Rosted Guar Meal is the high-end protein (Albimin) source of cattle feed and poultry feed all over the world. It has the highest protein (45% to 50%) and good quality fat (5% to 7%). Roasted Guar Meal has approx 60 % to 62 % protein remaining.
Production Capacity / Day: 200 M.T.
**Packing: 25 Kg / 50 Kg PP Bag / 1000 Kg Jumbo Bag Without Pallet Packing.
Guar gum is derived from the endosperm of guar beans. The seeds of the Guar plant consists of three main parts the germ, the endosperm and the husk. Guar gum is processed by removing the husk, followed by milling and filtering to produce a slightly yellow powder that has a good flow.
Guar gum is also economical because it has a better the water-thickening ability than other agents (e.g. cornstarch) and only a small quantity is needed for producing sufficient viscosity.
Guar gum, also called guaran, is a galactomannan polysaccharide extracted from guar beans that has thickening and stabilizing properties useful in food, feed, and industrial applications. The guar seeds are mechanically dehusked, hydrated, milled and screened according to application.
Guar Gum has various food, cosmetics and various industrial applications. It works as a thickener, stabilizer and emulsifier in food and cosmetics as it is one of the most popular thickenings and binding agents. Guar gum is used to get a smooth and creamier texture in ice creams. It can avoid the formation of ice crystals and quick meltdown in dairy products. When used in beverages, guar gum controls viscosity and improves shelf life. Guar gum is used as a viscosifier in pet food products. It helps in improving flow properties in soups and dressings as it is a very good thickener and stabilizer. It can also be used as a binder in sausages which can prevent migration and separation. It can improve texture and flavour in noodles, pastry icings, processed cheese etc.
Packaging:
HDPE Poly woven paper bag with inside liner
Jumbo bags / Big bags
Packing will be done as per customer requirements like 25 kg, 50 kg etc.
Rama Is largest supplier of FH Guar gum used in Drilling fluids hydraulic fracturing
Fast hydration Guar gum powder
Grade - RICOL FH 35-40 RICOL FH 40-45 RICOL FH 45-50
Gum is derived from guar seeds or cyamopsis tetragonoloba termed as Guar Gum. Guar Gum can also be termed as guaran. These seeds have high low-shear viscosity as evaluated with other hydrocolloids Guar Gums are effective thickeners and stabilizers.
Guar Gum is relatively cost effective as compared to other thickeners and stabilizers along with it being an effective binder, plasticizer and emulsifier. One of the important properties of guar gum, a polysaccharide, is that it is high on galactose and mannose. Guar gum is also known as guarkernmehl, guaran, Goma guar, gomme guar and galactomannan
Guar gum is best stabilizing agent that is generally derived from cluster or guar beans which is largely produced in India. The benefits of guar beans are just the endless. They are usually taken best to prepare gluten free baked items and also added in ice-creams, gravies or pudding etc.
Guar meal is one of the bye-product of milling of Guar Gum seed and it can be partially substitute Soyabean meal and utilized as an animal feed ingredients. When mixed with feed formulation, guar meal can be used 5 to 7% for total feed production in layers and broiler and for growers it can be 5-12%.
We Ultra Febtech - An ISO 9001:2008 Certified Company Engaged in Manufacturing of guar gum plants machinery to Convey the Material.The plant has been configured and designed in such a way that minimum work force will require. The guar split will be fed in to the pneumatic system to feed in to the turbo screen. The turbo screen is suggested at the high of plant. The screening will be employed for the removal of foreign matter. This screened material will be stored in a storage hopper. The guar splits will fall from the screens by gravity to the storage hopper, which is configured below the screen. From storage hopper material can be taken in to double cone mixer as and when required by gravity for the rehydrating of guar splits.
All the rehydrated guar split will be sent to the hopper of Flakers at a time by gravity. Flakers will crush the guar splits and crushed guar splits will go into the ultrafine grinder at the uniform rate.
Ultrafine grinder is proposed for the grinding of crushed guar splits. This grinder has ability to grind the material without generating too much heat. Material will be fed into the dryer. Oil will be the media to convey the heat and deliver to the air. This hot air will take the material into the dryer line where actual drying will take place. Attached cyclone system will separate the material and hot air. To heat the oil Thermal boiler will be used.
The material will be screened through centrifugal screen. Material passing through the screen will be again screened through turbo screens as additional control. This material will be sold as a premium product. Oversize of the centrifugal screen will be screened through turbo screen to separate another grade in terms of particle size followed by additional screening. The oversize will be screened through another turbo screen to separate another grade. Oversize will be passed through another grinder. The material will be passed through another screen. Oversize will be recycled to the same grinder.
Final material coming out from all the screens will be sent separately by gravity in to the Nauta mixer for the blending and to make a uniform lot. The products will be tested and packed.
The plant can be operated by 2 skill workers in a shift. The loading/unloading and the packing of the final product can be done on contract basis.
We Ultra Febtech - An ISO 9001:2008 Certified company engaged in manufucturing of Guar gum to convey the material.
The plant has been configured and designed in such a way that minimum work force will require. The guar split will be fed in to the pneumatic system to feed in to the turbo screen. The turbo screen is suggested at the high of plant. The screening will be employed for the removal of foreign matter. This screened material will be stored in a storage hopper. The guar splits will fall from the screens by gravity to the storage hopper, which is configured below the screen. From storage hopper material can be taken in to double cone mixer as and when required by gravity for the rehydrating of guar splits.
All the rehydrated guar split will be sent to the hopper of Flakers at a time by gravity. Flakers will crush the guar splits and crushed guar splits will go into the ultrafine grinder at the uniform rate.
Ultrafine grinder is proposed for the grinding of crushed guar splits. This grinder has ability to grind the material without generating too much heat. Material will be fed into the dryer. Oil will be the media to convey the heat and deliver to the air. This hot air will take the material into the dryer line where actual drying will take place. Attached cyclone system will separate the material and hot air. To heat the oil Thermal boiler will be used.
The material will be screened through centrifugal screen. Material passing through the screen will be again screened through turbo screens as additional control. This material will be sold as a premium product. Oversize of the centrifugal screen will be screened through turbo screen to separate another grade in terms of particle size followed by additional screening. The oversize will be screened through another turbo screen to separate another grade. Oversize will be passed through another grinder. The material will be passed through another screen. Oversize will be recycled to the same grinder.
Final material coming out from all the screens will be sent separately by gravity in to the Nauta mixer for the blending and to make a uniform lot. The products will be tested and packed.
The plant can be operated by 2 skill workers in a shift. The loading/unloading and the packing of the final product can be done on contract basis.
The plant has been configured and designed in such a way that minimum work force will require. The guar split will be fed in to the pneumatic system to feed in to the turbo screen. The turbo screen is suggested at the high of plant. The screening will be employed for the removal of foreign matter. This screened material will be stored in a storage hopper. The guar splits will fall from the screens by gravity to the storage hopper, which is configured below the screen. From storage hopper material can be taken in to double cone mixer as and when required by gravity for the rehydrating of guar splits.
All the rehydrated guar split will be sent to the hopper of Flakers at a time by gravity. Flakers will crush the guar splits and crushed guar splits will go into the ultrafine grinder at the uniform rate.
