Ginger root Botanical name: Zingiber officinale Linn. Family: Zingiberaceae. Ginger oil and oleoresins are the volatile oil derived by steam distillation of ginger and oleoresin. It is obtained by percolating the powdered rhizomes of Ginger, Zingiber officinale with volatile solvents. Ginger contains 1-2 percent of volatile oil, 5-8 percent of pungent acrid oleoresin and starch. Zingiberene is the chief constituent in the oil of ginger. Oil is employed for flavoring all kinds of food products and confectionary and finds limited use in perfumery. Oleoresin, commercially called Gingerin contains pungent principles viz. gingerol and shogaol apart from the volatile oil of ginger and is used as an aromatic, carminative, stomachic and as a stimulant. Oleoresin from ginger is obtained conventionally by extraction of dried powdered ginger with organic solvents like ethyl acetate, ethanol or acetone. Commercial dried ginger yields 3.5-10.0 per cent oleoresin. Ginger oleoresin is a dark brown viscous liquid responsible for the flavour and pungency of the spice. Ginger of commerce or `Adrak` is the dried underground stem or rhizome of the plant, which constitutes one of the five most important major spices of India, standing third or fourth, competing with chillies, depending upon fluctuations in world market prices, world market demand and supply position. Ginger, like cinnamon, clove and pepper, is one of the most important and oldest spices. It consists of the prepared and sun dried rhizomes known in trade as `hands` and `races` which are either with the outer brownish cortical layers (coated or unscraped), or with outer peel or coating partially or completely removed. Ginger requires a warm and humid climate. It is cultivated from sea level to an altitude of 1500 meters, either under heavy rainfall conditions of 150 to 300 cm or under irrigation. The crop can thrive well in sandy or clayey loam or lateritic soils. The composition of dry ginger is given below: Dry Ginger rootMoisture:6.9 % Protein:8.6 % Fat:6.4 % Fiber:5.9 % Carbohydrates:66.5 % Ash:5.7 % Calcium:0.1 % Phosphorous:.15 % Iron:0.011 % Sodium:0.03 % Potassium:1.4 % Vitamin A:175 I.U./100 g Vitamin B1:0.05 mg/100 g Vitamin B2:0.13 mg/100 g Niacin:1.9 mg/100 g Vitamin C:12.0 mg/100 g Calorific value:380 calories/100 g. Ginger Oleoresin is obtained by extraction of powdered dried ginger with suitable solvents like alcohol, acetone etc. Unlike volatile oil, it contains both the volatile oil and the non-volatile pungent principles for which ginger is so highly esteemed. Concentration of the acetone extract under vacuum and on complete removal of even traces of the solvent used, yields the so called oleoresin of ginger. Ginger oleoresin is manufactured on a commercial scale in India and abroad and is in great demand by the various food industries.
Capsicum Oleoresin is prepared by extracting the crushed capsicum (Capsicum Annum Linn) with volatile solvents by percolation method. It contains the pungent principles, capsicin not less that 8 percent. It also contains the red colouring matter called Capsanthin. This product is a powerful irritant and a carminative, which is also used as a counter irritant in lumbago and neuralgia. It can also be used to treat stomach ache that involves poorly functioning stomach muscles and as an antibacterial agents. Extraction of oleoresin capsicum from peppers involves finely ground capsicum, from which capsaicin is extracted in an organic solvent such as ethanol. The solvent is then evaporated, and the remaining wax like resin is the oleoresin capsicum. An emulsifier such as propylene glycol is used to suspend the OC in water, and pressurized to make it aerosol in pepper spray. The high performance liquid chromatography (HPLC) method is used to measure the amount of capsaicin within pepper sprays. Scoville Heat Units (SHU) are used to measure the concentration or "heat" of pepper spray. A synthetic analogue of capsaicin, pelargonic acid vanillylamide (desmethyldihydrocapsaicin), is used in another version of pepper spray known as PAVA spray which is used in the United Kingdom. Another synthetic counterpart of pepper spray, pelargonic acid morpholide, was developed and is widely used in Russia. Its effectiveness compared to natural pepper spray is unclear. Pepper spray typically comes in canisters, which are often small enough to be carried or concealed in a pocket or purse. Pepper spray can also be bought concealed in items such as rings. There are also pepper spray projectiles available, which can be fired from a paintball gun. It has been used for years against demonstrators. Derived from chilli peppers, oleoresin capsicum is the active ingredient in pepper spray and in some topical pain relievers.
During last decade Guar has immerged as an important industrial raw material and Produced by man for thousands of years. India has been the single largest producer and exporter of Guar gum accounting for more than 80 percent of the global output and trade. Guar has now assumed a larger role among the domesticated plants due to its unique functional properties. India Ranks First in the production of guar which is grown in the North Western part of the Country which mainly includes the states of Rajasthan, Gujarat, Haryana and Punjab. Other main countries are Pakistan, U.S.A and Brazil The by-product of Guar Gum industry consisting of the outer seed coat and germ material is called guar meal. The Guar meal after gum Extraction is a potential source of protein and contains about 42% crude protein which is one and a half times more than the level of protein in guar seed. The protein content in guar meal is well comparable with that of oil cakes. It is used as a feed for livestock including poultry. Guar meal contains two deleterious factors i.e. residual guar gum and trypsin inhibitor, Toasting of Guar Gum improves its nutritive value in chicks. Toasted guar Meal can be used in limited quantity i.e. Up to 10% in Poultry diet. However it can replace groundnut cake by almost 100% in animal feeds. Guar Gum (Galactomanan) is a high molecular weight carbohydrate polymer made up of a large number of mannose and galactose unit linked together. The crude Guar Gum is a greyish white powder 90% of which dissolves in water. It is non ionic polysaccharide based on the milled endosperm of the guar bean whose average. Composition is: Hydrocolloid: 23% Fats: 40% Proteins: 34% The most important property of the Guar is its ability to hydrate rapidly in cold water to attain a very high viscosity at relatively low concentrations. Its specific colloidal nature gives the solution an excellent thickening power which is 6 to10 times thicker than that obtained from starch. It is stable over a wide range of PH and it also improves the flow ability and pump ability of the fluid. It is a superior friction loss reducing agent.
Guar Gum Split is refined endosperm derived from guar seed or cluster bean (cyamoperm tetragonoloba). Guar Splits are non-ionic polysaccharide galacomannan. Guar Gum Refined Split (Endosperm) is mechanically separated from guar seed which yields 28-30% of Refined Split. Guar beans are harvested and dried following the growing season. The beans are shelled from the pods, the germ and hull removed. The resulting guar splits are wet-milled into powder; the powder is graded by granulation and quality. Products are re-blended according to specification, bagged and marked. Guar Gum Split with its versatile inherent properties is used all over the globe with different utilities in many industries like Petroleum (Oil drilling), textile, printing, food pharma, cosmetic, toiletries paper, tanneries, mining, explosives, pet food etc. in powder form either directly plain Guar Gum Powder or in derived form. Uses : Guar Gum Split with its versatile inherent properties is used all over the globe with different utilities in many industries like Petroleum (Oil drilling), textile, printing, food pharma, cosmetic, toiletries paper, tanneries, mining, explosives, pet food etc. These industries use Guar Gum in powder form either directly plain Guar Gum Powder or in derived form. We provide quality Guar Gum Splits to quality manufacturer of Guar Gum Powder, which is their pre-requirement for manufacturing high quality Guar Gum. Specifications: Color Pale-white Gum Content 80-85% Splits 92-98% Mineral Matter (ASH) 1.5% max Fiber 1.5 – 2.0 % max Protein 5% Maximum Ether Soluble Substances 0.6% Maximum Acid insoluble ash (sand and/or silica) Traces Black Split 1% max Heavy Metals Nil Appearance Bright creamy yellow Packaging: Type of Bags Quantity HDPE Bags 50.00 Kgs Jumbo Bags 1000.00 Kgs
Guar Churi is a by-product after processing the Guar Seed. That is, Guar gum is extracted from the guar seed Cyamopsis Tetragonoloba of leguminous plant. The extracted guar meal is further processed by toasting at a high temperature to remove Trypsin Inhibitor, thus improving its nutritive value. Guar Churi is rich in proteins and carbohydrates, and is a 100 percent natural agricultural product without the addition of any chemicals or preservatives. Processed guar meal can be used either in conjunction with other feed stuffs or by itself, as it is a complete nutritional feed. Guar Churi is a bi-meal product obtained after processing of guar seeds. The processed Guar Meal is usually rich in proteins and carbohydrates and thus forms a good high protein food for animals, cattle and poultry. This is mainly used to feed the milking animals for getting more milk and more percentage of fat in milk. It is generally cheaper than soya bean meal products. Shubhlaxmi industries, we have recently developed a special guar Meal for Ketal feed industry.
Roasted Guar Korma has been developed as a product free of antinutritive factors with balanced Amino Acid Profile. Suitable for Poultry, Swine, Ruminant and Aquaculture. Processed with heat and steam, inactivates harmful trypsin inhibitor which indirectly enhances protein and Amino acids digestibility in the product resulting in increased productivity of livestock and poultry. This process also reduces gummy substance by hydrolysing glactomannan and heat breaks cell walls resulting in higher digestibility of Guar Korma. The anti-nutritive trypsin inhibitor is present in both Soybean and Guar seed, but gets inactive when processed into Soybean meal and Guar meal respectively. We have two qualities of Roasted Guar Korma namely ULTRA and PREMIUM In Roasted Guar Korma ULTRA, the minimum protein content is 48 % and in Roasted Guar Korma PREMIUM, the minimum protein content is 55 %. The other nutritional and Amino Acid values of ULTRA and PREMIUM Roasted Guar Korma are listed below:- • Higher percentage of Crude Protein (CP) • Free From Aflatoxins • Higher Digestibility Index, due to the removal of anti-nutritive factors • More desirable and balanced Amino acid Profile • Higher Energy content and fat percentage • Lower percentage of less digestible Fibre • Higher Palatability, complete elimination of characteristic bean odour and taste. • Low content of Total Volatile Nitrogen (TVN) • Free flowing, uniform fine particle size with good fat and water binding ability NUTRITIONAL VALUES ULTRA PREMIUM Protein 48% – 50% 55% – 60% Metabolize Energy 2550 KCal/Kg 2700 KCal/Kg Moisture Less Than 8% Less Than 6% Fiber 6% – 8% 4% – 5% Fat 5.00% 5.00% Ash/ Sand Silica Less Than 2% Less Than 1% Calcium 0.55% 0.55% Phosphorus 0.68% 0.68% Available Phosphorus 0.19% 0.19% Urease Activity Less Than 1% Less Than 1% Pepsin Digestibility 85.00% 85.00% Trypsin Inhibitor Less Than 1 Less Than 1 Aflatoxins NIL NIL Salmonella NIL NIL E.Coli NIL NIL
FH SERIES OF PRODUCTS: FH products are Pure nonionic derived the endosperm of guar polysaccharide (Cyamopsos tetragonolobus). The products are unique with ultra-high viscosity with fastest hydration characteristics as shown in Figure 1 below. Also, when added with other drilling components, to seawater, a KCl solution or other aqueous system, the product suspension disperses readily without lumping, even under low-shear conditions generating most of its full viscosity within just a few minutes. PRODUCT COMPATIBILITY: FH series of products are compatible with most of the chemicals and auxiliaries used in drilling operations. However, the products are not compatible with Arabic and Crystal gums. Also, in presence of borates they form elastic gel. PRODUCT APPLICATIONS: FH series of products are natural, high viscosity, fast hydrating non-Newtonian hydrocolloids with suitable cross linking components in diesel slurries and are versatile for continuous mix applications, where extremely fast hydration and subsequent viscosity development is required. They are excellent viscosifiers, stabilizers, thickeners and suspending agent for use in oil-drilling, workover fluids and several other oilfield applications like hydraulic fracturing, oil well stimulation, mud drilling, oil well capping, flocculent and liquid shoring etc. The product is used as a surfactant; synthetic polymer and deformer ideally suited for all rheological requirements of water based and brine based drilling fluids. Specifications:- PRODUCT : FH-35 FH-38 FH-42 CAS No. : 9000-30-0 9000-30-0 9000-30-0 Granulation : FINE FINE FINE APPEARANCE : OFF WHITE POWDER MOISTURE : 8% Max. 8% Max. 8% Max. PROTEIN (N X 6.25) : 5.0% Max 5.0% Max 5.0% Max ASH : 1.5% Max. 1.5% Max. 1.5% Max. ACID INSOLUBLE RESIDUE (A.I.R.) : 3% Max. 3% Max. 3% Max. CARBOHYDRATE (incl gum by difference) : 82% Min 82% Min 82% Min pH (1% Solution) : 5.5 ? 6.5 5.5 ? 6.5 5.5 ? 6.5 VISCOSITY : (0.48% Product in 2% KCL Sol. 2.5 mins mix @1500 RPM in waring blender) Fann 35sa Viscometer at 300 RPM, 25�C 3 Mins : 35 3 Min:38 3 Mins : 42 5 Mins : 37 5 Mins : 39 5 Mins : 43 30 Mins : 39 30 Mins : 42 30 Mins : 45 60 Mins : 40 60 Mins : 43 60 Mins : 47
Maize Starch is a principal product of processing corn, one of nature's major renewable resources. It is also a key material for the manufacture of corn based biochemical products ranging from corn sweeter to amino acids.
Maize Starch is a principal product of processing corn, one of nature major renewable resources. It is also a key material for the manufacture of corn based biochemical products ranging from corn sweeter to amino acids. Features
