The objectives of this study were to investigate the effect of using Wet Cell type electrolyzer on the power and torque of Jupiter MX motorcycles in 2010. To investigate the effect of variations in electrolyte solutions on the use of Wet Cell type electrolyzers on the power and torque of Jupiter MX motorcycles in 2010.

This research was conducted at the Automotive Laboratory for Mechanical Engineering Education, Faculty of Teacher Training and Education, Sebelas Maret University, Surakarta and at PT. Motocourse Technology (MOTOTECH) Yogyakarta. This research is a descriptive quantitative research. The research design used was experimental design. The research sample used a Jupiter MX motorbike in 2010. This experimental tool used a Wet Cell type electrolyzer using a variety of pure water, KOH and NaOH electrolyte solutions. The data collection method used in this research is the experimental method.

The results of this study are the use of the Wet Cell type electrolyzer has an effect on the power and torque of the Jupiter MX motorcycle in 2010, namely an increase in power of 0.97 HP and an increase in torque of 1.88 N.m compared to testing standard engine conditions. The use of 24 gram / liter KOH solution in the Wet Cell type electrolyzer has the highest increase in power and torque levels compared to other variations in the ratio of solutions. There was an increase in power of 0.39 HP and an increase in torque of 0.3 N.m compared to the power and torque of using a Wet Cell type electrolyzer with water as an electrolyte solution without a catalyst and 1.36 HP and 2.18 N.m compared to the power and torque of the standard state. The use of 24 gram / liter NaOH solution has the lowest rate of increase, there is an increase in power of 1.33 HP and 1.84

N.m compared to the power and torque of the standard state.

Asosiasi Industri Sepeda Motor Indonesia (AISI). (2019). Motorcycle Production Wholesales Domestic and Exports. Retrieved Januari 13, 2020, from https://www.aisi.or.id/statistic/

Badan Pusat Statistik (BPS). (2018). Perkembangan Jumlah Kendaraan Bermotor Menurut Jenis. Retrieved Januari 13, 2020, from https://www.bps.go.id/dynamictable/ 2018/01/05/1133/perkembangan- jumlah-kendaraan-bermotor- menurut-jenis-1949-2016

Bugis, H. (2013). Dasar-Dasar Motor Bensin Konvensional. Surakarta: Pendidikan Teknik Mesin FKIP UNS.

Cahyono, N. (2013). Pengaruh Variasi Jumlah Plat Stainless Steel Dan Variasi Pemasangan Saluran Brown Gas pada Elektroliser terhadap Torsi Dan Daya Sepeda Motor Supra-X 125r CW Tahun 2010. Jurnal Ilmiah Pendidikan Teknik Kejuruan. Retrieved from digilib.uns.com

Daryanto. (1985). Teknik Otomotif. Jakarta: PT. BINA AKSARA.

Kristian, B. W. (2016). Pengaruh Penggunaan Hydrogen Eco Booster tipe Dry Cell dengan Variasi Larutan Elektrolit terhadap Torsi dan Daya Sepeda Motor 4 Tak Berbahan Bakar Premium. Jurnal Ilmiah Pendidikan Teknik Kejuruan, 65-69. Retrieved Januari 11, 2020, from

https://digilib.uns.ac.id/dokumen/det ail/57348/Pengaruh-Penggunaan- Hydrogen-Eco-Boostger-Tipe-Dry- Cell-Dengan-Variasi-Larutan- Elektrolit-Terhadap-Torsi-Dan- Daya-Sepeda-Motor-4-Tak- Berbahan-Bakar-Premium

Kusumaningrum, P. P. (2013). Pengaruh Variasi Jumlah Plat Stainless Steel dan Variasi Pemasangan Saluran Brown Gas pada Elektroliser terhadap Konsumsi Bahan Bakar Sepeda Motor Supra-X 125R CW Tahun 2010.

Mahendro, S. (2014). Analisis Penggunaan Elektroliser terhadap Emisi Gas Buang Co dan Hc Pada Sepeda Motor 4 Langkah Merk Suzuki Shogun 125 Cc Tahun Pembuatan 2010. Jurnal Teknik Mesin Mercu Buana, 03. Retrieved November 03, 2020, from https://scholar.google.co.id/scholar?h l=id&as_sdt=0%2C5&q=Analisis+P enggunaan+Elektroliser+Terhadap+ Emisi+Gas+Buang+Co+Dan+Hc+Pa da+Sepeda+Motor+4+Langkah+Mer k+Suzuki+Shogun+125+Cc+Tahun+ Pembuatan+2010&btnG=

Prasetyo. (2019). Analisis Penggunaan Variasi Katalis NaOH, NaCl, dan KOH terhadap Laju Aliran Gas HHO. Jurnal Ilmiah Teknik Mesin, 07. Retrieved November 04, 2020, from http://jurnal.unismabekasi.ac.id/inde x.php/jitm/article/view/1916

Saputra, A. M. (2016). Pengaruh Penggunaan Tipe Elektroliser dan Jenis Larutan pada Hydrogen Eco Booster terhadap Emisi Gas Buang Sepeda Motor 4 tak. Jurnal Ilmiah Pendidikan Teknik Kejuruan. Retrieved November 04, 2020, from

https://digilib.uns.ac.id/dokumen/det ail/57521/Pengaruh-penggunaan- tipe-elektroliser-dan-jenis-larutan- pada-hydrogen-eco-booster- terhadap-emisi-gas-buang-sepeda- motor-4-tak

Sattlemayer, & Po'Schl. (2014). Interaction of Flame Propagation and Pressure Waves During Knocking Combustion in Spark-Ignition Engines. Combustion Science and Technology. Retrieved Februari 5, 2020, from https://www.researchgate.net/publica tion/262944459 Interactiom of Flame Propagation and Pressure Waves During Knocking Combustion in Spark-Ignition Engines

Sudirman, U. (2008). Hemat BBM dengan Air. Jakarta: Kawan Pustaka.

Sugiyono. (2016). Metode Penelitian Kuantitatif, Kualitatif dan R&D. Bandung: PT Alfabet.