Palm Oil Pulling Oil Squeezing Machine in Sudan
- Use: Palm Oil
- Type:Palm Oil Machine
- Production Capacity: 6-800kg/h
- Power: 0.75KW, 380V/50HZ
- Dimension(L*W*H): 1750*1450*1850
- Weight: 1042KG
- Certification: ORGANIC
- Market: Sudan
Predicting adulteration of Palm oil with Sudan IV dye using shortwave handheld spectroscopy and comparative analysis of models
In recent time there have been reported cases of palm oil adulteration with Sudan IV dye originating from West Africa. This led to the ban of most of the palm oil from West Africa. More specifically, Ghana, one of the finest producers of palm oil has become the3].
A total of 520 samples of palm oil were used comprising; 40 authentic samples together with 480 adulterated samples containing Sudan dyes (I, II, III, IV of 120 samples each). Multiplicative scatter correction (MSC) preprocessing technique plus Principal component analysis (PCA) was used to extract relevant spectral information which gave visible cluster trends for authentic samples
Rapid and nondestructive fraud detection of palm oil adulteration with Sudan dyes using portable NIR spectroscopic techniques
Mingle (2019): Rapid and nondestructive fraud detection of palm oil adulteration with Sudan dyes using portable NIR spectroscopic techniques, Food Additives & Contaminants: Part A, DOI: 10.1080
Rapid and nondestructive fraud detection of palm oil adulteration with Sudan dyes using portable NIR spectroscopic techniques. / Teye, Ernest; Elliott, Chris; Sam-Amoah, Livingstone Kobina et al. In: Food Additives and Contaminants, Part A Chemistry, Analysis, Control, Exposure and Risk Assessment , Vol. 36, No. 11, 02.11.2019, p. 1589-1596.
Full article: Optical screening for presence of banned Sudan III and Sudan IV dyes in edible palm oils, Taylor & Francis Online
Reagent Sudan III (68562-25MG) and Sudan IV (67386-25MG) were purchased from Sigma-Aldrich (St Louis, Missouri, USA) and used as adulterants for the palm oil. Stock solutions of 1 mM in acetone of both dyes were prepared and used in making the in-house
Abstract Crude palm oil (CPO) is an important edible vegetable oil used globally, recently subjected to Sudan dye adulteration. This study explored the feasibility of a novel SERS-based Au@Ag substrate to detect four Sudan dyes (I, IV) in CPO. When mixed with
Predicting adulteration of Palm oil with Sudan IV dye using shortwave handheld spectroscopy and comparative analysis of models
Crude palm oil (CPO) is an important edible vegetable oil used globally, recently subjected to Sudan dye adulteration. This study explored the feasibility of a novel SERS-based Au@Ag substrate to detect four Sudan dyes (I, IV) in CPO. When mixed with spiked
Background Palm oil is one of the most useful vegetable available. Sudan IV dye is used as hue enhancer in palm oil despite the ban as food colorant due to its carcinogenicity and mutagenicity by the International Agency for Research on Cancer (IARC). Methods Surface enhanced Raman spectroscopy (SERS) coupled with chemometric methods was applied to detect the presence of Sudan IV in some
Rapid and nondestructive fraud detection of palm oil adulteration with Sudan dyes using portable NIR spectroscopic techniques, PubMed
A total of 520 samples of palm oil were used comprising; 40 authentic samples together with 480 adulterated samples containing Sudan dyes (I, II, III, IV of 120 samples each). Multiplicative scatter correction (MSC) preprocessing technique plus Principal component analysis (PCA) was used to extract relevant spectral information which gave visible cluster trends for authentic samples
Crude red palm oil is a traditional cooking oil in many tropical countries especially in West Africa. Ghanaian researchers (in cooperation with Queens University Belfast) have developed a rapid, non-destructive method to detect Sudan dye adulteration of red palm oil using a portable NIR spectrometer with multivariate analysis. The multivariate model was determined using a total of 520 samples
