• Usage: Edible Oil
• Type: edible Oil expeller machine
• Production Capacity: 60-5000kg/h
• Use: Peanut seed shelling machine
• Certification: ISO CE
• Product Residual oil in cake: 1%
• Key word: Peanut seed shelling machine
• Used for: Peanut seed shelling machine
• Voltage: 380V or 440 V
• Application: Peanut seed shelling machine
• Extractor Dimension(L*W*H): according the capacity

Waste cooking oil can be used as a potential feedstock for biodiesel production. Disposal of waste cooking oil itself an environmental challenge due to its adverse

Among various available feedstocks, waste cooking oil is considered as the most viable source for biodiesel production. Apart from being economical, it also reduces

• Usage: Edible Oil
• Type: edible Oil press machine
• Production Capacity: 10-5000 ton
• Voltage: 220V/380V/440V
• Power(W): 18.5KW/T
• Dimension(L*W*H): 48m*12M*15M(30TPD)
• Weight: 30tons
• After-sales Service Provided: Overseas service center available
• Keywords: oil press machine
• Material: Stainless steel
• Engineers request: 1-2 engineers
• Oil Grade: 1st,2nd,3rd
• Environment friendly: yes
• Business
• Methods: edible Oil processing machinery

By implementing a renewable energy storage system in the form of biodiesel from waste oils, individuals can contribute to developing innovative solutions for the combined and distributed production of electricity and heat, primarily from renewable sources.

The transesterification and interesterification process remains the most widely used process route for biodiesel production. In this review, the performance efficiency of solid

• Usage: Cooking Oil
• Type: cooking Oil mill machine
• Production Capacity: 45-6000 kg/h
• Dimension(L*W*H): 20m*16m*15m
• Weight: 400 KG
• Warranty of core components: 2 years
• Core Components: Motor, Pressure vessel, Pump, Gear, Bearing, Engine, Gearbox
• Oil Product Squeeze Function: Extract Oil from Seed
• Pressing Residue in Cake: Less Than 6%
• Quality: Superior International Quality
• Smell: Natural Oil Smell
• Color: Light Yellow
• Oil Standard: First Class
• Certificate: CE
• Exporting Countries: nigeria

Comparison of the optimum conditions of alkaline-catalyzed transesterification process for biodiesel production from pure sunflower cooking oil (PSCO) and waste sunflower cooking Oil

Biodiesel production from waste cooking oil (WCO) provides an alternative energy means of producing liquid fuels from biomass for various uses. Biodiesel production

• Usage: Cooking Oil
• Type: cooking Oil production line
• Production Capacity: 80-400kg/n
• Voltage: According to customer demand
• Power(W): 21 KW
• Dimension(L*W*H): 2200*1600*2150
• Weight: 1300kg
• Certification: ISO9001-2008
• Color: White, green
• Production Raw material: Sunflower Seed
• Work principle: Mechanical extruding
• Warranty period: One year
• English manual: Yes
• Factory visiting: Yes
• Exporting Countries: cameroon

• For this purpose, waste cooking oil is a potential replacement for vegetable oils in the production of biodiesel. Direct transesterification of vegetable oils was undertaken to synthesize the biodiesel.

  Waste cooking oil has a great potential to be used as a feedstock for the waste to energy process. Optimization of transesterification resulted in a very high efficiency for the

• Usage: Edible Oil
• Type: edible Oil extraction machine
• Production Capacity: 100-1000TPD
• Model Number:AST-130
• Application: Beans
• Voltage: 380V
• Appearance: Horizontal
• Press Materials: Peanut, All seeds
• Press Series: Second
• Capacity: 1-20t/D
• Power: 5.5-22kw
• Guarantty Time: 12 Months
• Delivery Time: 15 Days
• Transport Package: Wooden Case (Plywood)
• Specification: CE certificate

In this report, the utilization of mixed methanol–ethanol system for the production of biodiesel from waste cooking oil (WCO) using enhanced eggshell-derived calcium oxide (CaO) nano-catalyst

Production of biodiesel was involved transesterification process that implicated the reaction between used cooking oil and methanol with aid of KOH. The reaction was carried out at 15 min, 30 min, 60 min, 90 min, and 120 min to evaluate the effect of reaction time on the yield of fatty acid methyl ester (FAME). The highest yield of FAME was obtained at reaction time 60 min.