Optimizing biodiesel production from waste with computational
- Production capacity: 45~70 kg/h
- Model number: 6YY-230 0827
- Voltage: adjustable
- Power ( W): 2 KW
- Dimension (L*W*H): 900*850*1550(mm)
- Weight: 1000kg
- Suitable objects: rapeseed , peanut, walnut, sesame etc.
- Plant: 10㎡
- Origin: China
- After-sales service: Yes
- Marketing year of Establishment: 1999
- Warranty: 1 year
- Accepted delivery terms: FOB, CFR, CIF, EXW
- Packaging: Wooden package
Waste feedstock comprise cooking oil, animal fat, vegetable oil, algae, fish waste, municipal solid waste and sewage sludge. Waste cooking oil represents about 10% of global biodiesel production, and restaurants alone produce over 1,000,000 m 3 of waste vegetable oil annual. Microalgae produces 250 times more oil per acre than soybeans and 7 ...
Recent advances on biodiesel production from waste cooking
- Full automatic
- Production capacity: 1-500T/D
- Model number:LD05
- Voltage:380V
- Power (W): 77-515KW
- Dimension (L*W*H): 1360*950*1170 mm
- Weight: Up to specification
- Certification:CE and ISO9001
- Name: oil extraction plant, crude oil refining
- Output: Oil
- Capacity: 20 ~2000T/D
- Reactor material: Q235 carbon steel
- Color: Silver
- Certificate: CE and ISO9001
- Quality control: Detection of X-ray
- Guarantee Period: One year
This paper analyses the current developments in the utilization of waste cooking oil for biodiesel production, with exhaustive focus on the different reactors that can be used in transesterification processes and the key parameters including feedstock type, reaction time, temperature, alcohol-to-oil ratio, and so on, that influence biodiesel ...
Optimized Biodiesel Production from Waste Cooking Oil (WCO
- Production capacity: 1-500T/D
- Model number: 1st series in oil extraction plant
- Voltage: 380 V
- Power (W): according to capacity
- Dimension (L*W* H): various with capacity
- Weight: changes with capacity
- Certification :CE and ISO
- Raw material: palm
- Product: to make crude or refined oil
- Solvent name: n-hexane
- Capacity: 5T to 2000T oil extraction plant
- Oil content in peanut: about 40%
- Oil residue: less than 1%
- Function: get oil
- Manufacturing experience: 19 years experience in edible oil fields
- Warranty: 12 months
- Equipment material: stainless steel and steel to carbon
Biodiesel production from waste cooking oil has three solutions those are economic, environmental and waste management 7,8,16,17. Heterogeneous catalysts have attracted great attention in recent ...
Development of multiple machine-learning computational
- Automatic grade: Semi-automatic
- Production capacity: 200t-2000t per day
- Voltage: according to requirement
- Dimension (L* W*H): according to capacity
- Weight: 2000 KG
- Warranty: 1 year
- Key selling points: Automatic
- Type Marketing: New product 2020
- Machinery test report: Provided
- Outgoing inspection video: Provided
- Main components warranty: 1 year
- Main components: Pressure vessel, pump, bearing
- Oil type: Palm oil, palm kernel oil
- Water circulation: approximately 200 m3/h.
Various feedstocks have been employed for production of biodiesel such as palm oil (Kansedo et al., 2009), microalgae (Collotta and Basosi, 2019), rice bran oil (Zaidel, et al., 2019), waste cooking oil (WCO) (Mohadesi, 2019), etc. Waste cooking oil (WCO) has been studied as one of the abundant and cheap sources for production of biodiesel.
Biodiesel Production from Waste Cooking Oil
- Production capacity: 5TPD-100TPD
- Voltage: 220V/380V
- Dimension (length x width x height): 2400*550*760mm
- Weight: 650 KG
- Main components: Motor, pressure vessel, pump, PLC, gear, bearing, motor, gearbox
- Oil advantages: high oil yield
- Machine material: carbon steel; Stainless steel
- Used for: Edible oil manufacturing
- Feature: High efficiency Low cost
- Quality: Top level
- Application: Production of edible oil
- Raw material: oilseeds
- Character: High oil production rate
Artificial Intelligence (AI) based modeling was also carried out to predict biodiesel yield. From AI modeling, a predicted yield of 92.88% was achieved, which is 1.70% higher than the RSM method ...
- How to optimize biodiesel production from transesterification of used cooking oil?
- The simulation and optimization of biodiesel production from the transesterification of used cooking oil have been explored in this research. ChemSep is used to simulate the process, and RSM is used to optimize the process condition for maximum biodiesel yield. FCCD is employed for the DOEs and ANOVA.
- Can waste cooking oil replace vegetable oils in biodiesel production?
- For this reason, an alternative, renewable and biodegradable combustible like biodiesel is necessary. 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. Several variables controlled the process.
- Can a supercritical transesterification reaction optimize biodiesel synthesis from waste cooking oil?
- This study reports optimization and simulation of biodiesel synthesis from waste cooking oil through supercritical transesterification reaction without the use of any catalyst.
- Is waste cooking oil a viable feedstock for biodiesel production?
- Actual and the predicted result from all the machine learning technique. As we know that the waste cooking oil (WCO) is a promising feedstock for producing biodiesel, which plays a weighty role in waste resource recycling and renewable energy production.