low price groundnut oil extraction using limonene in addis ababa
low price groundnut oil extraction using limonene in addis ababa
- Production Capacity: 100kg/h-10000kg/h
- Voltage: Customized
- Dimension(L*W*H): 270*260*350*60mm
- Weight: 3 KG
- Key Selling Points: Energy saving
- Marketing Machinery Test Report: Provided
- Video outgoing-inspection: Provided
- Core Components: Motor
- After-sales Service Provided: Engineers available to service machinery overseas, Video technical support, Online support
- Application: Sunflower, Sesame, Soybean, Peanut, Castor, Rice Bran, Mustard, Shea Nut, Olive, Groundnut, Cotton Seed...
- power: manual
- Advantage: High Efficient
- Delivery: 10 working days
- Capacity: 1-2kg/h
- Material: Stainless Steel/Carbon steel
- After Warranty Service: Video technical support, Online support
- Local Service Location: None
- Certification: CE ISO
Limonene as a natural product extraction solvent - Green
Abstract First reported in 2004, and subsequently advanced by Chemat's team and other research teams in the following two decades, the use of D -limonene as a natural product extraction solvent offers multiple benefits that go beyond its environmentally benign nature.
consists of sections to accommodate oil seed storage, seed pre-cleaning, an oil mill, solvent extraction, meal and oil tanks as well as facilities for administration, fuel supply and packaging. The standard process for solvent extraction consists of the following basic steps using minimal raw materials i.e. seeds, solvent and white mineral oil:
Limonene as natural product extraction solvent
extraction time required for the extraction of oil, based on crude rice bran oil yield and color, were found to be 5:1 and 0.5 h for d - limonene and 3:1 and 1 h for n -hexane, affording respectively,
However, the quantity of oil recovered by Silva et al. (2008) using SupFE (10 MPa, 1.6 × 10 −7 m 3 s −1, 39.8 °C and 60 min (0.76%)) was very low, when compared to the obtained using SE. The possible justification for the lower yields obtained is that macadamia oil has low solubility in CO 2 and the authors concluded that the estimated ...
Green solvents, potential alternatives for petroleum based
Abstract Solvent extraction is used at the industrial scale for extraction of oil, flavouring and functional compounds from the source materials. Easy availability at lower price makes petroleum based solvents (e.g., hexane, petroleum ether, etc.) the preferred choice for solvent extraction.
For peanut oil, palmitic (C16:0), oleic (C18:1) and linoleic (C18:2) acids represent 89.90% for oil extracted by n-hexane and 88.40% for the extracted d-limonene. These results confirm those reported in the previous studies 12 , 21 - 23 , which were between 87.64 and 96%.
Green solvents and technologies for oil extraction from
The conventional technology used for oil extraction from oilseeds is by solvent extraction. In solvent extraction, n -hexane is used as a solvent for its attributes such as simple recovery, non-polar nature, low latent heat of vaporization (330 kJ/kg) and high selectivity to solvents. However, usage of hexane as a solvent has lead to several ...
Table 4.4 Noug prices at selected markets in Ethiopia, 2010 Month Wholesale price of Wholesale price of Difference noug seed in Addis Ababa noug seed in Bure-Gojam unit price (ETB) unit price (ETB) ETB January 696 658 38 February 693 633 61 March 663 580 83 April 637 576 61 May 663 607 56 June 701 650 51 July 713 642 71 August 743 635 108 ...
Limonene as Green Solvent for Extraction of Natural Products
After Soxhlet extraction with d-limonene, distilled water was added to the mixture composed of extracted oil and d-limonene. After azeotropic water distillation around 100°C with a Clevenger system, d-limonene and extracted oil were recovered separately (Fig. 5.2).
As a consequence, a greener extraction of lycopene from fresh tomatoes using d-Limonene instead of dichloromethane has been proposed (Chemat-Djenni et al. 2010) (Fig. 6.3). The d-Limonene showed its potential value of protecting environment through reduction of volatile organic compounds even though dichloromethane showed a higher extraction yield.
