Analisis Kalor Bioetanol Berbahan Dasar Sabut Kelapa

  • Kuni Nadliroh Universitas Nusantara PGRI Kediri
  • Ah. Sulhan fauzi Universitas Nusantara PGRI Kediri
  • Miftakhul Maulidina Universitas Nusantara PGRI Kediri
Abstract views: 457 , PDF downloads: 483
Keywords: Alkohol, Bioetanol, Bom Kalorimeter, Kalor.

Abstract

Bioethanol is an alternative fuel that can be used as a substitute for fuel. Bioethanol can be produced from the fermentation of sugar from carbohydrates or sugar. The content of bioethanol that can be used as fuel has a minimum alcohol content of 10%. This research is a follow-up study from previous research regarding the manufacture of bioethanol made from young coconut ice seller waste, namely coconut fiber. Where the result of the result of the research is that the resulting bioethanol contains quite a lot of alkohol. The waste of young coconut ice sellers can produce bioethanol produced from the fermentation process. The aims of this research determine the calorific value of bioethanol from reflux distillation from coconut fiber. The methode is used a calorimeter bomb. Test were carried out on bioethanol derived from young coconut ice waste, namely coconut shell. The research was conducted on bioethanol from coconut fiber by going through a reflux distillation process. The results showed that the highest calorific value was produced by type C samples with 28 days of fermentation, the calorific value was 3940 cal/gram.

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References

Zhang k, dkk. “Evaluation of The Multi Seeded (msd) Mutant of Sorghum for Ethanol Production Industrial Crops and Product” Vol 97, pp 345-353, 2017.

Akanksha K, Sukumaran RK, Pandey A, Rao SS, Binod

P. “Material Balance Studies for The Conversion of Sorghum

Stover to Bioethanol. Biomass dan Bioenergy” Vol 85, pp 48-

, 2016.

Derriyansyah, Irvan. 2018. Analisa Kualitas Bioetanol Sampah Buah Dan Sayur Menggunakan Distilator Model Refluk Sebagai Bahan Bakar. Skripsi. UNP Kediri.

Kusumo F, Milano J. “Optimization of Bioethanol

Production from Sorghum Grains Using Artificial Neural

Networks Integrated With Ant Colony Industrial Crops and

Products” . Vol 97, pp 146-155, 2017.

Arif AB, Diyono W, Budiyanto A, Richana N. “Analisis

Rancangan Faktorial Tiga Faktor untuk Optimalisasi Produksi

Bioetanol dari Molases Tebu”. J. Informatika Pertan. ;

Vol 25, No 1, pp145-154, 2016.

Rachmanto, Tri. Dkk. “Pengaruh Fermnetasi terhadap Hasil Produksi Bioetanol dari Jerami” 1-15.

Wijaya. Sutrisna. IMA, dkk, Potensi Nira Kelapa Sebagai Bahan Baku Etanol”. Jurnal Bumi Lestari ;Vol 12, No 1, pp 85-92, 2012.

Cahyani, Anisah, dkk. “Pengaruh Volume Enzim Terhadap Kadar Alkohol dan Nilai Kalor dari Bioetanol Berbahan Baku Umbi Gadung (Dioscorea hipsida Dennst.)”. Jurnal Keteknikan dan pertanian Tropisdan Biosistem; Vol 3, No 1, pp 61-66, 2015.

Tyastando, Ronaldo Dwi, dkk. “Studi Experiment Pembuatan Bioetanol Gel dengan Pengental Carboxymethyl Cellulose dan Pengujian Performance Bioetanol Gel” . Indonesian Journal of Engeneering and Technology;Vol 1, No 2. 2019.

Sutanto, Rudy, dkk “Analisa Pengaruh Lama Fermentasi dan Temperatur Distilasi terhadap Sifat Fisik (Specific Gravity dan Nilai Kalor) Bioetanol Berbahan Baku Nanas (Ananas Comosus) “. Dinamika Teknik Mesin; Vol 3, No 2: pp 91-100. 2013.

Tazi, Imam. Sulistiana. “Uji Kalor Bakar Bahan Bakar Campuran Bioetanol dan Minyak Goreng”. Jurnal Neutrino; Vol 3, No 2, pp 163-174. 2019.

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Published
2023-01-21
How to Cite
[1]
K. Nadliroh, A. S. fauzi, and M. Maulidina, “Analisis Kalor Bioetanol Berbahan Dasar Sabut Kelapa”, JMN, vol. 5, no. 2, pp. 182-188, Jan. 2023.

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