Directories staff

Photo

Position

Associate Professor

Name

Assoc Prof Dr Syahrir Ridha

Nationality

Indonesia

syahrir.ridha@utp.edu.my

Department

Petroleum Engineering

Qualifications

2013, PhD in Petroleum Engineering by Universiti Teknologi PETRONAS

2009, Master in Petroleum Engoneering by Universiti Teknologi PETRONAS

2006, Degree in Mining Engineering by Universitas Islam Bandung

Specialization

Drilling technology, Well cementing, Drilling fluids and Wellbore integrity

Research

Geopolymerization mechanism of fly-ash wirh nano silica admixture as acidic resistance for oilwell cementing

Horizontal well design with special emphasis on hole cleaning using drilling simulator

Investigating the microstructure deformation and degradation of an alternative cement system for wellbore integrity during EOR CO2 Flooding under reservoir condition

Comparative Study of Community Awareness Towards Tsunami Disaster in Malaysia, Japan and Indonesia

Potential application of geopolymer based cement for Glass Fiber Reinforce Concrete (GFRC) containing lightweight aggregate

Preliminary Evaluation of Graphene as Colloid Nanomaterial in Aqueous Drilling Fluid

Investigation on resistance of geopolymer oilwell cement over acid stimulation

Empirical Equation for Strength Prediction of Class G Oilwell Cement during Early Ages by Electrical Conductivity

Investigating the physical properties of the mud rheology test using graphene-based fluid loss control additive

Publications
1	Ridha, S., Setiawan, R.A., Pramana, A.A. et al. Impact of wet supercritical CO2 injection on fly ash geopolymer cement under elevated temperatures for well cement applications. J Petrol Explor Prod Technol (2019). https://doi.org/10.1007/s13202-019-0693-y.
2	Ganat, T., Ridha, S., Hairir, M. et al. Experimental investigation of high-viscosity oil–water flow in vertical pipes: flow patterns and pressure gradient. J Petrol Explor Prod Technol 9, 2911–2918 (2019). https://doi.org/10.1007/s13202-019-0677-y.
3	Ibrahim, A., Ridha, S., Amer, A., Shahari, R., Ganat, T. “Influence of Degree of Dispersion of Noncovalent Functionalized Graphene Nanoplatelets on Rheological Behaviour of Aqueous Drilling Fluids”, International Journal of Chemical Engineering, Volume 2019. https://doi.org/10.1155/2019/8107168.
4	Ridha, S., Abd Hamid, A I., Setiawan, R.A., Ibrahim, A., “Microstructure Behavior of Fly Ash-Based Geopolymer Cement Exposed to Acidic Environment for Oil Well Cementing”, Arabian Journal for Science and Engineering, 2018. https://doi.org/10.1007/s13369-018-3183-5.
5	Ridha, S., Abd Hamid, I.A., Hanim, C.K.A., “Influence of different brine water salinity on mechanical properties of fly ash-based geopolymer cement”, International Journal of Structural Integrity, Vol. 9 (2), 2018.
6	Ridha, S., Setiawan, R.A., Abd Hamid, A.I., Shahari, R., “The influence of CO2 accelerated carbonation on alkali-activated fly ash cement under elevated Temperature and pressure”, Material Science & Engineering Technology (Materialwissenschaft und Werkstofftechnik), Vol. 49 (4), 2018. https://doi.org/10.1002/mawe.201800029.
7	Pratama, E., Ismail, M. S., and Ridha, S. “Identification of coal seams suitability for carbon dioxide sequestration with enhanced coalbed methane recovery: a case study in South Sumatera Basin, Indonesia”, Clean Technologies and Environmental Policy, Vol. 20 (3), pp. 581-587, 2018.
8	Ridha, S., Abd Hamid, A.I., Abdul Halim, A.H., and Zamzuri, N A., “Elasticity and expansion test performance of geopolymer as oil well cement”, IOP Conf. Ser.: Earth Environ. Sci. 140 012147, 2018.
9	Momeni, M., Hosseini, S.J., Ridha, S., Laruccia, M.B., Liu, X., “An optimum drill bit selection technique using artificial neural networks and genetic algorithms to increase the rate of penetration”, Journal of Engineering Science and Technology, Vol. 13 (2), pp. 361-372, 2018.
10	Ridha, S., Jamali, M. F., Setiawan, R. A. "Thickening Time Compatibility of Geopolymer Cement for Drilling Application", Applied Mechanics and Materials, Vol. 864, pp. 65-70, 2017.
11	Kanesan, D., Ridha, S., Suppiah, R., Ravichandran, T. “Mechanical properties of different alkali activated slag content for oilwell cement under elevated conditions”, Contemporary Engineering Sciences, Vol 10 (2017), 165-177.
12	M. Momeni, S. Ridha, S. J. Hosseini, X. Liua, A. Atashnezhadb, S. Ghaheri, “Optimum drill bit selection by using bit images and mathematical investigations”, International Journal of Engineering, Transaction B: Application, Vol. 30 (11), 2017.
13	Pratama, E., Ismail, M. S., and Ridha, S., Buntoro, Aris. “An alternative approach for dynamic modeling in a complexly structured and heterogeneous carbonate gas reservoir: a field case study”, Arabian Journal of Geosciences, 10:355, 2017.
14	Ridha, S., Lubis, L.A., Setiawan, R.A., Mohar, J.M.R., “Investigation on mixed oil-cement for wellbore integrity using acoustic velocity”, Key Engineering Materials 740:190-194, 2017.
15	Pratama, E., Ismail, M. S., and Ridha, S. “Screening Criteria of Optimum Carbon Dioxide Injection for Enhanced Coalbed Methane Recovery and Prediction of Carbon Dioxide Storage Capacity: A Case Study in South Sumatera Basin, Indonesia”, Chemical Engineering Transactions, Vol 56, 2017.
16	Ridha, S., Pratama, E., Ismail, M. S. “Performance Assessment of CO2 Sequestration in a Horizontal Well for Enhanced Coalbed Methane Recovery in Deep Unmineable Coal Seams”, Chemical Engineering Transactions, Vol 56, 2017.
17	Bataee, M., Irawan, S., Namazi-saleh, F., Ridha, S. “Development of Stress Model near the Wellbore Using an Iterative Coupling Method”, International Journal of Geomechanics, Vol. 17 (2), 2017.
18	Pratama, E., Ismail, M. S., and Ridha, S. “An integrated workflow to characterize and evaluate low resistivity pay and its phenomenon in a sandstone reservoir”, Journal of Geophysics and Engineering, 14 (3), 2017.
19	Alias, N. S., Ridha, S., Yerikania, U. “Effect of Chemical EOR on Class G Oilwell Cement Integrity under Elevated Conditions”, Procedia Engineering 148 (2016) 1066 – 1073.
20	Bataee, M., Irawan, S., Ridha, S., Hematpour, H., Hamdi, Z. “Wellbore Failure during Water-Alternating-Gas Injection by Use of Flow-Stress Coupling Method”, SPE Journal No 183672, June 2016.
21	Bataee, M., Irawan, S., Ridha, S., “Wellbore stability model based on iterative coupling method in water alternating gas injection”, Journal of Petroleum Exploration and Production Technology, December 2015.
22	Ridha, S., Irawan, S., Ariwahjoedi, "Prediction Equation of Class G Cement Permeability under Reservoir Conditions", June 2014, Arabian Journal for Science and Engineering. Vol. 39: 6, pp. 5219 – 5228.

Publications

No.

Title of Publication

Ridha, S., Setiawan, R.A., Pramana, A.A. et al. Impact of wet supercritical CO2 injection on fly ash geopolymer cement under elevated temperatures for well cement applications. J Petrol Explor Prod Technol (2019). https://doi.org/10.1007/s13202-019-0693-y.

Ganat, T., Ridha, S., Hairir, M. et al. Experimental investigation of high-viscosity oil–water flow in vertical pipes: flow patterns and pressure gradient. J Petrol Explor Prod Technol 9, 2911–2918 (2019). https://doi.org/10.1007/s13202-019-0677-y.

Ibrahim, A., Ridha, S., Amer, A., Shahari, R., Ganat, T. “Influence of Degree of Dispersion of Noncovalent Functionalized Graphene Nanoplatelets on Rheological Behaviour of Aqueous Drilling Fluids”, International Journal of Chemical Engineering, Volume 2019. https://doi.org/10.1155/2019/8107168.

Ridha, S., Abd Hamid, A I., Setiawan, R.A., Ibrahim, A., “Microstructure Behavior of Fly Ash-Based Geopolymer Cement Exposed to Acidic Environment for Oil Well Cementing”, Arabian Journal for Science and Engineering, 2018. https://doi.org/10.1007/s13369-018-3183-5.

Ridha, S., Abd Hamid, I.A., Hanim, C.K.A., “Influence of different brine water salinity on mechanical properties of fly ash-based geopolymer cement”, International Journal of Structural Integrity, Vol. 9 (2), 2018.

Ridha, S., Setiawan, R.A., Abd Hamid, A.I., Shahari, R., “The influence of CO2 accelerated carbonation on alkali-activated fly ash cement under elevated Temperature and pressure”, Material Science & Engineering Technology (Materialwissenschaft und Werkstofftechnik), Vol. 49 (4), 2018. https://doi.org/10.1002/mawe.201800029.

Pratama, E., Ismail, M. S., and Ridha, S. “Identification of coal seams suitability for carbon dioxide sequestration with enhanced coalbed methane recovery: a case study in South Sumatera Basin, Indonesia”, Clean Technologies and Environmental Policy, Vol. 20 (3), pp. 581-587, 2018.

Ridha, S., Abd Hamid, A.I., Abdul Halim, A.H., and Zamzuri, N A., “Elasticity and expansion test performance of geopolymer as oil well cement”, IOP Conf. Ser.: Earth Environ. Sci. 140 012147, 2018.

Momeni, M., Hosseini, S.J., Ridha, S., Laruccia, M.B., Liu, X., “An optimum drill bit selection technique using artificial neural networks and genetic algorithms to increase the rate of penetration”, Journal of Engineering Science and Technology, Vol. 13 (2), pp. 361-372, 2018.

Ridha, S., Jamali, M. F., Setiawan, R. A. "Thickening Time Compatibility of Geopolymer Cement for Drilling Application", Applied Mechanics and Materials, Vol. 864, pp. 65-70, 2017.

Kanesan, D., Ridha, S., Suppiah, R., Ravichandran, T. “Mechanical properties of different alkali activated slag content for oilwell cement under elevated conditions”, Contemporary Engineering Sciences, Vol 10 (2017), 165-177.

M. Momeni, S. Ridha, S. J. Hosseini, X. Liua, A. Atashnezhadb, S. Ghaheri, “Optimum drill bit selection by using bit images and mathematical investigations”, International Journal of Engineering, Transaction B: Application, Vol. 30 (11), 2017.

Pratama, E., Ismail, M. S., and Ridha, S., Buntoro, Aris. “An alternative approach for dynamic modeling in a complexly structured and heterogeneous carbonate gas reservoir: a field case study”, Arabian Journal of Geosciences, 10:355, 2017.

Ridha, S., Lubis, L.A., Setiawan, R.A., Mohar, J.M.R., “Investigation on mixed oil-cement for wellbore integrity using acoustic velocity”, Key Engineering Materials 740:190-194, 2017.

Pratama, E., Ismail, M. S., and Ridha, S. “Screening Criteria of Optimum Carbon Dioxide Injection for Enhanced Coalbed Methane Recovery and Prediction of Carbon Dioxide Storage Capacity: A Case Study in South Sumatera Basin, Indonesia”, Chemical Engineering Transactions, Vol 56, 2017.

Ridha, S., Pratama, E., Ismail, M. S. “Performance Assessment of CO2 Sequestration in a Horizontal Well for Enhanced Coalbed Methane Recovery in Deep Unmineable Coal Seams”, Chemical Engineering Transactions, Vol 56, 2017.

Bataee, M., Irawan, S., Namazi-saleh, F., Ridha, S. “Development of Stress Model near the Wellbore Using an Iterative Coupling Method”, International Journal of Geomechanics, Vol. 17 (2), 2017.

Pratama, E., Ismail, M. S., and Ridha, S. “An integrated workflow to characterize and evaluate low resistivity pay and its phenomenon in a sandstone reservoir”, Journal of Geophysics and Engineering, 14 (3), 2017.

Alias, N. S., Ridha, S., Yerikania, U. “Effect of Chemical EOR on Class G Oilwell Cement Integrity under Elevated Conditions”, Procedia Engineering 148 (2016) 1066 – 1073.

Bataee, M., Irawan, S., Ridha, S., Hematpour, H., Hamdi, Z. “Wellbore Failure during Water-Alternating-Gas Injection by Use of Flow-Stress Coupling Method”, SPE Journal No 183672, June 2016.

Bataee, M., Irawan, S., Ridha, S., “Wellbore stability model based on iterative coupling method in water alternating gas injection”, Journal of Petroleum Exploration and Production Technology, December 2015.

Ridha, S., Irawan, S., Ariwahjoedi, "Prediction Equation of Class G Cement Permeability under Reservoir Conditions", June 2014, Arabian Journal for Science and Engineering. Vol. 39: 6, pp. 5219 – 5228.

Membership
1	Member	2017 - 2020	Energy Institute
2	Member	2014 - 2020	Society of Petroleum Engineers
3	Graduate Engineer	2017 - Present	Board of Engineers Malaysia

Membership

No.

Position

From - To (Year)

Professional Bodies / Association

Member

2017 - 2020

Energy Institute

Member

2014 - 2020

Society of Petroleum Engineers

Graduate Engineer

2017 - Present

Board of Engineers Malaysia

Research
No.	Level of involvement	Research Title
1	Leader	Geopolymerization mechanism of fly-ash wirh nano silica admixture as acidic resistance for oilwell cementing
2	Leader	Horizontal well design with special emphasis on hole cleaning using drilling simulator
3	Leader	Investigating the microstructure deformation and degradation of an alternative cement system for wellbore integrity during EOR CO2 Flooding under reservoir condition
4	Leader	Comparative Study of Community Awareness Towards Tsunami Disaster in Malaysia, Japan and Indonesia
5	Leader	Potential application of geopolymer based cement for Glass Fiber Reinforce Concrete (GFRC) containing lightweight aggregate
6	Leader	Preliminary Evaluation of Graphene as Colloid Nanomaterial in Aqueous Drilling Fluid
7	Leader	Investigation on resistance of geopolymer oilwell cement over acid stimulation
8	Leader	Empirical Equation for Strength Prediction of Class G Oilwell Cement during Early Ages by Electrical Conductivity
9	Member	Investigating the physical properties of the mud rheology test using graphene-based fluid loss control additive