Modification of single-fuel diesel engine into dual-fuel diesel engine has been done by researchers to solve the problem of depletion petroleum reserves. Even the problem petroleum reserves are projected to be exhausted in the next 50 years. Gas-Oil fuel engine focus on solar-CNG as a fuel. Explanation of the difference in the fuel ratio of diesel engines with Gas-Oil fuel diesel engines has considerable differences. The factors that are discussed here are the factors of mixing air and fuel. The amount of fuel in the Gas-Oil fuel diesel engine causes an increase in the gas fuel mass flow rate (CNG), although with the addition of fuel gas, the mass flow rate of diesel oil is reduced. In this paper, the Gas-Oil fuel engines research and development fueled using solar-CNG are highlighted to keep the performance of the engine. Modification focused on air intake valve to give maximum turbulent flow ratio and effect on increasing Gas-Oil fuel engine performance. The high activities for future Gas-Oil fuel engines  research and development to meet future Gas-Oil fuel engine solar-CNG is recorded in the paper.

. Mulyatno. (2013). Kajian teknis dan ekonomis penggunaan Gas-Oil fuel system (LPG-Solar) pada mesin kapal nelayan tradisional, e-Jurnal Departemen Teknik Perkapalan Universitas Diponegoro. Semarang.

. Yoko, D. and Sudarmanta, B. (2016) Studi Eksperimen Unjuk Kerja Mesin Diesel Menggunakan Sistem Gas-Oil fuel Solar - Gas CNG dengan Variasi Tekanan Injeksi Gas dan Derajat Waktu Injeksi, 5(2), pp. 604–609.

. Cahyono B., Nugroho T.F., Mardhi, Bakar R.A., (2016), Effect of swirl generator intake manifold on engine performance using ethanol/gasoline blend, Asian Journal of Applied Science, Vol 04 (06).

. Arifin Siagian and Mawardi Silaban. (2011). Performa dan Karakteristik Emisi Gas Buang Mesin Diesel Berbahan Bakar Ganda, Jurnal Teknik Mesin, 13(1), pp. 49–54. doi: 10.9744/jtm.13.1.49-54.

. Ishak Aris. (2015). CNG-diesel Gas-Oil fuel engine : a review on emissions and alternative fuels, pp 6-7.

. Altenpohl, Rogner H. (1988). Compressed Natural Gas (CNG): Potential Applications For Advanced Transportation Tanks And Vehicle Systems. Laxenburg. Austria.

. Narain, U. and Krupnick, A. (2007). The Impact of Delhi’s CNG Program on Air, Resources for the Future Discussion Paper, (February). doi: 10.2139/ssrn.969727.

. Imran S., Embrson D.R., Ihracska B., Wen D.S., Crookes R.J., Korakianitis T., (2014), Effect of pilot fuel quantity and type on performance and emissions of natural gas and hydrogen based combustion in compression ignition engine, International Journal Hydrogen Energy 39 (10), pp 5163-5175.

. Semin and Bakar R.A., (2008), A technical review of compressed natural gas as an alternative fuel for internal combustion engines, American Journal of Engineering and Applied Sciences 1, pp 302-311.

.Sinaga, D. F., Sanuri, S. and Zuhdi, A. (2014). Pengaruh Perubahan Bentuk Intake Manifold Terhadap Unjuk Kerja Motor Diesel Dengan Metode Simulasi, Jurnal Teknik Pomits, 3(1), pp. 30–33.

.Sampurno, S. (2006). Pengaruh variasi penyetelan celah katup masuk terhadap efisiensi volumetrik rata-rata pada motor diesel isuzu oanther C 223 T..

.Pratama, A., Ariana I. M. (2008). Studi Modifikasi Intake Valve Dengan Penambahan Sirip Untuk Optimalisasi Swirl Dengan Simulasi CFD. ITS. Surabaya.

.Azadi, M., Roozban, M. and Mafi, A. (2013). The Journal of Engine Research Failure analysis of an intake valve in a gasoline engine, 26(spring 2012), pp. 3–9.

.Lavhale, Y. K. and Salunke, J. (2014). Overview of failure trend of inlet &amp : exhaust valve, International Journal of Mechanical Engineering and Technology, 976(3), pp. 976–6359.

.Arif, A. et al. (2015). Karakterisasi Performa Mesin Diesel Gas-Oil fuel Solar-Cng Tipe Lpig Dengan Pengaturan, (2013), pp. 1–8.

.Hiregoudar, Y. and Shiva, P. (2014). Effect of Inlet Air Swirl On Four Stroke Single Cylinder Diesel Engine Performance, International Journal of Recent Development in Engineering and Technology, 2(6), pp. 95–103.

.Yerrennagoudaru, H. and prasad Desai, S. (2015). Generation of Air Swirl through Inlet Poppet Valve Modification and To Enhance Performance on Diesel Engine, IOSR Journal of Mechanical and Civil Engineering, 12(6), pp. 2278–1684. doi: 10.9790/1684-12665465.

.Hidayat, Sanuri, and Zuhdi, A. (2013). Kajian Eksperimental Unjuk Kerja Gas-Oil fuel Engine Hasil Modifikasi Dari Diesel Engine. ITS. Surabaya.

.Hasannuddin, A. K. et al. (2016). Performance, emissions and lubricant oil analysis of diesel engine running on emulsion fuel, Energy Conversion and Management. Elsevier Ltd, 117, pp. 548–557. doi: 10.1016/j.enconman.2016.03.057.

.Clarke, Bruyn D. (2012). Vehicle Conversion to Natural Gas or Biogas. OMAFRA Factsheet. Canada.

.Wijaya, P. D. and Ariana, I. M. (2009). Rancang Bangun Sistem Penginjeksian Gas Pada Modifikasi Gas-Oil fuel Diesel Engine, pp. 1–6.

.Ehsan Md, Bhuiyan. (2009). Gas-Oil fuel performance of small diesel for application with less frequent load... International Journal of Mechanical and Mechatronics Engineering (IJMME). Volume 9 (10), pp 30-39.

.Zoltowski A., (2014), Investigation of combustion process in Gas-Oil fuel diesel engine, Journal of KONES Powertrain and Transport, Volume 21, no 2, pp. 303-309.

.Wei, L. and Geng, P. (2016) A review on natural gas/diesel Gas-Oil fuel combustion, emissions and performance, Fuel Processing Technology. Elsevier B.V., 142, pp. 264–278. doi: 10.1016/j.fuproc.2015.09.018.

.Semin, Cahyono B. Amiadji. Bakar R.A. (2014). Air-fuel mixing and fuel flow velocity modeling of multi holes injector nozzel on CNG marine engine. Procedia Earth and Planetary Science 14. 101-109.

.Shrirao P.N., Sambhe R.U., (2012). Effect of Swirl Induction by Internally Treaded Inlet Manifolds on Exhaust Emissions on Single Cylinder (DI) Diesel Engine, International Journal of Science and Research, Vol 3 (7), pp 1718-1722.

.Zhang Q. ; Li M. Shao S., (2015). Combustion process and emissions of heavy duty engine fueled with directly injected natural gas and pilot diesel.

.Zhang, H. and Mastorakos, E. (2017) Modelling local extinction in Sydney swirling non-premixed flames with LES/CMC, Proceedings of the Combustion Institute. Elsevier Inc., 36(2), pp. 1669–1676. doi: 10.1016/j.proci.2016.07.051.

.Sahoo B.B. ; Sahoo N. ; Saha U.K., (2009). Effect of engine parameters and type of gaseous fuel on the performance of dual-fuel gas diesel engine – A critical riview, Renewable and Sustainable Energy Riviews, Volume 13, pp 1151-1184.

.Semin. A.R. Ismail. and R.A. Bakar., “Investigation of GAS Engine Intake Port Gas Flow Temperature Based on Steady-State and Transient Simulation”,. European Journal of Scientific Research 22 (3), 2008.

.Semin. A.R. Ismail. R.A Bakar and I. Ali, “Heat Transfer Investigation of Intake Port Engine Based on Steady-state and Transienttion”, American Journal of Applied Sciences 5 (11), 2008.

.Abdul Rahim Ismail. Rosli Abu. Bakar. Semin. and Ismail Ali, “Computer Modelling for 4-Stroke Direct Injection Diesel Engine,” Advanced Materials Research, Volumes 33-37, 2008.

.A.R. Ismail. R.A. Bakar and Semin. “An Investigation of Valve Lift Effect on Air Flow and CD of Four Stroke Engines Based on Experiment.”, American Journal of Applied Sciences 5 (8). 2008.

.Semin. R.A. Bakar and A.R. Ismail., “Investigation of Diesel Engine Performance Based on Simulation”, American Journal of Applied Sciences 5 (6), 2008.

.Semin. R.A. Bakar and A.R. Ismail. “Computational Visualization and Simulation of Diesel Engines Valve Lift Performance Using CFD”. American Journal of Applied Sciences 5 (5). 2008.

.Semin. A.R. Ismail and R.A. Bakar, “Comparative Performance of Direct Injection Diesel Engines Fueled Using GAS Based on GT-POWER Simulation”, American Journal of Applied Sciences 5 (5), 2008.

.R.A. Bakar. Semin and A.R. Ismail, “Fuel Injection Pressure Effect on Performance of Direct Injection Diesel Engines Based on Experiment”, American Journal of Applied Sciences 5 (3), 2008.

.R.A. Bakar. Semin. A.R. Ismail and I. Ali, “Computational Simulation of Fuel Nozzle Multi Holes Geometries Effect on Direct Injection Diesel Engine Performance Using GT-POWER”, American Journal of Applied Sciences 5 (2), 2008.

.Semin. R.A Bakar. and A.R. Ismail., “Compressed Natural Gas as an Alternative Fuel for Internal Combustion Engines: A Technical Review”, International Review of Mechanical Engineering Vol. 3 (2), 2009.

.Semin. A. Idris. and R.A Bakar, “Effect of Port Injection GAS Engine using Injector Nozzle Multi Holes on Air-Fuel Mixing in Combustion Chamber”, European Journal of Scientific Research 34 (1), 2009.

.Semin. A. Idris. and R.A. Bakar, “An Overview of Compressed Natural Gas as an Alternative Fuel and Malaysian Scenario”, European Journal of Scientific Research 34 (1), 2009.

.Semin. A.R. Ismail. and R.A. Bakar, “Gas Fuel Spray Simulation of Port Injection Compressed Natural Gas Engine using Injector Nozzle Multi Holes”, European Journal of Scientific Research 29(2), 2009.

.Semin, A. Idris. R.A. Bakar. A.R. Ismail., “Study of the Engine Cylinder Fluid Characteristics for Diesel Engine Converted to GAS Engine”, European Journal of Scientific Research 26 (3), 2009.

.Semin, A.R. Ismail. and T.F. Nugroho., “Experimental and Computational of Engine Cylinder Pressure Investigation on the Port Injection Dedicated GAS Engine Development”, J. Applied Sci.10 (2). pp: 107-115, 2010.

.Semin, “Injector Nozzle Spray on Compressed Natural Gas Engines: A Technical Review”, International Review of Mechanical Engineering 6. (5), 2012.

.Semin, RA Bakar, Simulation and experimental method for the investigation of compressed natural gas engine performance”, International Review of Mechanical Engineering 7 (7) , pp. 1427 7 (7), 1427, 2013.

.Semin and R.A. Bakar, “Computational Modelling the Effect of New Injector Nozzle Multi Diameter Holes on Fuel-Air Mixing Homogeneous of GAS Engine”, International Journal of Applied Engineering Research. Volume 9 (21). pp. 9983, 2014.

.Semin, “Analysis of Biogas as an Alternative Fuel for Electric Generator Engine in Bawean Island – Indonesia”, International Journal of Applied Engineering Research 10 (16). pp. 35313-35317, 2015.

.Semin, “Investigation the Effect of Injector Nozzle Multi Holes Geometry on Fuel Spray Distribution Flow of GAS Engine Based on Computational Modeling”, International Journal of Applied Engineering Research 10 (15). pp.36087-36095, 2015.

.Semin, B Cahyono, Amiadji, RA Bakar, “Air-fuel Mixing and Fuel Flow Velocity Modeling of Multi Holes Injector Nozzle on CNG Marine Engine”, Procedia Earth and Planetary Science 14, 101 – 109, 2015.

.H Prastowo, Semin, MB Zaman, Amiadji, TB Musrijadi, A Santoso, “Investigation of Fuel Flow Velocity on CNG Engine using New Injector”, Asian Journal of Engineering and Technology 4 (2), 38 – 43, 2016.

.Mansor, W. N. (2014). Gas-Oil fuel Engine Combustion and Emissions – an Experimental, p. 162.

.Yerrennagoudaru, H. and prasad Desai, S. (2015). Generation of Air Swirl through Inlet Poppet Valve Modification and To Enhance Performance on Diesel Engine, IOSR Journal of Mechanical and Civil Engineering, 12(6), pp. 2278–1684. doi: 10.9790/1684-12665465.