of time-lag regression technique for assessment
of groundwater fluctuations in a regulated river basin: a case study in Northeastern
Thailand”, ENVIRONMENTAL EARTH SCIENCES, 73(10), pp 6511-6523

• Seeboonruang U. (2016) “Impact assessment of climate change on groundwater resource
and hotspots for future drought hazard for the Eastern Thailand.” Environmental Earth
Science. Environmental Earth Sciences, 75(1), pp 1-16.

วศ.ด.(วิศวกรรมโยธา) ภาควชิ าวศิ วกรรมโยธา คณะวศิ วกรรมศาสตร สจล.

239

• Seeboonruang U. (2016) “Geographic information system-based impact assessment for
illegal dumping in borrow pits in Chachoengsao Province, Thailand” , in Wessel, G.R., and
Greenberg, J.K., eds., Geoscience for the Public Good and Global Development: Toward a
Sustainable Future: Geological Society of America Special Paper 520, p.393 – 405.

• Seeboonruang U. (Accepted) “Wavelet Relationship between climate variability and deep
groundwater fluctuation in Thailand’s Central Plains” KSCE Journal of Civil Engineering.

7. ผศ.ดร.วุฒิชัย ชาติพฒั นานันทD

International Journal
• Duangdao Watthanaklang, Vatanavongs Ratanavaraha, Vuttichai Chatpattananan, Sajjakaj

Jomnonkwao. “Measuring the motivation to ride bicycles for tourism through a
comparison of tourist attractions” Transport Policy Volume 52, Pages 153-163. November
2016
National Journal
• วุฒิชัย ชาติพัฒนานันท, ธนาดล คงสมบูรณ, สันติ กวินวงศไพบูลย, “การตรวจสอบเสถียรภาพทางลาด
ของกําแพงกันดินเสริมกําลังท้ังสองด$าน: กรณีศึกษาโครงการทางหลวงในประเทศไทย วารสารวิศวกรรม
และเทคโนโลยี มหาวิทยาลัยรังสติ ป\ที่ 19 ฉบับท่ี 2 เดือน กรกฏาคม- ธนั วาคม 2559.
International Conferences
• Saranyoo Promsorn, Vuttichai Chatpattananan “On Investigating The Simulated Project
Completion Time “Conference on Engineering and Applied Sciences (ICEAS) July 20-22,
2015, Hokkaido, Japan.
National Conference
• วุฒิชัย ชาติพัฒนานันท, วันชัย เทพรักษ, สาธิต ดีเดชา, ทัศนะ นิลวาศ, กฤษณะ ชาลีวงศ. “แนวคิดการ
ออกแบบระบบระบายนํ้าใต$ผิวดินสําหรับสนามบินสุวรรณภูมิ”, การประชุมวิชาการ วิศวกรรมโยธา
แหงD ชาติ ครง้ั ท่ี 22. 18-20 กรกฎาคม 2560. มหาวทิ ยาลัยเทคโนโลยรี าชมงคลอีสาน.
• บรรหาร เพชรศศิธร, วุฒิชัย ชาติพัฒนานันท, “การศึกษาปoจจัยท่ีมีผลตDอแนวโน$มในการเปล่ียนงานของ
แรงงานกDอสร$างในโครงการกDอสร$าง” การประชุมวิชาการวิศวกรรมโยธาแหDงชาติครั้งที่ 17, หาวิทยาลัย
เกษตรศาสตร อุดรธานี 9-11 พฤษภาคม 2555
• สุทธิพงศ สกุลดี, วุฒิชัย ชาติพัฒนานันท, “การศึกษาการใช$แบบจําลองท่ีเหมาะสมในโครงการศึกษา
ความเปNนไปไดข$ องระบบประปา กรณศี กึ ษาในเกาะสมยุ ” การประชุมวชิ าการวิศวกรรมโยธาแหDงชาติคร้ัง
ท่ี 17, หาวทิ ยาลัยเกษตรศาสตร อดุ รธานี 9-11 พฤษภาคม 2555
• นงนชุ ทวีสุข, วฒุ ิชัย ชาติพัฒนานนั ท, “ปจo จัยทม่ี ผี ลตอD การตดั สนิ ใจเลอื กซื้อทาวนเฮาส 3 ชน้ั ระดับกลาง
ในเขตกรุงเทพมหานครและปริมณฑลตามกระบวนการตัดสินใจซ้ือ” การประชุมวิชาการวิศวกรรมโยธา
แหDงชาติคร้ังท่ี 17, หาวิทยาลยั เกษตรศาสตร อดุ รธานี 9-11 พฤษภาคม 2555

วศ.ด.(วศิ วกรรมโยธา) ภาควิชาวศิ วกรรมโยธา คณะวิศวกรรมศาสตร สจล.

240

• พรทิพย ธนวรรษการ, วุฒิชัย ชาติพัฒนานันท, “ความพึงพอใจของลูกค$าตDอการบริการหลังการขาย
คอนโดมิเนียมในเขตกรุงเทพและปริมณฑล: กรณีศึกษา คอนโดมิเนียมราคา 2-4 ล$านบาท” การประชุม
วชิ าการวศิ วกรรมโยธาแหงD ชาติครั้งที่ 17, หาวิทยาลัยเกษตรศาสตร อุดรธานี 9-11 พฤษภาคม 2555

• เสรี มีซ$าย, วฒุ ชิ ัย ชาตพิ ัฒนานันท, “ปญo หาและอุปสรรคการบํารุงรักษาอาคารของการไฟฟ†านครหลวง”
การประชุมวิชาการวิศวกรรมโยธาแหDงชาติครั้งท่ี 17, หาวิทยาลัยเกษตรศาสตร อุดรธานี 9-11
พฤษภาคม 2555

• ศตวรรษ ด$วงแป†น, วุฒิชัย ชาติพัฒนานันท, “ปoญหาการประยุกตใช$คDาท่ีเหมาะสมสําหรับวางแผน
งบประมาณในโครงการกDอสร$าง” การประชุมวิชาการวิศวกรรมโยธาแหDงชาติคร้ังที่ 17, หาวิทยาลัย
เกษตรศาสตร อุดรธานี 9-11 พฤษภาคม 2555

8. ดร.ชดชนก อฑั ฒพงศD
• Attaphong C., and Sabatini D.A. “Optimized Microemulsion Systems for Detergency of

Vegetable Oils at Low Surfactant Concentration and Bath Temperature.” Journal of
Surfactant and Detergent. 2017, DOI 10.1007/s11743-017-1962-8. In press.
• Do L.D., Attaphong C., Scamehorn J.F., and Sabatini D.A. “Detergency of Vegetable Oil
and Semi-Solid Fats Using Microemulsion Mixtures of Anionic Extended Surfactants: The
HLD Concept and Cold Water Applications.” Journal of Surfactant and Detergent. 2015,
18, 373-382.
• Arpornpong N., Attaphong C., Charoensaeng A., Sabatini D.A., Khaodhiar S. “Ethanol-in-
palm oil/diesel microemulsion-based biofuel: Phase behavior, viscosity, and droplet size.”
Fuel. 2014, 132, 101–106.

9. ผศ.ดร.ธนาดล คงสมบรู ณD

• T. Kongsomboon and W Teperaksa., (2015). Combination Strength in Analysis of Soil
Cement Column Improvement. The International Conference on Soft Ground Engineering,
3-4 Dec 2015,SINGAPORE.

• Sakkarach Yossuwan and Thanadol Kongsomboon., (2016). A Study Physical and Numerical
model of retaining structure systems in sandbed. The 21st National Convention on Civil
Engineering 28-30 June 2016, Songkhla, THAILAND.

• Tammaboon Sirisrisamrit and Thanadol Kongsomboon., (2559). The Effect of Sheet Pile
Extraction for Deep Braced Excavation In Soft Bangkok Clay, การประชมุ วชิ าการระดับชาติ คร้งั
ท่ี 13 มหาวทิ ยาลัยเกษตรศาสตร วิทยาเขตกําแพงแสน,วนั ท่ี 8-9 ธันวาคม 2559.

• วุฒิชัย ชาติพัฒนานันท และธนาดล คงสมบูรณ., (2559). Analysis and Design of Superimpsed
Mechanical Stabilized Earth Wall, ก า ร ป ร ะ ชุ ม วิ ช า ก า ร ร ะ ดั บ ช า ติ ค รั้ ง ที่ 13
มหาวทิ ยาลยั เกษตรศาสตร วิทยาเขตกาํ แพงแสน,วันท่ี 8-9 ธนั วาคม 2559.

วศ.ด.(วิศวกรรมโยธา) ภาควิชาวศิ วกรรมโยธา คณะวศิ วกรรมศาสตร สจล.

241

• วุฒิชัย ชาติพัฒนานันท และธนาดล คงสมบูรณ และสันติ กวินวงศไพบูลย., (2559).Slope Stability
Checking of a Back-to-Back MSE Wall: A Case Study of a Thailand Highway Project. วารสาร
RSU JET ปท\ ่ี19 ฉบับที่2 เดอื นกรกฎาคม-ธันวาคม 2559, วิศวกรรมและเทคโนโลยี มหาวทิ ยาลยั รังสติ .

• วุฒิชัย ชาติพัฒนานันท และ ธนาดล คงสมบูรณ และ ทรงกลด แซDอึง$ และ สมเกียรติ ขวัญพฤกษ และ
ศลิษา ไชยพทุ ธ., (2560). A Comparison of Slope Stability Factors of Safety between LEM and
FEM of the Back-to-Back MSE Wall. The 22nd National Convention on Civil Engineering,
July 18-20, 2017, Nakhon Ratchasima.

วศ.ด.(วิศวกรรมโยธา) ภาควชิ าวศิ วกรรมโยธา คณะวศิ วกรรมศาสตร สจล.

242

ภาคผนวก ซ
สรุปข1อคิดเห็น/ขอ1 แนะนาํ ของนกั ศึกษาปLสุดท1าย
สถานประกอบการ และศิษยDเก:า ในการพฒั นาหลักสตู ร

Appendix H

วศ.ด.(วิศวกรรมโยธา) ภาควิชาวศิ วกรรมโยธา คณะวิศวกรรมศาสตร สจล.

243

ซ1. ขอ1 คิดเหน็ /ข1อเสนอแนะจากแบบสอบถามความพงึ พอใจของ นักศึกษาปLสุดทา1 ย ทม่ี ตี :อคณุ ภาพ
หลักสูตร วศ.ด. (วิศวกรรมโยธา) หลักสูตรปรับปรุง พ.ศ. 2558

ในป\การศึกษา 2559 ได$มีการสาํ รวจความคดิ เห็นของนักศกึ ษาปส\ ุดทา$ ย ท่ีศึกษาหลักสูตร วศ.ด.
(วิศวกรรมโยธา) หลกั สูตรปรับปรงุ พ.ศ. 2558 จากการใช$แบบสอบถามความพึงพอใจของนกั ศกึ ษาปส\ ุดท$ายทม่ี ี
ตอD คุณภาพหลกั สูตร ซง่ึ มีจาํ นวนแบบสอบถามที่ตอบกลบั 30 ชุด ผลการสํารวจสรุปได$ดงั น้ี

รายการ ความพึงพอใจ
(เตม็ 5)
ด1านการประชาสมั พนั ธหD ลกั สูตร
1.ความตอD เน่ืองในการประชาสัมพันธเกี่ยวกบั กิจการของหลักสูตร คะแนนเฉลีย่
2.การแจง$ ข$อมูลขDาวสารแกDนักศึกษาอยDางทั่วถงึ
3.ความรแู$ ละความเข$าใจเกี่ยวกบั หลักสตู ร 3.62
ดา1 นหลักสตู รและเนือ้ หา 3.62
1.หลกั สตู รมคี วามทนั สมัย 3.32
2.หลกั สตู รมเี อกลักษณท่ีชัดเจน
3.หลักสตู รมีภาคปฏิบตั ิทีท่ ําให$นกั ศึกษาเกดิ ทกั ษะในการปฏิบัตงิ านและทําวิจัยไดจ$ ริง 4.58
ดา1 นบคุ ลากร/วธิ ีสอน 4.82
1.การกาํ หนดเค$าโครงรายวิชาและอธบิ ายวัตถปุ ระสงคของวิชาท่เี รียน 4.92
2.การเตรยี มการสอนลDวงหน$า
3.การอธิบายวธิ กี ารประเมินผลอยDางชัดเจน 4.44
4.การใช$วธิ กี ารวัดและประเมินผลอยาD งชดั เจน 4.75
5.การใชเ$ ทคนิคการสอนและกระต$นุ ให$เกดิ การเรยี นร$ู 4.63
6.การใช$ส่อื ,โสตทัศนปู กรณที่ทนั สมัย 4.62
7.การอธิบายตรงประเด็น มีการยกตัวอยาD งประกอบไดอ$ ยDางชดั เจน 4.33
8.การเปดS โอกาสใหซ$ ักถาม 4.42
9.อาจารยมคี วามร$ใู นวชิ าการหลายๆดา$ น และสามารถนาํ มาประยกุ ตใช$ในวิชาที่สอนได$ 4.70
10.อาจารยมีความรใ$ู นเน้ือหาวชิ าทสี่ อนอยาD งถDองแท$ 4.62
11.อาจารยมีความต้งั ใจและมDุงมนั่ ตอD การถDายทอดความร$ู 4.92
12.อาจารยใหค$ วามสนใจและเปนN กนั เองกับผู$เรยี น 4.81
ด1านปKจจยั เกื้อหนนุ 4.76
1.ความเพยี งพอของอปุ กรณการเรยี นการสอน 4.52
2.ความทันสมยั ของอุปกรณการเรยี นการสอน
3.ความพร$อมของห$องเรยี น 3.79
4.ความพร$อมของห$องปฏิบตั ิการ 4.39
5.การอมรมและสมนาจากบุคลากรภายนอก 4.23
4.11
คะแนนเฉลยี่ จากทุกรายการ 4.35
4.40

วศ.ด.(วิศวกรรมโยธา) ภาควิชาวศิ วกรรมโยธา คณะวศิ วกรรมศาสตร สจล.

244

ข1อสรปุ ความคิดเหน็ ของนักศกึ ษาปสL ุดทา1 ยจากการสาํ รวจความพึงพอใจท่ีมตี :อคณุ ภาพหลักสตู ร วศ.ด.
(วศิ วกรรมโยธา) หลักสตู รปรับปรุง พ.ศ. 2558
จุดเด:น

1. ดา1 นหลักสตู รและเน้อื หา
เปNนหลกั สตู รที่มีความทนั สมยั มีอัตลกั ษณท่ชี ัดเจน และมีภาคปฏบิ ัติทท่ี ําใหน$ ักศึกษาเกิดทักษะในการ

ปฏิบัติงานและวิจยั ได$จรงิ

2. ด1านบุคลากรและการจัดการเรยี นการสอน
มีคณาจารยที่มีความรูค$ วามสามารถในสาขาวชิ าของหลักสูตร

จุดทคี่ วรพฒั นา
1. ดา1 นการประชาสัมพันธหD ลกั สตู ร
ความตอD เนื่องในการประชาสมั พนั ธเก่ียวกบั กิจกรรมของหลกั สตู ร

ข1อเสนอแนะ เพิ่มการฝก’ ทักษะการเขยี นรายงานและบทความวจิ ัย
1. ควรเพิม่ เนื้อหาทเ่ี กยี่ วข$องกบั ความยั่งยนื
2. ควรมีการใหค$ ําแนะนําในการจดั ทํารายงานทด่ี ี
และการทาํ วจิ ัยด$านวศิ วกรรมโยธา

วศ.ด.(วิศวกรรมโยธา) ภาควิชาวศิ วกรรมโยธา คณะวศิ วกรรมศาสตร สจล.

245

ซ2. ขอ1 คิดเห็น/ขอ1 เสนอแนะจากแบบสอบถามความพงึ พอใจของ สถานประกอบการ ท่ีมีต:อมหาบัณฑติ ท่ี
สาํ เร็จการศึกษาในหลักสูตร วศ.ด. (วศิ วกรรมโยธา) หลกั สตู รปรับปรุง พ.ศ. 2558

ในป\การศึกษา 2559 ได$มีการสาํ รวจความคิดเห็น/ข$อแนะนาํ ของสถานประกอบการตอD ดษุ ฎีบัณฑติ ที่
สาํ เรจ็ การศึกษาในหลักสตู ร วศ.ด. (วิศวกรรมโยธา) หลกั สูตรปรับปรุง พ.ศ. 2558 ผลการสํารวจสรุปไดด$ งั นี้

พฤตกิ รรมที่ประเมนิ ความพึงพอใจ
(เต็ม 4)
1.ความรบั ผดิ ชอบตอD งานในหน$าที่ (responsibility)
2.ความร$ูเกี่ยวกบั งานในหนา$ ท่ี (Knowledge) คะแนนเฉลี่ย
3.การตอบสนองตDอคําส่ังของหนวD ยงาน (Obedience) 3.79
4.ความเอาใจใสรD ะมัดระวงั ตDออปุ กรณเคร่ืองใช$ (Precaution) 3.32
5.คณุ ภาพและปรมิ าณของงานที่ทํา (Work Quality/Quantity) 3.52
6.ความคดิ รเิ ร่มิ สร$างสรรค (Intiative) 3.35
7.การแก$ไขปoญหาและการตดั สนิ ใจ (Problem Solving/Dicision Making) 3.49
8.การตรงตอD เวลา (Punctuality) 3.50
9.ความมรี ะเบียบวินยั (Discipline) 3.42
10.ความซือ่ สัตยสจุ รติ (Honesty) 3.75
11.สมั พันธภาพตDอผ$รู วD มงาน (Human Relation) 3.66
12.การร$จู กั ใช$เวลาวาD งให$เปNนประโยชน (Free Time Usage) 3.88
13.การแตงD กายเหมาะสม (Dressing) 3.79
14.กริ ยิ า วาจาสภุ าพเหมาะสมกบั กาลเทศะ (Politeness) 3.69
15.ความขยันหมนั่ เพียร (Diligence) 3.69
16.ความคลอD งแคลวD ในการทํางาน (Dexterity) 3.65
17.ทกั ษะการส่อื สาร และเทคโนโลยีสารสนเทศ 3.68
18.การมีคุณธรรม จรยิ ธรรม 3.43
3.57
3.69

วศ.ด.(วิศวกรรมโยธา) ภาควิชาวศิ วกรรมโยธา คณะวิศวกรรมศาสตร สจล.

246

ข1อสรปุ ความคิดเหน็ ของสถานประกอบการจากการสํารวจความพงึ พอใจท่ีมตี :อมหาบัณฑติ ทส่ี ําเรจ็
การศกึ ษาในหลกั สูตร วศ.ด. (วิศวกรรมโยธา) หลกั สูตรปรบั ปรงุ พ.ศ. 2558
จุดเด:น

1. ดุษฎีบัณฑติ มคี ุณสมบตั ดิ า$ นเจตคติ (Affective Domain) อยูใD นระดบั ดีมาก
2. นกั ศกึ ษามีความรแ$ู ละทักษะในสาขาวชิ า อยใDู นระดับ ดี
จุดท่คี วรพฒั นา
1. การแก$ปoญหาและการตดั สินใจ
2. คุณธรรม จรยิ ธรรม
3. การสอ่ื สารด$านภาษาองั กฤษ
ข1อเสนอแนะ
1. ควรเพิ่มทักษะการสังเคราะหองคความรู$
2. ควรเพมิ่ ทักษะสร$างสรรคผลงานใหมD

วศ.ด.(วศิ วกรรมโยธา) ภาควิชาวศิ วกรรมโยธา คณะวิศวกรรมศาสตร สจล.

247

ซ3. ขอ1 คดิ เห็น/ข1อเสนอแนะของ ศิษยเD ก:า ท่ีมีตอ: การพัฒนาหลักสูตรและลกั ษณะดุษฎีบณั ฑติ

ในปก\ ารศึกษา 2559 ไดม$ ีการสาํ รวจความคิดเหน็ /ข$อเสนอแนะของศษิ ยเกาD ในหลักสูตร วศ.ด.
(วศิ วกรรมโยธา) ทมี่ ีตDอการพัฒนาหลักสตู รและลักษณมหาบัณฑิต ผลการสาํ รวจสรปุ ได$ดงั น้ี

1. ความคิดเหน็ เก่ียวกับหลักสตู ร วศ.ด. (วิศวกรรมโยธา) ร$อยละ 96.92
ดแี ลว$ รอ$ ยละ 0
เนอื ห$ าไมทD ันสอดคลอ$ งกบั การทาํ งานในสายวชิ าชพี ร$อยละ 3.08
เนอ้ื หาวิชาไมทD นั สมัย/สอดคลอ$ งกบั สภาพปจo จบุ นั รอ$ ยละ 0
เน้อื หาวิชาไมDสอดคล$องกบั ความกบั ความต$องการของตลาดแรงงาน

2. ความคิดเห็นเก่ยี วกับระบบการเรียนการสอนของหลกั สูตร วศ.ด. (วศิ วกรรมโยธา)

ดีแลว$ ร$อยละ 58.78

ควรปรบั ปรงุ ประสิทธิภาพการสอนของคณาจารย ร$อยละ 0

ควรเพิ่มปริมาณอุปกรณการเรียนการสอน ร$อยละ 9.79

ควรเนน$ ภาคปฏบตั ใิ หม$ ากขึน้ รอ$ ยละ 23.10

ควรจัดกิจกรรมเสรมิ การเรียนการสอนใหม$ ากขึ้น ร$อยละ 8.33

3. ความคดิ เหน็ เกีย่ วกับจุดเดน: /จดุ ดอ1 ยของบัณฑิตที่จบศึกษาในหลักสตู ร วศ.ด. (วิศวกรรมโยธา)

ลกั ษณะของบณั ฑติ ที่จบการศกึ ษาในหลกั สูตร วศ.ด. (วศิ วกรรม จุดเดน: จดุ ดอ1 ย

โยธา)

ด$านความรทู$ ฤษฎี ร$อยละ 90.42 ร$อยละ 9.58

ทักษะด$านวิชาชีพ รอ$ ยละ 100 ร$อยละ 0

ทกั ษะการใหภ$ าษาตาD งประเทศ เชนD ภาษาอังกฤษ รอ$ ยละ 21.91 รอ$ ยละ 78.09

ความพร$อมในการปฏิบตั งิ านกับหนวD ยงาน รอ$ ยละ 97.22 รอ$ ยละ 2.78

ความสามารถในการพฒั นาตนเองอยDางตDอเนอ่ื ง รอ$ ยละ 100 ร$อยละ 0

ความสามรถในการทาํ งานรวD มกบั ผูอ$ ่ืน รอ$ ยละ 96.71 รอ$ ยละ 3.29

ความสามารถในการบรหิ ารจัดการ รอ$ ยละ 71.68 ร$อยละ 28.32

ด$านบคุ ลิกภาพ (แสดงออก มนุษยสัมพันธ กาลเทศะ ความขยัน รอ$ ยละ 97.42 รอ$ ยละ 2.58

อดทน)

4. โดยภาพรวมของในดา1 นคณุ ภาพของบณั ฑิตทีจ่ บการศึกษาในหลกั สตู ร

ระดับ ดีมาก ร$อยละ 27.59

ระดบั ดี ร$อยละ 72.41

ระดับ ปานกลาง รอ$ ยละ 0

ระดบั นอ$ ย ร$อยละ 0

ระดบั น$อยทส่ี ุด ร$อยละ 0

วศ.ด.(วิศวกรรมโยธา) ภาควิชาวศิ วกรรมโยธา คณะวศิ วกรรมศาสตร สจล.

248

ขอ1 เสนอแนะ
1. ควรมกี ารเพิ่มการเรยี นการสอนด$านเนื้อหาในเชงิ ลึกมากขึน้
2. ควรเพมิ่ ทักษะในการนาํ เสนอผลงาน (Presentation)
3. ควรเพม่ิ ทักษะการใช$ภาษาตDางประเทศ
4. ควรเพ่ิมทักษะการแกป$ oญหา (Problem Solving Skill)
5. ควรเพม่ิ ทักษะการเขียนบทความวจิ ยั ระดับนานาชาติ

วศ.ด.(วิศวกรรมโยธา) ภาควิชาวศิ วกรรมโยธา คณะวศิ วกรรมศาสตร สจล.

249

ภาคผนวก ฌ
หลกั สตู รวศิ วกรรมศาสตรดุษฎีบัณฑติ สาขาวิศวกรรมโยธา

หลักสตู รปรับปรงุ พ.ศ.2560
ฉบบั ภาษาอังกฤษ
Appendix I

วศ.ด.(วิศวกรรมโยธา) ภาควชิ าวศิ วกรรมโยธา คณะวศิ วกรรมศาสตร สจล.

250

Doctor of Engineering Curriculum
Civil Engineering Program
Improved Curriculum 2017

Faculty of Engineering
King Mongkut's Institute of technology Ladkrabang

D.Eng. (Civil Engineering), Department of Civil Engineering, Faculty of Engineering, KMITL

251

Doctor of Engineering Curriculum
Civil Engineering Program
Improved Curriculum 2017

Institute
King Mongkut's Institute of technology Ladkrabang
Faculty/Department
Faculty of Engineering, Civil Engineering Department

Section 1 General information

1. Curriculum name
Curriculum name: Doctor of Engineering Program in Civil Engineering

2. Degree and program name

Full name : Doctor of Engineering (Civil Engineering)

Short name : D.Eng. (Civil Engineering)

3. Major (if have)
-

4. The number of credits to study throughout the curriculum
72 credits for students who graduated Bachelor degree and 48 credits for students who

graduated Master degree.

5. Format of curriculum. Doctoral curriculum
5.1 Format Curriculum educates in Thai and English
5.2 Language Admits both Thai and foreigner students
5.3. Admission Specific curriculum of institute.
5.4. Cooperation with other institute Provide degree in just one discipline
5.5. Degree for graduate

6. Status of the curriculum and course approval/approval.
Improved curriculum defines classes for months..........August 2017..............
Be considered by the Academic Council No. ..........5/2017.......
To date......23.........Month…....May 2017..........................

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Approved/agreed the curriculum from the Institute Council on meeting No. ...2/2560.....
To date...........28............Month.........June 2017............

7. Ready to publish a high quality curriculum and standard.
Curriculum has ready to publish quality and standard in accordance with national higher

education qualification standard in the academic year 2019.

8. The professions can be done after graduation.
(1) Consultancy
(2) Researcher
(3) Lecturer
(4) Specialist
(5) Engineer

9. Name, surname, ID number, position and education certificate of responsible lecturers to
curriculum.

Name-surname The highest educational qualification National ID number
(Academic positions) (disciplines),graduatedyear
1. Assoc.Prof. Dr. Jakrapong
Pongpeng - Ph.D. (Construction Engineering And 3-1999-00356-93-8
Management) Queensland University Of
2. Prof. Dr. Technology, Australia, 2003
Suchatvee Suwansawat -Sc.D. (Geotechnical engineering), 3-2199-00161-63-0
Massachusetts Institute of Technology,
3. Asst.Prof. Dr. 2545
Chalida U-tapao - Ph.D. Eng. (Civil and Environmental 3-2508-00100-46-1
Engineering), University of Maryland,
USA, 2556

Note: more detailed information specified in section 3 item 3.2.1

10. Place for teaching and learning.
At the location of King Mongkut's Institute of technology Ladkrabang.

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11. External circumstances or developments that need to be considered in planning the
curriculum.

11.1 Situation or economic development.
11.1.1 Society of Globalization, Trade liberalization and moving work career effect the

competition both within and outside the country.
11.1.2 Currently society has growing in technology and communication, is the society

of knowledge in competing with the capability knowledge. So, it is necessary to produce the
personnel in supervision level with capability knowledge.

11.1.3 Educational institutions of the country to rely on as a source of knowledge and
create innovation brought to apply from the teaching and learning process that create thinking
and analysis.

11.2 A situation or social and culture development.
11.2.1 The trend in modify of the construction industry that effect less environmental

impact also need to be considered.

12. Effect from 11.1 11.2 on curriculum development and relevant to the mission of the
Institute.

12.1 Curriculum development
1 2 . 1 . 1 Improve curriculum to meet the needs of the country in manpower and

expertise related to civil engineering and construction management.
12.1.2 Improve curriculum to meet the changes of the social world and is recognized

internationally.
12.2 Associated with the mission of the Institute.
12.2.1 To produce graduates enough according to the needs of the country.
12.2.2 Support the creation of new knowledge from the research that can be applied.

13. The relationships (if have) with other curriculum offered in the faculty / in other
program of the institution.

None

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Section 2 Specific information of curriculum

1. Philosophy, significance and objectives of curriculum
1.1 Philosophy
Curriculum has philosophy in human resource development to be leaders as the full

knowledge in Civil Engineering, have profoundly specializes, abound with the knowledge,
moral, ethics, encourage students to seek knowledge continuously the lifetime and learn with
oneself, have enthusiasm, have the idea to analyze the reasons of reliability, have the courage
to criticize. Students must have the communication skills to understanding between
individuals and communities, have widespread vision, by having the philosophy corresponds
main mission of the institute.

1.2 Objectives
1.2.1 In order to meet the needs of developing country, due to the development of the
industry in civil engineering has currently developed rapidly, the standards of education for
being modern, suitable and consistent to the development must be raised.
1.2.2 To promote the progress in the fields of structural engineering geotechnical
engineering, transportation engineering, water resource engineering, construction engineering
and management and environmental engineering by based on the results of the research and
the learning process with oneself in principle.
1.2.3 Aim to relate to higher education national development plan and is consistent with
the philosophy of higher education institution and academic and professional standards
focused on the development of academic and professional with high level knowledge and
capability in any fields to pioneer new knowledge freely as well as having creative ability
enhances the academic progress continuously.

2. Development improvement plan
Expect to be fully completed operation within 3 years.

Development plan/change. Strategy Evidence / indicator.

1 . Increase the skill to use 1. Assign students to present 1. Achievement of every students

English. seminar from English in seminar course have score not

manuscripts lower than level B.

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3. Expected Learning Outcomes
To achieve the three objective of the curriculum, the expected learning outcomes are

formulated as the following.
EL01: Students are able to apply knowledge and techniques to solve civil engineering
problems in various situations.
EL02: Students are able to analyze the body of knowledge into sub-elements and, then,
create the relationship among these sub-elements to show a structure of knowledge
holistically
EL03: Students are able to evaluate academic works as situation using appropriate or
international criteria.
EL04: Students are able to bring knowledge for professional career leading to sustainable
development in terms of economics, society and environment.
EL05: Students have virtue and ethics, self-responsibility, society and environment and honest
working under professional ethics.
EL06: Students are able to communicate in both Thai and English, and able to use information
technology for these working

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Section 3 Education management system, operation and structure of the curriculum

1. Education management system
1.1 The system
This Doctor of Engineering Curriculum is international curriculum which is published in

both Thai and English.
Use binary educational system which in 1 academic year is divided into 2 normal

semesters and 1 normal semester has study period not less than 15 weeks, and the summer
semester is assigned the period with comparable ratio to normal semester.

Various specifications are according to regulations of King Mongkut's Institute of
technology mention in Graduate Education of 2008 (Appendix A.).

1.2 Summer semester education management
- None of summer semester

1.3 Benchmarking of credits in the binary system
- None

2. Curriculum operations
2.1 Date / time of education
The day - time normal office hours
The day – time twilight hours
1st Semester month August – December
2nd Semester month January – May
Summer Semester month June - July
2.2 Language of education in teaching and learning
Thai language
English language
2.3 Qualifications of applicants
On standard is a graduate in Master degree or equivalent.
On standard is a graduate in bachelor degree who got first class honor in Civil
Engineering or related fields.
2.4 The problems of students in the first admission
Knowledge of English is quite limited.
2.5 Strategy in operation for solving the problem/limit of students in item 2.4
Evaluate the knowledge, the capability in using English and assign the students to
present seminar from English manuscripts.

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2.6 Plans to get students and graduates within 5 years.

For Master degree graduates

Number of students Number of students in each academic year.
2017 2018 2019 2020 2021

First year 22222

Second year 2222

Third year 222

Total 2 4 6 6 6

Expect to graduate 246

For the Bachelor's degree graduate

Number of students 2017 Number of students each year 2021
1 2018 2019 2020 1
First year 111 1
Second year 1 111 1
Third year 11 1
Fourth year 1 4
Total 234 2
Expect to graduate 1

2.7 The budget plan

Use the annual budget category, the materials, the expenses, compensation and

equipment of faculty of Engineering, which is used in producing graduates of this curriculum,

average cost 460,000 baht/person/year

Use the budget of Faculty of Engineering in the part of the Doctor of Engineering

degree, Civil Engineering program as follows:

Personal statement 300,000 baht

Category of salary 200,000 baht

Category of regular wages - baht

Statement of operations 150,000 baht

Category of Compensation 100,000 baht

Category of expense 20,000 baht

Category of material 20,000 baht

Category of utilities 10,000 baht

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Statement of investment 10,000 baht

Category of teaching equipment 0,000 baht

Total 460,000 baht

1.8 Education system

Classroom

1.9 Credits transfer, subject and registration across institutions (if have)

None

3) Curriculum and lecturers

3.1 Curriculum specify the detail as follow:

3.1.1 Total credits required for curriculum

Plan 1.1 and 2.1

- For Master degree graduate to study Doctoral degree curriculum

Total credits required for curriculum not less than 48 credits

Plan 1.2 and 2.2

- For Bachelor degree graduate to study Doctoral degree curriculum

Total credits required for curriculum not less than 72 credits

3.1.2 Curriculum structure

Plan 1 is education plan which focus on researching the thesis that produces

new knowledge or may assign to study more subjects or do other academic

activities in addition without counting credits.

Plan 1.1 Applicants who graduate Master degree 48 credits

a. Group of Doctoral Thesis 48 credits

b. Group of Seminar (not counting credits) 3 credits

c. Group of Qualifying Examination (not counting credits) 1 credit

Plan 1.2 Applicants who graduate Bachelor degree 72 credits

a. Group of Doctoral Thesis 48 credits

b. Group of Compulsory Course (Research Methodology, not counting credits)

3 credits

c. Group of Seminar (not counting credits) 3 credits

d. Group of Qualifying Examination (not counting credits) 1 credit

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Plan 2 is education plan which focuses on researching the thesis with high

quality and causing the progress of academic and professional and study the

course work more.

Plan 2.1 Applicants who graduate Master degree 48 credits

a. Group of Doctoral Thesis 36 credits

b. Group of SEMINAR (not counting credits) 3 credits

c. Group of Specific Subjects 12 credits

d. Group of QUALIFYING EXAMINATION (not counting credits) 1 credit

Plan 2.2 Applicants who graduate Bachelor degree 72 credits

a. Group of Doctoral Thesis 48 credits

b. Group of Compulsory Course (Research Methodology, not counting credits)

3 credits

c. Group of Seminar (not counting credits) 3 credits

D. Group of Advanced Mathematics 3 credits

E. Group of Specific Subjects 21 credits

d. Group of Qualifying Examination (not counting credits) 1 credit

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3.1.3 Course code and courses

- Course code

Meaning of the subject codes

Subject codes using are the letters and numbers of 8 by the following means;

Code 1 number 1 refers to Faculty of Engineering

Code 2 number 9 refers to Civil Engineering Department

Code 3, 4 numbers 58 refers to Year of the course was

specified in the cover of the

book program

Code 5 number 8 refers to Curriculum in D.Eng.

Code 6, 7, 8 numbers xxx refers to Sequence of courses

Meaning code of graduate school exam

Subject code using are the letters and numbers of 8 by the following means;

Code 1, 2 numbers 99 refers to Code of examination

Code 3 number 1 refers to Faculty of Engineering

Code 4 number 9 refers to Civil Engineering Department
Code 5 number 8 refers to Curriculum in D.Eng.
Code 6, 7, 8 numbers 001 refers to Thesis examination
002 refers to Qualifying examination
003 refers to Comprehensive examination
004 refers to Passing the English standard

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- Courses

Plan 1, plan 1.1 Applicants who graduate Master degree

DOCTORAL THESIS COURSES GROUP 48 credits

Credits (Lecture -Practice–Individual study)

01098010 DOCTORAL THESIS 1 48 (0-144-0)

SEMINAR COURSES GROUP (not counting credits) 3 credits

Credits (Lecture -Practice–Individual study)

01098080 DOCTORAL SEMINAR 1 1 (0-3-0)

01098081 DOCTORAL SEMINAR 2 1 (0-3-0)

01098082 DOCTORAL SEMINAR 3 1 (0-3-0)

01098083 DOCTORAL SEMINAR 4 1 (0-3-0)

Plan 1; plan 1.2 Applicants who graduate Bachelor degree

DOCTORAL THESIS COURSES GROUP 72 credits

Credits (Lecture -Practice–Individual study)

01098020 DOCTORAL THESIS 72 (0-216-0)

COMPULSORY COURSES GROUP (not counting credits) 3 credits

Credits (Lecture -Practice–Individual study)

01098001 RESEARCH METHODOLOGY 3 (3-0-6)

SEMINAR COURSES GROUP (not counting credits) 3 credits

Credits (Lecture -Practice–Individual study)

01098080 DOCTORAL SEMINAR 1 1 (0-3-0)

01098081 DOCTORAL SEMINAR 2 1 (0-3-0)

01098082 DOCTORAL SEMINAR 3 1 (0-3-0)

01098083 DOCTORAL SEMINAR 4 1 (0-3-0)

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Plan 2; plan 2.1 Applicants who graduate Master degree

DOCTORAL THESIS COURSES GROUP 36 credits
01098030 DOCTORAL THESIS 1 Credits (Lecture -Practice–Individual study)

36 (0-108-0)

SEMINAR COURSES GROUP (not counting credits) 3 credits

Credits (Lecture -Practice–Individual study)

01098080 DOCTORAL SEMINAR 1 1 (0-3-0)

01098081 DOCTORAL SEMINAR 2 1 (0-3-0)

01098082 DOCTORAL SEMINAR 3 1 (0-3-0)

01098083 DOCTORAL SEMINAR 4 1 (0-3-0)

SPECIFIC COURSES GROUP
For plan 2, plan 2.1; Applicants who graduate Master degree in amount of 12 credits

choose from courses in each specific fields or may choose from many fields.

Plan 2; plan 2.2 Applicants who graduate Bachelor degree

DOCTORAL THESIS COURSES GROUP 48 credits

Credits (Lecture -Practice–Individual study)

01098040 DOCTORAL THESIS 48 (0-144-0)

COMPULSORY COURSES GROUP 3 credits

Credits (Lecture -Practice–Individual study)

01098001 RESEARCH METHODOLOGY 3 (3-0-6)

SEMINAR COURSES GROUP (not counting credits) 3 credits

Credits (Lecture -Practice–Individual study)

01098080 DOCTORAL SEMINAR 1 1 (0-3-0)

01098081 DOCTORAL SEMINAR 2 1 (0-3-0)

01098082 DOCTORAL SEMINAR 3 1 (0-3-0)

01098083 DOCTORAL SEMINAR 4 1 (0-3-0)

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ADVANCED MATHERMATICS GROUP 3 credits

For plan 2 . 2 ; Applicants, who graduate Bachelor degree, choose from subjects as

follow;

Credits (Lecture-Practice–Individual study)

01098110 ANALYTICAL AND NUMERICAL METHODS FOR CIVIL 3 (3-0-6)

ENGINEERING

01098111 PROBABILISTIC SYSTEMS ANALYSIS FOR CIVIL ENGINEERING 3 (3-0-6)

01098112 DETERMINISTIC OPTIMIZATION AND DESIGN 3 (3-0-6)

01098113 NUMERICAL METHODS FOR COASTAL AND MARITIME 3 (3-0-6)

ENGINEERING MODELING

SPECIFIC COURSES GROUP
For plan2, plan 2.2; Applicants, who graduate Bachelor degree in amount of 21 credits,

choose from courses in each specific group or may choose from many groups.

1) STRUCTURAL ENGINEERING GROUP

Credits (Lecture -Practice–Individual study)

01098200 ADVANCED THEORY OF STRUCTURES 3 (3-0-6)

01098201 EXPERIMENTAL METHODS IN STRUCTURAL ENGINEERING 3 (3-0-6)

01098202 ENERGY METHODS IN APPLIED MECHANICS 3 (3-0-6)

01098203 MATRIX ANALYSIS FOR STRUCTURES 3 (3-0-6)

01098204 COMPUTER APPLICATIONS IN STRUCTURAL ENGINEERING 3 (3-0-6)

01098205 ADVANCED REINFORCED CONCRETE DESIGN 3 (3-0-6)

01098206 PRESTRESSED CONCRETE DESIGN 3 (3-0-6)

01098207 ADVANCED STRUCTURAL STEEL DESIGN 3 (3-0-6)

01098208 BRIDGE DESIGN 3 (3-0-6)

01098209 STRUCTURAL DYNAMICS 3 (3-0-6)

01098210 FINITE ELEMENT METHODS FOR STRUCTURES 3 (3-0-6)

01098211 SEISMIC DESIGN OF STRUCTURES 3 (3-0-6)

01098212 COMPOSITE MATERIAL STRUCTURE DESIGN 3 (3-0-6)

01098214 THEORY OF ELASTICITY 3 (3-0-6)

01098215 THIN PLATE AND SHELL STRUCTURES 3 (3-0-6)

01098216 ADVANCED CONCRETE TECHNOLOGY 3 (3-0-6)

01098217 SELECTED TOPICS IN STRUCTURAL ENGINEERING 3 (3-0-6)

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01098218 ADVANCED MECHANICS OF MATERIALS 3 (3-0-6)
01098219 CONTINUUM MECHANICS 3 (3-0-6)
01098220 STABILITY OF STRUCTURES 3 (3-0-6)
01098221 COMPUTATIONAL METHODS IN ENGINEERING 3 (3-0-6)
01098222 COMPUTATION IN ENGINEERING I 3 (3-0-6)
01098223 ADVANCED FINITE ELEMENT METHODS 3 (3-0-6)
01098224 NONLINEAR FINITE ELEMENT METHODS 3 (3-0-6)
01098225 COLD-FORMED STEEL BUILDING DESIGN 3 (3-0-6)
01098227 OFFSHORE STRUCTURAL ENGINEERING 3 (3-0-6)
01098228 ADVANCED TOPICS IN STRUCTURAL ENGINEERING I 3 (3-0-6)
01098229 ADVANCED TOPICS IN STRUCTURAL ENGINEERING II 3 (3-0-6)
01098230 ADVANCED TOPICS IN STRUCTURAL ENGINEERING III 3 (3-0-6)

2) GEOTECHNICAL ENGINEERING GROUP

Credits (Lecture -Practice–Individual study)

01098300 ADVANCED SOIL MECHANICS 3 (3-0-6)

01098301 ADVANCED FOUNDATION ENGINEERING 3 (3-0-6)

01098302 GEOTECHNICAL EXPLORATION AND TESTING 3 (2-3-6)

01098303 UNDERGROUND CONSTRUCTION AND TUNNELING 3 (3-0-6)

01098304 SOIL DYNAMICS 3 (3-0-6)

01098305 SOIL STABILIZATION 3 (3-0-6)

01098306 GEOENVIRONMENTAL ENGINEERING 3 (3-0-6)

01098307 GEOPHYSICS 3 (3-0-6)

01098308 THEORETICAL SOIL MECHANICS 3 (3-0-6)

01098309 PHYSICAL AND MINERALOGICAL PROPERTIES OF SOIL 3 (3-0-6)

01098310 GEOMECHANICS 3 (3-0-6)

01098311 ROCK MECHANICS 3 (3-0-6)

01098312 ADVANCED ENGINEERING GEOLOGY 3 (3-0-6)

01098313 SELECTED TOPICS IN GEOTECHNICAL ENGINEERING 3 (3-0-6)

01098314 TUNNELLING TECHNOLOGIES 3 (3-0-6)

01098315 SUBWAY & METRO TUNNELLING 3 (3-0-6)

01098316 RAILWAY & HIGH SPEED TRAIN TUNNELLING 3 (3-0-6)

01098317 HIGHWAY & ROAD TUNNELLING 3 (3-0-6)

01098318 HYDRO POWER & WATER TUNNELLING 3 (3-0-6)

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01098319 CAVERNS & UNDERGROUND OPENINGS

3) TRANSPORTATION ENGINEERING GROUP

Credits (Lecture -Practice–Individual study)

01098400 TRAFFIC ENGINEERING 3 (3-0-6)

01098401 PRINCIPLES OF TRANSPORTATION POLICY 3 (3-0-6)

01098402 ECONOMICS OF TRANSPORTATION APPRAISAL 3 (3-0-6)

01098403 ADVANCED PAVEMENT DESIGN 3 (3-0-6)

01098404 HIGHWAY PLANNING AND ECONOMICS 3 (3-0-6)

01098405 TRAFFIC FLOW THEORY 3 (3-0-6)

01098406 TRANSPORTATION AND ENVIRONMENT 3 (3-0-6)

01098407 PUBLIC TRANSPORTATION PLANNING 3 (3-0-6)

01098408 TRANSPORTATION NETWORK ANALYSIS AND MODELING 3 (3-0-6)

01098409 TRANSPORTATION TECHNOLOGY 3 (3-0-6)

01098410 TRAFFIC CHARACTERISTICS AND OPERATIONS 3 (3-0-6)

01098411 ACCIDENT ANALYSIS AND PREVENTION 3 (3-0-6)

01098412 SELECTED TOPICS IN TRANSPORTATION ENGINEERING 3 (3-0-6)

01098413 INTELLIGENT TRANSPORTATION SYSTEMS: PLANNING 3 (3-0-6)

AND DESIGN

01098414 ADVANCED TRAFFIC MANAGEMENT SYSTEMS 3 (3-0-6)

01098415 ENGINEERING SYSTEM ANALYSIS 3 (3-0-6)

01098416 ADVANCED TRAFFIC SYSTEMS OPERATION AND 3 (3-0-6)

CONTROL ANALYSIS

01098417 LIDAR TECHNOLOGY AND ITS APPLICATIONS 3 (3-0-6)

01098418 INTRODUCTION TO ADJUSTMENT 3 (3-0-6)

OF GEOSPATIAL OBSERVATIONS

4) WATER RESOURCES AND ENVIRONMENTAL ENGINEERING GROUP

Credits (Lecture -Practice–Individual study)

01098553 WATER RESOURCE ENGINEERING 3 (3-0-6)

01098501 ADVANCED HYDROLOGY 3 (3-0-6)

01098502 WATERSHED HYDROLOGY 3 (3-0-6)

01098554 IRRIGATION ENGINEERING 3 (3-0-6)

01098555 OPEN CHANNEL FLOW 3 (3-0-6)

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01098505 HYDRAULIC DESIGN 3 (3-0-6)
01098506 WATER RESOURCES SYSTEM AND MANAGEMENT 3 (3-0-6)
01098556 GIS APPLICATIONS FOR WATER RESOURCES 3 (2-3-6)
01098508 WATER RESOURCES MODELING 3 (2-3-6)
01098557 GROUNDWATER HYDROLOGY 3 (3-0-6)
01098510 GROUNDWATER FLOW MODELING 3 (2-3-6)
01098511 ENVIRONMENTAL SOIL AND WATER CHEMISTRY 3 (3-0-6)
01098512 ENVIRONMENTAL ENGINEERING BIOLOGY 3 (3-0-6)
01098513 WATER AND WASTEWATER TREATMENT PROCESSES 3 (3-0-6)
01098514 WATER QUALITY AND MODELING 3 (2-3-6)
01098515 ENVIRONMENTAL ANALYSIS AND LABORATORY OF 3 (2-3-6)
AQUEOUS SYSTEMS
01098516 SELECTED TOPICS IN WATER RESOURCES 3 (3-0-6)
AND ENVIRONMENTAL ENGINEERING
01098517 INTRODUCTION TO ENVIRONMENTAL ENGINEERING 3 (3-0-6)
01098518 ENGINEERING OPTIMIZATION 3 (3-0-6)
01098519 PRINCIPLES OF WATER AND ENERGY SYSTEMS 3 (3-0-6)
01098520 AIR POLLUTION CONTROL 3 (3-0-6)
01098521 NATURAL DISASTER MITIGATION 3 (3-0-6)
01098522 APPLICATIONS FOR RENEWABLE ENERGY 3 (3-0-6)
01098523 ENERGY AND ENVIRONMENT 3 (3-0-6)
01098524 ENERGY MARKET 3 (3-0-6)
01098525 SPECIAL AND SELECTED TOPICS IN ENVIRONMENTAL AND 3 (3-0-6)
ENERGY ENGINEERING
01098526 ENVIRONMENTAL ENGINEERING CHEMISTRY 3 (3-0-6)
01098527 ENVIRONMENTAL ENGINEERING PRINCIPLES 3 (3-0-6)
01098528 TECHNIQUES FOR ENVIRONMENTAL ANALYSIS 3 (3-0-6)
01098529 WATER TREATMENT AND DESIGN 3 (3-0-6)
01098530 WASTEWATER TREATMENT 3 (3-0-6)
01098531 ENVIRONMENTAL MICROBIOLOGY 3 (3-0-6)
01098532 SOLID AND HAZARDOUS WASTE MANAGEMENT 3 (3-0-6)
01098533 ENVIRONMENTAL TOXICOLOGY 3 (3-0-6)
01098534 FUNDAMENTAL OF PUBLIC HEALTH ENGINEERING 3 (3-0-6)

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01098535 ENVIRONMENTAL SUSTAINABILITY 3 (3-0-6)
01098536 ENVIRONMENTAL MONITORING AND SAMPLING 3 (3-0-6)
01098537 INDUSTRIAL WASTE MANAGEMENT 3 (3-0-6)
01098538 ADVANCED WATER TREATMENT AND DESIGN 3 (3-0-6)
01098539 ADVANCED WASTEWATER TREATMENT 3 (3-0-6)
01098540 ADVANCED ENVIRONMENTAL ENGINEERING 3 (3-0-6)
01098541 WATER QUALITY MODELING AND MANAGEMENT 3 (3-0-6)
01098542 ENVIRONMENTAL RISK AND IMPACT ASSESSMENT 3 (3-0-6)
01098543 SOIL AND GROUNDWATER POLLUTION 3 (3-0-6)
01098544 STORMWATER MANAGEMENT 3 (3-0-6)
01098545 WATER AND SUSTAINABILITY 3 (3-0-6)
01098546 CLIMATE CHANGE: VULNERABILITY, 3 (3-0-6)
IMPACTS, AND ADAPTATION
01098547 HAZADR MAPPING AND RISK ASSESSMENT 3 (3-0-6)
01098548 HYDROGEOLOGY 3 (3-0-6)
01098549 STOCHATIC OPTIMIZATION AND STATISTICS 3 (3-0-6)
FOR ENGINEERING
01098550 DECISION ANALYSIS FOR ENERGY AND 3 (3-0-6)
ENVIRONMENTAL ENGINEERING
01098551 ANALYSIS OF SUSTAINABLE SYSTEMS 3 (3-0-6)
01098552 POST-DISASTER MANAGEMENT 3 (3-0-6)

5) CONSTRUCTION ENGINEERING AND MANAGEMENT GROUP

Credits (Lecture -Practice–Individual study)

01098600 FINANCE AND ACCOUNTS 3 (3-0-6)

01098601 CONSTRUCTION PLANNING AND CONTROL SYSTEM 3 (3-0-6)

01098602 CONSTRUCTION TECHNOLOGY AND EQUIPMENT 3 (3-0-6)

01098604 CONTRACT ADMINISTRATION AND LEGAL STUDIES 3 (3-0-6)

01098605 COMPUTER FOR CONSTRUCTION MANAGEMENT 3 (3-0-6)

01098606 PROJECT MANAGEMENT 3 (3-0-6)

01098607 COST ANALYSIS AND CONTROL 3 (3-0-6)

01098608 PROJECT BUDGETING FOR BUILDING 3(3-0-6)

01098609 MARKETING MANAGEMENT IN CONSTRUCTION 3(3-0-6)

01098610 CONSTRUCTION SAFETY MANAGEMENT 3 (3-0-6)

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01098611 PROJECT FEASIBILITY ANALYSIS 3 (3-0-6)
01098612 REAL ESTATE MANAGEMENT 3 (3-0-6)
01098613 PROPERTY MANAGEMENT 3 (3-0-6)
01098614 VALUATION 3 (3-0-6)
01098615 STRATEGIC MANAGEMENT FOR ENGINEERING 3 (3-0-6)
01098616 RISK MANAGEMENT 3 (3-0-6)
01098617 QUALITY AND QUALITY SYSTEMS 3 (3-0-6)
01098618 PROBLEM SOLVING AND DECISION MAKING 3 (3-0-6)
01098619 VALUE ENGINEERING FOR CONSTRUCTION 3 (3-0-6)
01098627 CONSTRUCTION MATERIALS AND PRODUCT 3 (3-0-6)
01098621 CONCRETE AND STEEL CONSTRUCTION 3 (3-0-6)
01098622 ADVANCED CONSTRUCTION ESTIMATING 3 (3-0-6)
01098623 ADVANCED FOUNDATION CONSTRUCTION 3 (3-0-6)
01098624 ENVIRONMENTAL ENGINEERING 3 (3-0-6)
01098625 PREFABRICATED CONSTRUCTION 3 (3-0-6)
01098626 CONSTRUCTION ECONOMICS 3 (3-0-6)

5) COASTAL AND MARITIME ENGINEERING GROUP

Credits (Lecture -Practice–Individual study)

01098700 COASTAL ENGINEERING 3 (3-0-6)
01098701
01098702 NEARSHORE DYNAMICS AND COASTAL PROCESSES 3 (3-0-6)

01098703 DESIGN, CONSTRUCTION AND MAINTENANCE FOR COASTAL FACILITIES
01098704
01098705 3 (3-0-6)
01098706
COASTAL DYNAMICS 3 (3-0-6)
01098707
01098708 ESTUARY AND COASTLINE HYDRODYNAMICS 3 (3-0-6)
01098709
01098710 COASTAL PROCESSES WITH ENGINEERING APPLICATIONS 3 (3-0-6)

01098711 DIKES AND REVETMENTS, DESIGN, MAINTENANCE AND SAFETY
01098712
ASSESSMENT 3 (3-0-6)

SEDIMENT TRANSPORT, THEORY AND PRACTICE 3 (3-0-6)

RISK AND RELIABILITY IN COASTAL ENGINEERING 3 (3-0-6)

CONSTRUCTION RISK IN COASTAL ENGINEERING 3 (3-0-6)

COASTAL RESOURCE MANAGEMENT IN RESILIENCE, ADAPTATION, AND

COMMUNITY DIVERSITY 3 (3-0-6)

INTEGRATED COASTAL ZONE MANAGEMENT (ICZM) 3 (3-0-6)

COASTAL GEOLOGY 3 (3-0-6)

D.Eng. (Civil Engineering), Department of Civil Engineering, Faculty of Engineering, KMITL

269

01098716 OCEAN ENGINEERING 3 (3-0-6)
01098717
01098721 DESIGN OF OCEAN STRUCTURES 3 (3-0-6)
01098722
01098726 OFFSHORE ENGINEERING 3 (3-0-6)
01098727
01098728 DESIGN OF OFFSHORE STRUCTURES 3 (3-0-6)
01098731
01098736 PORT ENGINEERING 3 (3-0-6)

01098740 COASTAL AND PORT STRUCTURES 3 (3-0-6)

MANAGEMENT OF COASTS AND PORTS 3 (3-0-6)

RIVER ENGINEERING 3 (3-0-6)

DISASTER PREVENTION AND MITIGATION FOR COASTAL AND MARITIME

ZONE 3 (3-0-6)

SELECTED TOPICS IN COASTAL AND MARITIME ENGINEERING 3 (3-0-6)

D.Eng. (Civil Engineering), Department of Civil Engineering, Faculty of Engineering, KMITL

270

3.1.4 Study Plan
Plan 1.1 Applicants who graduate Master degree

Year 1 Semester 1

Code Course title Credits (Lecture -Practice–Individual study)
01098010
01098080 DOCTORAL THESIS 8 (0-24-0)

DOCTORAL SEMINAR 1 (not counting credits) 1 (0-3-0)

TOTAL 8 credits

Year 1 Semester 2

Code Course title Credits (Lecture -Practice–Individual study)
01098010
01098081 DOCTORAL THESIS 8 (0-24-0)

DOCTORAL SEMINAR 2(not counting credits) 1 (0-3-0)

TOTAL 8 credits

Year 2 Semester 1

Code Course title Credits (Lecture -Practice–Individual study)
99198002
01098010 QUALIFYING EXAMINATION (not counting credits) 1 (0-3-0)
01098082
DOCTORAL THESIS 8 (0-24-0)

DOCTORAL SEMINAR 3(not counting credits) 1 (0-3-0)

TOTAL 8 credits

Year 2 Semester 2

Code Course title Credits (Lecture -Practice–Individual study)
01098010
DOCTORAL THESIS 8 (0-24-0)
Code
01098010 TOTAL 8 credits

Code Year 3 Semester 1
01098010
Course title Credits (Lecture -Practice–Individual study)

DOCTORAL THESIS 8 (0-24-0)

TOTAL 8 credits

Year 3 Semester 2

Course title Credits (Lecture -Practice–Individual study)

DOCTORAL THESIS 8 (0-24-0)

TOTAL 8 credits

GRAND TOTAL 48 credits

D.Eng. (Civil Engineering), Department of Civil Engineering, Faculty of Engineering, KMITL

271

Plan 1.2 Applicants who graduate Bachelor degree

Year 1 Semester 1

Code Course title Credits (Lecture -Practice–Individual study)
01098001
01098020 RESEARCH METHODOLOGY(not counting credits) 3 (3-0-6)
01098080
DOCTORAL THESIS 9 (0-27-0)

DOCTORAL SEMINAR 1(not counting credits) 1 (0-3-0)

TOTAL 9 credits

Year 1 Semester 2

Code Course title Credits (Lecture -Practice–Individual study)
01098020
01098081 DOCTORAL THESIS 9 (0-27-0)

Code DOCTORAL SEMINAR 2(not counting credits) 1 (0-3-0)
99198002
01098020 TOTAL 9 credits
01098082
Year 2 Semester 1

Course title Credits (Lecture -Practice–Individual study)

QUALIFYING EXAMINATION (not counting credits) 1 (0-3-0)

DOCTORAL THESIS 9 (0-27-0)

DOCTORAL SEMINAR 3 (not counting credits) 1 (0-3-0)

TOTAL 9 credits

Year 2 Semester 2

Code Course title Credits (Lecture -Practice–Individual study)
01098020
01098083 DOCTORAL THESIS 9 (0-27-0)

DOCTORAL SEMINAR 4 (not counting credits) 1 (0-3-0)

TOTAL 9 credits

Code Course title Year 3 Semester 1
01098020 DOCTORAL THESIS Credits (Lecture -Practice–Individual study)
9 (0-27-0)
TOTAL 9 credits

D.Eng. (Civil Engineering), Department of Civil Engineering, Faculty of Engineering, KMITL

272

Year 3 Semester 2

Code Course title Credits (Lecture -Practice–Individual study)
01098020
DOCTORAL THESIS 9 (0-27-0)

TOTAL 9 credits

Year 4 Semester 1

Code Course title Credits (Lecture -Practice–Individual study)
01098020
DOCTORAL THESIS 9 (0-27-0)

TOTAL 9 credits

Year 4 Semester 2

Code Course title Credits (Lecture -Practice–Individual study)
01098020
DOCTORAL THESIS 9 (0-27-0)

TOTAL 9 credits

GRAND TOTAL 72 Credits

Plan 2.1 Applicants who graduate Master degree

Year 1 Semester 1

Code Course title Credits (Lecture -Practice–Individual study)
01098030
01098080 DOCTORAL THESIS 6 (0-18-0)
01098xxx
01098xxx DOCTORAL SEMINAR 1(not counting credits) 1 (0-3-0)

ASSIGNED COURSE 3 (3-0-6)

ASSIGNED COURSE 3 (3-0-6)

TOTAL 6 credits

Year 1 Semester 2

Code Course title Credits (Lecture -Practice–Individual study)
01098030
01098081 DOCTORAL THESIS 6 (0-18-0)
01098xxx
01098xxx DOCTORAL SEMINAR 2 (not counting credits) 1 (0-3-0)

ASSIGNED COURSE 3 (3-0-6)

ASSIGNED COURSE 3 (3-0-6)

TOTAL 6 credits

D.Eng. (Civil Engineering), Department of Civil Engineering, Faculty of Engineering, KMITL