Irawan Rusnadi scite author profile

In this research, a pyrolysis reactor with a capacity of 5 kg has been designed. Innovation in the pyrolysis reactor is the adsorbents that are used (lime CaCO3 + iron fiber Fe2O3) in the reactor. This study aims to determine the optimal reaction conditions. Tests carried out at 200-400°C temperature intervals and a range of 40-90 minutes. The best product is 86.40% liquid yield at 350°C with a processing time of 90 minutes. ASTM distillation studies of the oil produced showed that 67% fraction was in the range of the light naphtha, 12% fraction was in the range of heavy naphtha and 21% fraction was in the range of the medium naphtha. Comparing the physical parameters of the sample oil with standard fuels, it was observed that the fractions collected were in the range of gasoline, kerosene and diesel oil. This research contributes significantly to increasing knowledge about the feasibility of pyrolysis, providing opportunities for the recycling sector to spread take-off systems, in the Circular Economy.

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Pengaruh Intensitas Cahaya dan Kemiringan Panel Terhadap Koefisien Laju Konveksi pada Pemanas Air Tenaga Surya

Prasetyo

Rian

Kidam

et al. 2022

Jurnal Pendidikan dan Teknologi Indonesia

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Indonesia sebagai salah satu negara dengan posisi geografis berada di garis khatulistiwa, membuat indonesia mendapatkan sinar matahari sepanjang tahun. Konsumsi energi di Indonesia yang meningkat dan penggunaan sumber energinya yang dapat diperbaharui belum dimanfaatkan secara optimal, maka dari itu sinar matahari sebagai energi yang terbarukan dan ramah lingkungan digunakan sebagai media pemanas air bertenaga surya. Alat pemanas air tenaga surya merupakan alat untuk memanaskan air dengan memanfaatkan sumber energi matahari melalui panel kolektor. Dengan tingginya intensitas radiasi yang diperoleh yaitu sebesar 93000 Lux alat kolektor mampu menyerap panas dengan lebih banyak sehingga menghasilkan temperatur yang paling tinggi yaitu 64°C. Intensitas Cahaya yang tinggi akan memberikan panas yang lebih maksimal pada proses pemanasan air dalam pipa kolektor dengan optimal. Pada sudut 25° dengan naiknya kemiringan dapat membuat perpindahan panas pada air lebih baik sehingga mampu menghasilkan temperatur air output tertinggi sebesar 64°C karena pada sudut 25° performa alat akan naik sehingga air yang lebih panas pada kolektor lebih mudah untuk mencapai tangki karena massa jenis air yang berada dibagian permukaan lebih mudah untuk bergerak naik.

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Characteristics of Biobriquette Mixture of Char Gasified Coal and Torreffed Coconut Shell as Fuel Co-firing

Effendi¹,

Syarif²,

Rusnadi³

2023

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Utilization of Acid Mining Waste Water as to Alternative Energy Source with Galvanic Cell

Fatria¹,

Syarif²,

Zikri³

et al. 2023

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Irawan Rusnadi

Treatment of Leachate from Garbage using Electrocoagulation Type MP-P (MonoPolar-Paralel) Methode

Re-Design Pyrolysis Reactor Prototype for the Conversion of Plastic Waste into Liquid Fuel

Pengaruh Intensitas Cahaya dan Kemiringan Panel Terhadap Koefisien Laju Konveksi pada Pemanas Air Tenaga Surya

Characteristics of Biobriquette Mixture of Char Gasified Coal and Torreffed Coconut Shell as Fuel Co-firing

Utilization of Acid Mining Waste Water as to Alternative Energy Source with Galvanic Cell

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