Indonesian farmers used to utilize crank to turn on hand tractor machine till today. It may make operators weariness and potentially raised work accident. The purpose of this study was to design a portable electric starter for hand tractor machine. Moreover, the study was addressed to evaluate the performance of the design. The minimum rotational speed (n) and initial torque (T) in decompression and non decompression conditions were adopted to calculate the minimum power (P) requirement. The minumum power of decompression and non decompression were 572.78 watts (≈ 0.74 hp) and 841.75 watts (≈ 1.09 hp), respectively. These values used as a reference in determining the main components, namely the wet type 12 volt battery and the serial type direct current starter motor. The next step, set up additional components, transmission mechanism, as well as concept of portable electric starter. The design was realized by construction and assembly process. A performance test was carried out on the prototype. The performance test of non decompression showed 1.88 seconds for working time, 264.56 Joules for workload (operator), 363.20 rpm for rotating speed and 0.68 watt hours for power requirement. Overall, application portable electric starter indicated better performance than crank. This study proved a high preference of operator on application of portable electric starter in decompression conditions.

Design; electric starter; portable; hand tractor; diesel engine

Aprilianto, R. (2016). Analisis perbedaan sistem starter tekanan udara pada KMP Merawan II dan sistem starter elektrik pada KMP Semah di PT ASDP Indonesia Ferry (Persero) cabang Pontianak. Program Studi Teknik Mesin, Fakultas Teknik, Universitas Muhammadiyah Pontianak.

Badan Standardisasi Nasional. (2009). SNI 7269:2009: Penilaian beban kerja berdasarkan tingkat kebutuhan kalori menurut beban kerja. http://www.academia.edu/8178876/ SNI_7269_2009. [23 Januari 2019].

Kementerian Pertanian RI. (2018). Statistik prasarana dan sarana pertanian tahun 2013 - 2017. http://psp.pertanian.go.id/assets/file/2019/Buku%20Statistik%20Ditjen%20PSP_2013-2017. pdf. [5 April 2018].

Khurmi, R.S., dan Gupta, J.K. (2005). A Text Book of Machine Design (S.I. Units). Eurasia Publishing House, New Delhi.

Meicipto, A., Suprihadi, A., dan Nuryasin, M. (2015). Memperbaiki gangguan motor starter elektrik sepeda motor Honda Astrea Grand 100 cc tahun 1997. Jurusan Teknik Mesin, Politeknik Harapan Bersama Tegal. http://ejournal.poltektegal.ac.id/index.php/nozzle/ article/view/157/156. [24 Oktober 2018].

Najib, I. (2013). Mekanisme katup pada mesin Suzuki G15. Program Studi Diploma 3 Teknik Mesin, Jurusan Teknik Mesin, Fakultas Teknik, Universitas Negeri Semarang.

Nugraha, D.G. (2014). Perencanaan sistem start pada mesin diesel. Jurusan Teknik Sistem Perkapalan, Fakultas Teknologi Kelautan, Institut Teknologi Sepuluh Nopember Surabaya. http://digilib.its.ac.id/ public/ITS-paper-41262-4209100002-paper.pdf. [14 Desember 2017].

Nugraha, S.A. (2016). Identifikasi keselamatan kerja pada area docking kapal di PPN Palabuhanratu, Kabupaten Sukabumi, Propinsi Jawa Barat. Departemen Pemanfaatan Sumberdaya Perikanan, Fakultas Perikanan dan Ilmu Kelautan, Institut Pertanian Bogor.

Nugroho, N., dan Agustina, S. (2015). Analisa motor DC (Direct Current) sebagai penggerak mobil listrik. Mikrotiga. Volume 2. Nomor 1: 30.

Rozaq, A. (1993). Pengembangan Mesin Pertanian. Bahan Kuliah Mahasiswa S2, Program Studi Mekanisasi Pertanian, Fakultas Pasca Sarjana, Universitas Gadjah Mada Yogyakarta.

Zacoeb, A. (2015). Iron and steel. Departemen Teknik Sipil, Fakultas Teknik, Universitas Brawijaya Malang. http://zacoeb.lecture.ub.ac.id/files/2015/03/Sesi-3-Iron-Steel.pdf. [19 Desember 2018].