Pengaruh Variasi Ukuran Serbuk (Mesh) Dan Persentase Perekat Tapioka Terhadap  Sifat Fisik Pellet Kayu Gelam

Irawansyah, Herry; Nugraha, Andy; Afifudin, Moh Noer; Muhammad, Muhammad; Al’Arisko, Rizqi Nor

doi:10.24269/mtkind.v15i2.4194

Cited by 2 publications

(3 citation statements)

References 5 publications

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“…The husk is often called waste, so this material can be used to become biomass. Rice husk has physical properties, which include a density of 122 kg/m 3 and silica burning ash of 86.90-97.30% [28]. In South Kalimantan, the potential for rice husk waste is very large and has the potential to be used as fossil fuels in the form of solid fuels.…”

Section: Methodsmentioning

confidence: 99%

“…Pellet raw materials can be taken from useless materials such as gelam waste and rice husk waste which are widely available around us. Gelam wood has a calorific value of 4100 cal/g [28] and rice husks of 3300 cal/g [32]. The addition of the percentage of gelam does not increase the combustion temperature as well as the addition of the percentage of rice husks; this is very beneficial when considering the lower calorific value of rice husks.…”

Section: Figure 1 Graph Of Burning Temperature Of Wood Pellets For Ri...mentioning

confidence: 99%

“…The calorific value of rice husk, which is lower than the calorific value of gelam wood, affects the combustion rate. In addition, other factors that affect the rate of pellet combustion include particle size, air flow velocity, temperature, type of fuel, pressure, oxygen concentration, and the nature of the elementary reactions that occur [28].…”

Section: Gelam Wood Pellet Composition + Rice Husk (%)mentioning

confidence: 99%

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Effect of Variation of Mixture (Wood Gelam+Rice Husk) on Bio-Pellet on the Value of Temperature, Rate and Pressure of Combustion

Subagyo¹

2022

Civense

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The increasing demand for energy causes the depletion of fuel fossil. To overcome this, it is necessary to utilize biomass and biomass waste. The purpose of this study was to simulate the effect of bio-pellet density on temperature, rate and pressure of combustion made from a mixture of gelam wood and rice husk. The method uses ANSYS simulation with literature review. The results showed that the increasing composition of rice husks had an effect on the decreasing combustion rate, this was due to the calorific value of the pellets making up the material. Where the lower calorific value of rice husk has an effect on the rate of combustion. Pellets that have a large density affect the rate of combustion so that it extends the burning time. The density of pellets is influenced by the pressure of pellet molding, the greater the pressure makes the fuel denser and has a large density. The highest combustion air pressure occurs at 100% gelam composition and the lowest at 100% husk composition. This shows that the addition of rice husk composition reduces the combustion pressure and vice versa applies to the addition of gelam composition

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Section: Methodsmentioning

confidence: 99%

Section: Figure 1 Graph Of Burning Temperature Of Wood Pellets For Ri...mentioning

confidence: 99%

Section: Gelam Wood Pellet Composition + Rice Husk (%)mentioning

confidence: 99%

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Effect of Variation of Mixture (Wood Gelam+Rice Husk) on Bio-Pellet on the Value of Temperature, Rate and Pressure of Combustion

Subagyo¹

2022

Civense

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Optimizing Aluminum Melting with Sustainable Biomass Fuels: A Case Study of Ulin (<i>Eusideroxylon zwageri</i>) Wood and Galam (<i>Melaleuca cajuputi</i>) Wood

Suprianto,

Kasim,

Ela Heka

et al. 2024

MSF

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Wood waste biomass has emerged as an abundant source of alternative energy. This alternative energy source holds significant potential in the industrial sector, particularly in the field of metal casting. The development of aluminum melting equipment aims to provide invaluable support to aluminum craftsmen by harnessing wood waste as an easily accessible fuel source. The approach employed in this research involves the design of a wood waste combustion chamber capable of reaching the aluminum melting point. Two types of wood, Ulin (Eusideroxylon zwageri) and Gelam (Melaleuca cajuputi), were utilized in the study. The research achieved a temperature of 863°C in 28 minutes with Ulin wood, whereas with Gelam, a temperature of 821°C was reached in 29 minutes. This study makes a significant contribution to the efficient utilization of wood waste biomass in the aluminum casting industry, offering remarkable environmental and economic benefits.

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Pengaruh Variasi Ukuran Serbuk (Mesh) Dan Persentase Perekat Tapioka Terhadap Sifat Fisik Pellet Kayu Gelam

Cited by 2 publications

References 5 publications

Effect of Variation of Mixture (Wood Gelam+Rice Husk) on Bio-Pellet on the Value of Temperature, Rate and Pressure of Combustion

Effect of Variation of Mixture (Wood Gelam+Rice Husk) on Bio-Pellet on the Value of Temperature, Rate and Pressure of Combustion

Optimizing Aluminum Melting with Sustainable Biomass Fuels: A Case Study of Ulin (<i>Eusideroxylon zwageri</i>) Wood and Galam (<i>Melaleuca cajuputi</i>) Wood

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