PROTOTYPE ALAT BEJANA PEMBAKARAN

Sugeng Priyanto

Abstract


The process of designing a pyrolysis reactor vessel with an electric heating system is intended to design a pyrolysis reactor vessel functioned as a heating chamber for pyrolysis test materials to convert biomass into energy. The vertically-designed torspherical vessel consists of a torispherical shell and head, with a temperature control system designed using a PID control temperature device as its main controller and uses SSR as a voltage controller actuator and uses thermocouple as its temperature sensor and on its heating system using electric heating element. obtained from the test results is the heating rate obtained is 0.25³C / sec with the maximum temperature obtained 480˚C within 30 minutes and the cost required for a single process of Rp 5,500,

References


Adityo Suryo Aji Wibowo (2011), Studi Sifat Minyak Pirolisis Campuran Sampah Biomassa dan Sampah Plastik Polypropylene (PP), Jurusan Teknik Mesin Universitas Sebelas Maret Surakarta.

Asme Continuing Education Institute (2012), Asme Section I & VIII Fundamentals.

Farid Majedi, Widya Wijayanti, dan Nurkholis Hamidi,”Parameter Kinetik Char Hasil Pirolisis Serbuk Kayu Mahoni (Switenia Macrophylia) dengan Variasi Heating Rate dan Temperatur”, Jurnal Rekayasa Mesin.

Gama Askaditya, (2010). Studi Ekperimental Pirolisis Minyak Pelumas Bekas Menggunakan Katalis Zeloit, Skripsi, Teknik Mesin Fakultas Teknik, Universitas Sebelas Maret.

Mutaqqin (2012), Pengujian Efektifitas Penukar Kalor Multi Flat Plat Alumunium dengan Aliran Cross Flow.

Outlook Energi Indonesia (2016), Pengembangan Energi untuk Mendukung Industri Hijau, BPPT.

Putut Hery Setiawan dan Petrus Zacharias, (2013). “Perhitungan Tebal dan Tutup Tangki Reaktor Gelembung Pabrik Elemen Bakar Nuklir Tipe PWR 1000MWe Untuk PLTN di Indonesia”, Prosiding Pertemuan Ilmiah Perekayasaan Perangkat Nuklir PRPN_BATAN.

Sigit Haryadi (2015), Pengaruh Arah Aliran Air Pendingin Pada Kondensor Terhadap Hasil Pengembunan Proses Pirolisis Limbah Plastik, Skripsi, Teknik Mesin Fakultas Teknik, UNS.

Yunus A. Cengel (2003), Heat Transfer: A Practical Approach, Second Edition, (New York: McGraw-Hill.




DOI: https://doi.org/10.52447/jktm.v3i1.1109

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