An Investigation of Sustainable Power Generation from Oil Palm Biomass: A Case Study in Sarawak

Aghamohammadi, Nasrin; Reginald, Stacy Simai; Shamiri, Ahmad; Zinatizadeh, Ali Akbar; Wong, Li Ping; Sulaiman, Nik Meriam Nik

doi:10.3390/su8050416

Cited by 47 publications

(30 citation statements)

References 29 publications

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“…Diesel power plants have the highest generating cost per kWh compared to other types of power plants in Indonesia [40][41][42][43]. So, renewable energy power plants make a viable business for both PLN and the private sector [1,35].…”

Section: Resultsmentioning

confidence: 99%

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Economic Analysis of Diesel-Fuel Replacement by Crude Palm Oil in Indonesian Power Plants

Procházka

Hönig

2018

Energies

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Indonesia needs to find an alternative fuel to substitute diesel in their power plants in order to reduce the use of nonrenewable energy sources. The Indonesian government has a target to reduce oil fuel consumption while improving the efficiency of energy utilization. Crude palm oil is proposed to be used for this substitution. In this paper, the authors conduct an economic analysis of the replacement of diesel by crude palm oil. To predict future prices, a time series analysis is conducted using AutoRegressive Integrated Moving-Average method. A financial analysis of a specific project (0.75-MW power plant) is conducted using static financial indicators (payback period, return on investment). Results show that replacing diesel with crude palm oil may be profitable. This is especially true for the proposed prospects of diesel price evolution. Analysis shows that the price of crude oil, which is the main factor in the pricing of diesel, may go up. Also, recently Indonesian currency depreciated against the US dollar, which also implies a higher cost of diesel.

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Section: Resultsmentioning

confidence: 99%

“…Transport fuels are highly subsidized in Indonesia, resulting in fuel prices that are among the lowest in Asia [42]. Currently, about 43% of the actual costs of diesel are covered by the government through subsidies [49].…”

Section: Resultsmentioning

confidence: 99%

Economic Analysis of Diesel-Fuel Replacement by Crude Palm Oil in Indonesian Power Plants

Procházka

Hönig

2018

Energies

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“…However, the scenario will be different if the infrastructure cost such as the transmission line is borne by the government [36]. Instead of supplying the surplus electricity to the grid, palm oil mills in remote area should have the option to supply to the rural communities nearby with comparable tariffs charged especially in Sabah and Sarawak by turning the plants into small-scale IPPs [37].…”

Section: Salient Issues Faced By Oil Palm Biomass Developersmentioning

confidence: 99%

Solid Fuel from Oil Palm Biomass Residues and Municipal Solid Waste by Hydrothermal Treatment for Electrical Power Generation in Malaysia: A Review

2019

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Malaysia generated 156,665 gigawatt-hours (GWh) of electricity in 2016 of which the biggest share of 48.4% was sourced from coal and coke. Malaysia coal consumption was met by 90.5% of imported coal due to high demand from the power sector. Malaysia also has a vast biomass resource that is currently under-utilised for electricity generation. This paper reviews the potential of oil palm residues and municipal solid waste (MSW) for alternative coal replacement employing hydrothermal treatment (HTT). In 2017, about 51.19 million tonnes (Mt) of oil palm waste was available with 888.33 peta-joule (PJ) energy potential to generate 88.03 terawatt-hours (TWh) electricity from oil palm fronds (OPF) and oil palm trunks (OPT), empty fruit bunch (EFB), mesocarp fibre (MF), palm kernel shell (PKS) and palm oil mill effluent (POME). Meanwhile, the MSW energy potential and electricity generation potential was estimated at 86.50 PJ/year and 8.57 TWh/year, respectively. HTT with washing co-treatment eliminates the use of drying for converting range of biomass and MSW into clean solid fuel known as hydrochar. The hydrochar increased in caloric value with lower moisture, Potassium (K) and Chlorine (Cl) contents. These value-added fuels can be used as coal alternative and reduce dependency on imported coal for energy security in Malaysia.

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“…Waste biomass from oil palm industry includes oil palm trunk, oil palm fronds, empty fruit bunches, palm kernel shell, and mesocarp fiber which comprised of 18.09%, 58.05%, 8.97%, 5.45%, and 9.44% (all dry weight %), respectively [1]. These fibrous waste biomasses are often used as boiler fuel in palm mills for steam electricity generation [2]. After combustion in the steam boiler, about 5% (weight %) of ash called oil palm ash (OPA) is produced generating another type of solid waste [3].…”

Section: Introductionmentioning

confidence: 99%

Value-Added Utilization of Agro-Waste Derived Oil Palm Ash in Epoxy Composites

Rizal¹,

Fizree²,

M.³

et al. 2019

Journal of Renewable Materials

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Oil palm ash (OPA) is an agro-industry waste and it has disposable problems. In the present study, an effort was made for value addition to OPA by incorporating it as a micro-filler in different concentration (0, 10, 20, 30, 40, and 50%) and sizes (100, 200, and 300 mesh size particles) in the epoxy matrix. Prepared micro OPA was having a crystallinity index of 65.4%, high inorganic elements, and smooth surface morphology. Fabricated composites had higher void content as compared to neat epoxy matrix. Mechanical properties of fabricated composites had a maximum value at 30% loading of 300 mesh-size filler due to its low void content and size as compared to filler of 100 and 200 mesh size. Further increase in the concentration of OPA filler after 30 wt% of loading leads to the agglomeration of OPA microparticles and thereby resulted in the reduction of mechanical characteristics such as tensile strength, tensile modulus, flexural strength and flexural modulus of the composites. However, elongation at break decreased with increase in filler content at all percentage. Thermal stability and char residue percentage of composite increased with the concentration of filler at all percentage. Surface morphology of composite showed that OPA incorporation lead towards its roughness and cracks were originated from the site of OPA embedded in the epoxy matrix. The 300 meshsize particles were having the best effect on composite as compared to 100 and 200 mesh-size filler.

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An Investigation of Sustainable Power Generation from Oil Palm Biomass: A Case Study in Sarawak

Cited by 47 publications

References 29 publications

Economic Analysis of Diesel-Fuel Replacement by Crude Palm Oil in Indonesian Power Plants

Economic Analysis of Diesel-Fuel Replacement by Crude Palm Oil in Indonesian Power Plants

Solid Fuel from Oil Palm Biomass Residues and Municipal Solid Waste by Hydrothermal Treatment for Electrical Power Generation in Malaysia: A Review

Value-Added Utilization of Agro-Waste Derived Oil Palm Ash in Epoxy Composites

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