The prototype of the electric smart stove is an electric stove with briquette fuel from teak leaf waste. The thermoelectric module used is 12 units of a Peltier TEC-12706. Thermoelectric generators take advantage of the Seebeck effect with temperature differences from both sides of the Peltier will produce electrical energy. The developing prototype method of an electric smart stove is carried out in 4 stages. First stage, analyzing geometry requirements and smart stove shape. Second stage is the process making of an electric smart stove. Third stage, installation of a power plant. The fourth stage, measurement of electrical power output. Based on the experiment, it is found that the thermoelectric generator produces 1.31 volts of electrical energy with a delta T of 40 degrees Celsius. As the result, an electric smart stove has not been able to charge the battery because the electric energy produced tends to be small.

Mulayani. D,. Hartono. D., (2018). Pengaruh Efisiensi Energi Listrik pada Sektor Industri dan Komersial terhadap Permintaan Listrik di Indonesia. Jurnal Ekonomi Kuantitatif TerapanVol 11 No.1. pISSN : 2301 – 8968 eISSN : 2303 – 0186

Sa’adah. A. F., et al. (2017). Prediction of Fuel Supply and Consumption in Indonesia with System Dynamics Model. Jurnal Ekonomi dan Pembangunan Indonesia Vol. 17 No. 2 Januari 2017: 118–137 p-ISSN 1411-5212; e-ISSN 2406-9280.

Maslamani M. T., et al. (2014). Development of Solar Thermoelectric Generator. European Scientific Journal March 2014 edition, vol.10, No.9 ISSN: 1857 – 7881 (Print) e - ISSN 1857- 7431

F. Keith dan A. Priyono. 1998. Prinsip-prinsip Perpindahan Panas, Edisi ke-3. Jakarta: Erlangga

Rosyidi. F., M., et al. (2020). Rancang bangun kompor biomassa penghasil energi listrik untuk mengisi baterai 12 V. Teknika: Jurnal Sains dan Teknologi. Vol 16 No 02. 279–284

Nandy P., et al. (2009). Potensi Pembangkit Daya Termoelektrik untuk Kendaraan Hybrid. MAKARA. TEKNOLOGI. VOL. 13. No. 2. November 2009: 53-58

Cekdin C., Nawawi Z., Faizal M. (2020). The usage of thermoelectric generator as a renewable energy source. TELKOMNIKA. Vol. 18, No. 4, August 2020, pp. 2186-2192.

Sugiyanto, et al. (2014). Pemanfaatan panas pada kompor gas LPG untuk pembangkitan energi listrik menggunakan generator thermoelektrik. Jurnal Teknologi, Volume 7 Nomor 2, Desember 2014, 100-105.