Manufacturing Non Adhesive Biobriquettes With Main Ingredients From Cow Manure Waste at Dairy Cows Teaching Factory
DOI:
https://doi.org/10.25047/tefa.v1i1.4511Keywords:
briquettes, cow manure waste, non-adhesiveAbstract
Biobriquettes are solid energy source that comes from biomass that is compressed under a certain pressure. The development of non-adhesive biobriquettes has not been widely carried out. Teaching factory (TEFA) Dairy Cows Politeknik Negeri Jember have 51 cows and products ± 18-20 kg/day of cow manure which have not managed optimally. On the other side of district Jember produces 1,945 tons of coconut shell waste per year which is pill up, thrown away and used as stove fiel or simply burned. This research was conducted with an experimental method using composition variations of raws material and mixed material to obtain the best mixture ratio for biobriquettes, 4KS6AR (40% : 60%), 5KS5AR (50% : 50%), 6KS4AR (60% : 40%). The raw material for cow dung is cleaned from grass fibers. The coconut shells raw material that has been dried in the sun, then pyrolyzed at a temperature of approximately 200-250ºC for 6-7 hours, then ground to size of 40, 60 and 100 mesh. From the tests that have been carried out, the most optimal value to quality standards of National Standard of Indonesia (SNI) 01-6235-2000 is with a water content of 2,382 %, calorific value of 6.650 cal/g.
References
Cuong T T, Le H A, Khai N M, Hung P A, Linh L T, Thanh N V, Huan N X 2021 Renewable energy from biomass surplus resource: potential of power generation from rice straw in Vietnam. Scientific Reports, 11(1) 1–10
BPPT 2021 Perspektif Teknologi Energi Indonesia. Jakarta
Dani S and Wibawa A 2018 Challanges and Policy for Biomass Energy in Indoensia. International Journal of Business, Economic and Law, 15(5) 41047
Rudiyanto B, Ulma Z, Prasetya D A 2023 Utilization of Cassava Peel (Manihot utilissima) Waste as an Adhesive International Journal of Renewable Energy Development 12(2) 270-276
Haryanti N H, Wardhana H, and Suryajaya 2020 Effect of Pressure on Alaban Charcoal Briquettes Small Particle Size. Jurnal Risalah Fisika, 4(1) 19–26
Helwani Z, Ramli M, Rusyana A, Marlina M, Fatra W, Idroes G M, Idroes R 2020 Alternative briquette material made from palm stem biomass mediated by glycerol crude of biodiesel byproducts as a natural adhesive Processes 8(7)
Liang B 2023 Decoupling combustion characteristics of biomass pellets and their mixture with bituminous briquettes. Environmental Technology & Innovation 32 103275
Gang Li R 2023 CO2 and air pollutant emissions from bio-coal briquettes. Environmental Technology & Innovation 29 102975
Wubliker Dessie, X L 2023 Lignin valorization: A crucial step towards full utilization of biomass, zero waste and circular bioeconomy Biocatalysis and Agricultural Biotechnology 51 102777
Firman L O M 2023 Increasing the feasibility and storage property of cellulose-based biomass by forming shape-stabilized briquette with hydrophobic compound Case Studies in Chemical and Environmental Engineering 8 100443
Oladosu K 2023 Optimization of fuel briquette made from bi-composite biomass Scientific African 21 01824
Adeleke A A, 2021 Tumbling strength and reactivity characteristics of hybrid fuel briquette of coal and biomass wastes blends Alexandria Engineering Journal 60(5) 4619-4625
Jorge Luís Coleti G V 2021. Kinetic investigation of self-reduction basic oxygen Journal of Materials Research and Technology 9(6) 13282-13293
Md. Ahiduzzaman A S I 2013 Development of biomass stove for heating up die barrel of rice husk briquette machine Procedia Engineering 56 777 – 781
La Ifa S Y 2020 Techno-economic analysis of bio-briquette from cashew nut shell waste Heliyon 6 05009
Reuben Shuma D M M 2019 Emissions Comparison of loose biomass briquettes with cow dung and cactus binders Procedia Manufacturing 35 130-1136
Wahidin Nuriana N A 2014 Synthesis Preliminary Studies Durian Peel Bio Briquettes as an Alternative Fuels Energy Procedia 47 295 – 302
Mallika Thabuota T P 2015 Effect of Applied Pressure and Binder Proportion on the Fuel Properties of Holey Bio-Briquettes Energy Procedia 79 890 – 895
Tay Lay Tinga R J 2016 A Review Of Chemical And Physical Properties Of Coconut Shell In Asphalt Mixture Jurnal Teknologi 78(4) 85-89
Maulina S, Sarah M, Misran E, & Anita M F 2021 The correlation of ultimate analysis and calorific value on palm oil briquettes using durian seed adhesives IOP Conference Series: Materials Science and Engineering 1122(1) 012079
Ghafar H, Halidi S N A M, & So’aib M S 2020 Coconut Shell: Thermogravimetric Analysis and Gross Calorific Value. Proceedings of Mechanical Engineering Research Day, 206–207
Nurhilal O, Suryaningsih S, & Indrana I 2018 Study of Thermal Efficiency of Biomass Carbonizing by Direct Method Journal of Physics: Conference Series 1080
Sunardi, Djuanda, & Mandra, M A S 2019 Characteristics of Charcoal Briquettes from Agricultural Waste with Compaction Pressure and Particle Size Variation as Alternative Fuel International Energy Journal 19 139–148
Samsudi R 2013 Making bio briquettes from ash kettle, distance, and glycerin waste Traction Journal 13(1) 1-9
Trisasiwi W, Asnani A. and Sumanto B 2012 Improvement of carbonization furnaces for external combustion models (retorts) to improve flouring performance Tektan Journal 4(1) 55-65
Yana S, Nizar M, Irhamni, & Mulyati D 2022 Biomass waste as a renewable energy in developing bio-based economies in Indonesia: A review Renewable and Sustainable Energy Reviews 160(5) 112268
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