Physical Corn Germ Oil Refined Production Line in Ivory Coast
- Use: Corn Germ Oil
- Type:Corn Germ Oil Production Line
- Production Capacity: 10~150kg/h
- Power(W): 15-50KW
- Dimension(L*W*H): 2.1*1.2*2.35M/2.1*1.45*2.35m
- Specification: 1-100 tons/hour
- Advantage: Low Oil
- Market: Ivory Coast
Efficient and eco-friendly extraction of corn germ oil using
An improved aqueous extraction method has been established for extraction of oil from corn germs. This method primarily included steam explosion pretreatment and aqueous ethanol extraction. Process variables such as steam pressure, resident time, particle size and ethanol concentration were investigated. The highest yield of 93.74 % was obtained when ground steam-exploded corn germ (1.3 MPa
Usually the corn germ is around 8% in the total corn grain, and the corn germ’s oil content is approx. 50%. There are two common production methods for corn germ oil: pressing method, suitable for small and medium-sized corn oil producers, and solvent extraction method, suitable for large-scale corn oil producers.
Corn Oil: Composition, Processing, and Utilization
Conventional Corn Germ Extraction. The production of corn oil includes separation operations of the germ from the corn kernel, which in most instances are carried out through dry-milling (see Chapter 15) or wet-milling (see Chapter 18) operations. Dry-milling begins with the cleaning and removal of impurities from the kernel.
This work aimed the recovery of oil and protein fractions from corn germ (CG) generated as a by-product during flour processing. Several oil extraction techniques were investigated: hexane at room temperature, hexane at 45 °C, supercritical carbon dioxide (Sc-CO 2) and Soxhlet with hexane and ethanol. Their influence on oil yield and oil
Formation, characterization, and potential food application
Color and texture analysis of expeller-pressed corn germ oil and refined corn oil oleogels. The appearance, color parameters (L*, a*, and b*), and texture (hardness) of oleogels prepared using refined corn oil and EP corn germ oil with different concentrations (3, 5, 7, and 9 wt%) of RBX were shown in Fig. 1.
The scope is to analyze the environmental impacts associated to the industrial processing using a gate-to-gate approach, of 1 ton of refined oil. Maize-germ oil is obtained from seedlings from the Zea mays L. (Gramineae) by pressing (cold-pressed maize-germ oil) or by extraction, after which it is refined (refined maize-germ oil). Its main use
Bioactive Phytochemicals from Corn (Zea mays) Germ Oil
In general, it is verified that corn oil processing by-product has a dry matter content of 89.0%, crude protein around 10.6%, the crude fiber of 4.6%, ether extract close to 1.34%, in addition to calcium, phosphorus, several amino acids such as methionine, lysine, and tryptophan [ 22, 23, 24 ].
tein. Corn oil is a byproduct of starch process-ing, and obtained from corn germs. Corn contains approximately 61-78% starch, 6-12% protein, and 3.1-5.7% oil. As the oil source, the corn germ is sep -
Coprocessing Corn Germ Meal for Oil Recovery and Ethanol
Efforts to engineer high-productivity crops to accumulate oils in their vegetative tissue present the possibility of expanding biodiesel production. However, processing the new crops for lipid recovery and ethanol production from cell wall saccharides is challenging and expensive. In a previous study using corn germ meal as a model substrate, we reported that liquid hot water (LHW
9. The hardness (N) of refined corn oil oleogels and expeller-pressed corn germ oil oleogels made with rice bran wax at various concentration (3, 5, 7, and 9 wt%) ..... 52 10. Differential Scanning Calorimeter heating and cooling flow curves for (A) refined corn oil oleogels; (B) expeller-pressed corn germ oil oleogels made with rice bran
