Romania Palm Oil Residue Pellets Fuel Making Press in Sudan

• Use: Palm Oil
• Type:Palm Oil Press Machine
• Production Capacity: 50-100T/D
• Power(W): 1.5kw+1kw
• Dimension(L*W*H): oil production machine
• Weight (KG): 1300
• Certification: Depend on sunflower oil machine capacity
• Market: Sudan

Effect of Torrefaction Conditions on Physical and Thermal Properties of High- and Low- Quality Palm Pruning Residue Pellets

Torrefaction is a promising method to improve the fuel quality of pellets. In this study, palm pruning residues were used as an alternative to forest products. Torrefaction was applied to high-quality (HQ) and low-quality (LQ) pellets at 220, 235, and 250 °C for 5, 10, and 15 min in a newly developed lab-scaled torrefaction system. Torrefaction temperature and residence time adversely

The importance of energy demands that have increased exponentially over the past century has led to the sourcing of other ideal power solutions as the potential replacement alternative to the conventional fossil fuel. However, the utilisation of fossil fuel has created severe environmental issues. The identification of other renewable sources is beneficial to replace the energy utilisation

Pelletization: an alternative for polygeneration in the palm oil industry | Biomass Conversion and Biorefinery, Springer

Agricultural residues continue to attract interest for energy recovery purposes as a renewable, CO2 neutral and increasingly cost-competitive alternative to traditional fossil fuels. Furthermore, some of these residues, like palm oil residues, represent a disposal problem for the processing industries, or they are not used efficiently. Several palm oil mills (POM) lack efficient energy systems

Biomass wastes originating from palm oil milling activities can be characterized by their high biochemical oxygen demand (BOD), chemical oxygen demand (COD), total suspended solid (TSS), and oil and grease content. The utilization of oil palm wastes such as palm oil mill effluent (POME) and empty fruit bunch (EFB) has great potential for a sustainable energy biomass pellet as it reduces the

Characterization of Biomass Pellet Made from Solid Waste Oil Palm Industry

Based on the water content, ash content, density and calorific value, OPM biopellets that pressed at 200 and 250 θC showed the best formula. The characteristics of this biopellet were moisture content of 1.7-1.9%, ash of 6.85-7.45%, and calorific value of 3,814-4,724 kcal/kg. © 2013 The Authors.

The need for biomass as an alternative source for energy purposes points toward oil palm fruit residues (Elaeis guineensis Jacq.) as an attractive solution. Oil palm industry residue, such as oil palm empty fruit bunch (EFB) composites and mesocarp fiber (PMF), have a high gross calorific value and could help countries meet their energy demands. However, information concerning physical

Torrefaction of oil palm empty fruit bunch pellets: product yield, distribution and fuel characterisation for enhanced energy recovery

In this study, the non-oxidative torrefaction of oil palm empty fruit bunch (OPEFB) Pellets was investigated from 250 C to 300 C for 30 minutes in a horizontal fixed bed tubular reactor. SEM

Abstract. Oil palm industry generates a large quantity of residues and wastes in the form of empty fruit bunch, palm kernel shells, trunk of the plant, fibre, leaves and others. When palm oil is extracted and processed, it also produces effluents with high organic matter, suspended matter and oil and grease.

Pyrolysis of oil palm empty fruit bunch biomass pellets using multimode microwave irradiation

1. Introduction Millions of tons of oil palm biomass in the form of shells, fibers and empty fruit bunches are generated every year by oil palm mills. Conversion of these biomass into energy and value added products has been already investigated (Abdullah and Bridgwater, 2006, Idris et al., 2010, Razuan et al., 2010, Sumathi et al., 2008, Sulaiman and Abdullah, 2011) and one of the conversion

Procedia Environmental Science, Engineering and Management 8 (2021) (1) 33-42. Environmental Innovations: Advances in Engineering, Technology and Management, EIAETM, 19th-23rd October, 2020.