Study on the production of hydrogen gas from water electrolysis on motorcycle engine

Zikri Zikri, Aken Derisman, Muslim Muslim, Wawan Purwanto, Al Ichlas Imran

Abstract

The primary emphasis of the research is on how to use hydrogen as an energy source for motorcycle fuel. This is an intriguing hypothesis to explore since, at the moment, fossil energy is used to meet fuel demands, although fossil energy supplies are running limited. As a result, hydrogen energy is an option that may be employed as a fuel substitute utilizing commercial water raw materials and the electrolysis method. The research goal is to demonstrate that electrolysis of water to hydrogen gas may occur while the vehicle is in use, to compute the amount of hydrogen gas generated, and to determine the time the vehicle can be utilized using the gas fuel created. The long-term goal of this study is to create a vehicle powered entirely by hydrogen gas produced by water electrolysis, particularly for motorcycles. The experimental approach was employed in this investigation, with three phases of testing on a carburetor-type motorbike utilizing 1, 2, and 3 liters of Pertamax gasoline. The results demonstrated that the process of electrolysis of water into hydrogen gas on motorcycles is possible; however, the amount of gas generated is still quite little. The hydrogen gas generated by this electrolysis method is only 0.06 bar when 1 liter of fuel is used, 0.42 bar when 2 liters of fuel are used, and 0.98 bar when 3 liters of fuel are used.



Keywords


alternative fuel; water electrolysis; brown gas.

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References


M. Derbeli, O. Barambones, and L. Sbita, “A robust maximum power point tracking control method for a PEM fuel cell power system,” Applied Sciences, vol. 8, no. 12, 2018.

S. Ehsan, M. Abdul, and N. Aghili, “The scenario of greenhouse gases reduction in Malaysia,” Renew. Sustain. Energy Rev., vol. 28, no. December 1997, pp. 400–409, 2013.

M. S. Al Amin and N. Nurdiana, “Pemanfaatan hydrogen dari HHO generator sebagai penghemat bahan bakar pada prime mover generator,” Pros. Semin. Nas. II Has. Litbangyasa Ind., pp. 49–55, 2019.

J. Andrews and B. Shabani, “Where does hydrogen fit in a sustainable energy economy ?,” Int. Energy Congress 2012, vol. 49, pp. 15–25, 2012.

S. Dutta, “A review on production , storage of hydrogen and its utilization as an energy resource,” J. Ind. Eng. Chem., vol 20, no. 4, pp 1148 – 1156, 2014.

T. Hübert, L. Boon-Brett, G. Black, and U. Banach, “Hydrogen sensors - a review,” Sensors Actuators, B Chem., vol. 157, no. 2, pp. 329–352, 2011.

S. Ehsan, A. Mahmoudzadeh, and M. Abdul, “A review on green energy potentials in Iran,” Renew. Sustain. Energy Rev., vol. 27, pp. 533–545, 2013.

Y. Manoharan et al., “Hydrogen fuel cell vehicles; current status and future prospect,” Appl. Sci., vol. 9, no. 11, 2019.

M. I. Devi, K. Ismail, and A. Nur, “Techno-economic analysis of biogas utilization as an alternative fuel,” J. Mechatronics, Electr. Power, Veh. Technol., vol. 5, no. 1, pp. 51–58, 2014.

Y. Putrasari, H. Abimanyu, A. Praptijanto, A. Nur, Y. Irawan, and S. P. Simanungkalit, “Experimental investigation of 2nd generation Bioethanol derived from empty-fruit-bunch (EFB) of oil-palm on performance and exhaust emission of SI engine,” J. Mechatronics, Electr. Power, Veh. Technol., vol. 5, no. 1, pp. 9–16, 2014.

R. Fajar and H. Setiapraja, “The influence of injection timing on performance characteristics of diesel engine using Jatropha biodiesel with and without partial hydrogenation,” J. Mechatronics, Electr. Power, Veh. Technol., vol. 5, no. 1, pp. 59–66, 2014.

Y. Putrasari et al., “Thermal efficiency and emission characteristics of a diesel-hydrogen dual fuel CI engine at various loads condition,” J. Mechatronics, Electr. Power, Veh. Technol., vol. 9, no. 2, pp. 49–56, 2018.

R. Chaubey, S. Sahu, O. O. James, and S. Maity, “A review on development of industrial processes and emerging techniques for production of hydrogen from renewable and sustainable sources,” Renew. Sustain. Energy Rev., vol. 23, pp. 443–462, 2013.

R. F. I. Muttaqin, Abdillah and E. I. W. Fathona, “Analisys the effect of geometry on electrode plates in HHO generators toward hho gases flow rate that be produced,” e-Proceeding Eng., vol. 5, no. 14, pp. 854–861, 2018.

B. V. Chauhan, G. P. Rathod, and T. M. Patel, “An experimental investigation of HHO gas and varying compression ratio on performance characteristics of constant speed diesel engine,” IOSR J. Mech. Civ. Eng. Ver. III, vol. 13, no. 2, pp. 2320–334, 2016.

S. E. Hosseini, M. A. Wahid, and A. Ganjehkaviri, “An overview of renewable hydrogen production from thermochemical process of oil palm solid waste in Malaysia,” Energy Convers. Manag., vol. 94, pp. 415–429, 2015.

S. E. Hosseini, M. A. Wahid, M. M. Jamil, A. A. M. Azli, and M. F. Misbah, “A review on biomass-based hydrogen production for renewable energy supply,” International Journal of Energy Research, vol. 39, no. 12, August, pp. 1597–1615, 2015.

S. Rajendran, R. J. Rathish, S. S. Prabha, and A. Anandan, “Green Electrochemistry - A Versatile Tool in Green Synthesis: an Overview,” Port. Electrochim. Acta, vol. 34, no. 5, pp. 321–342, 2016.

N. M. Ratminingsih, “Experimental research in second language instruction," Prasi, vol. 6, no. 11, pp. 31-40, 2010.


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