DEVELOPMENT OF BAMBOO TWIGS BRIQUETTES AND HAZELNUT SHELL WASTE
Energy is a very essential need for humans, but the reserves of non-renewable fossil fuels are dwindling, so a breakthrough is needed to produce alternative energy sources that are efficient, economic and environmentally friendly as a substitute for fossil fuels. Briquettes are an alternative ene...
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| Format: | Theses |
| Language: | Indonesia |
| Online Access: | https://digilib.itb.ac.id/gdl/view/73004 |
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| Institution: | Institut Teknologi Bandung |
| Language: | Indonesia |
| Summary: | Energy is a very essential need for humans, but the reserves of non-renewable
fossil fuels are dwindling, so a breakthrough is needed to produce alternative
energy sources that are efficient, economic and environmentally friendly as a
substitute for fossil fuels. Briquettes are an alternative energy source derived
from biomass. In this study, the biomass used as raw material for making
briquettes were bamboo twigs (RB) and hazelnut shell waste (CK). The briquettes
were made using tapioca flour adhesive to study the mechanical properties of the
briquettes, calorific value, ash content, and volatile matter. The dried RB and CK
waste were processed into charcoal powder with a particle size of ~0,25 mm.
Initially, a study was carried out to obtain the best briquette pressure value from
the pressure test on the resulting briquettes. Then, the briquettes were made using
pressure with that value, with various CK concentrations. The compressive test
was carried out using a universal testing machine (UTM) and the calorific value
test was carried out using bomb calorimeter IKA C 2000. The results showed that
the value of ultimate strength, modulus of elasticity, strain pada saat fracture, and
calorific value increases with increasing CK concentrations. Ash content and
volatile matter decreases with increasing CK concentrations. In this study, the
most optimum briquettes was CK-RB 8 which was made using 8/24 (w/w) of CK
concentrations. The values of ultimate strength, modulus of elasticity, strain at
fracture, calorific value, ash content, and volatile matter of the CK-RB 8 were
3.86 Mpa; 50 Mpa; 0.141; 6331 calorie/gram; 8%; 8.59%, respectively. |
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