Turbine Agitator operate at low speed and are much larger than propellers. Turbine has an excellent feature in designing the flow patter where a change in design can divert the flow pattern of fluid by radial flow or axial flow in the reactor vessel. Based on the configuration of the impeller blades these flow patterns can be achieved. Radial design make the fluid to flow at high velocity in radial direction where as axial impellers use pitched blades, make the fluid to flow parallel to shaft in downward direction and then push the fluid towards the wall of the agitator vessel. For gas dispersion operation radial turbine impeller is used and axial turbine impeller is used for chemical reactions, suspension solid and miscible liquid mixing.

Details :

• Available in - Straight blade Pitched blade Vaned disk Curved blade
• Application - Liquid and gas reactions
• Advantages - Excellent for dispersion operations Creates good radial flow
• Disadvantages - Only for less viscous liquid below 15 to 20 Ns/m²

We are acknowledged for meeting the urgent requirements of the clients even on short notice as we are supported by capacious warehouse and streamlined inventory management system. Located in Panvel(India), we have marked our presence as a distinguish Supplier since our products are qualitative and timely delivered. Distillation columns are one of the most often used types of separation equipment in industry.

Distillation : 

• Distillation is one of the most common liquid-liquid separation processes, and can be carried out in a continuous or batch system.
• Distillation works by the application and removal of heat to exploit differences in relative volatility. The heat causes components with lower boiling points and higher volatility to be vaporized, leaving less volatile components as liquids. Mixtures with high relative volatilities are easier to separate. This makes separations of close-boiling and azeotropic feeds difficult, so special distillation techniques have to be used to separate these mixtures.
• Distillation can be used to separate binary or multi-component mixtures. Many variables, such as column pressure, temperature, size, and diameter are determined by the properties of the feed and the desired products. Some specialized columns perform other functions, such as reactive distillation columns, which combine reaction and separation of products into a single unit.

We are a renowned name in the market for providing the best Biodiesel Plant at affordable charges.

We are a renowned name in the market for providing the best Biodiesel Plant at affordable charges.

We are a renowned name in the market for providing the best Biodiesel Plant at affordable charges.

We have a well-developed all the in-house storage facility, laced with all the modern facilities. Also, we have hired a team of professionals who efficiently manage and maintain it. We work in close coordination with the team members and packaging professionals; they ensure that the products are packed sternly using the finest quality packaging materials. Our anti-corrosive biodiesel plants are designed for high-strength, superior weather resistance, easy installation and long service life.

We are a renowned name in the market for providing the best Alum Plant at affordable charges.We are a renowned name in the market for providing the best Alum Plant at affordable charges.We are a renowned name in the market for providing the best Alum Plant at affordable charges.We are a renowned name in the market for providing the best Alum Plant at affordable charges.We are a renowned name in the market for providing the best Alum Plant at affordable charges.

Detergent powder is a surfactant or a mixture of surfactants with "cleaning properties in dilute solutions. These substances are usually alkyl benzenesulfonates, a family of compounds that are similar to soap but are more soluble in hard water, because the polar sulfonate (of detergents) is less likely than the polar carboxyl (of soap) to bind to calcium and other ions found in hard water. Powder detergents work because they are amphiphilic - partly hydrophilic (polar) and partly hydrophobic (non-polar). Their dual nature facilitates the mixture of hydrophobic compounds (like oil and grease) with water. Detergent powder falls into four major groups: Heavy duty detergents (high and low foaming), Light duty detergents, Soap powders, and Soda products. The major use of detergent powders is in households for washing clothes and utensils. They are suitable for hand washing and also for machine washing in laundries and dish washers. The major raw materials used to produce detergent powder are Alkyl benzene sulphonic acid, sodium tri polyphosphate, sodium sulphate, sodium silicate, and caustic soda. Caustic soda can be obtained locally while the other raw materials are supposed to be imported. However, there is a possibility to manufacture sodium sulphate and sodium silicate locally as the starting materials for these chemicals are locally available. Auxiliary material i.e. printed polyethylene is necessary as

Detergent powder is a surfactant or a mixture of surfactants with "cleaning properties in dilute solutions. These substances are usually alkyl benzenesulfonates, a family of compounds that are similar to soap but are more soluble in hard water, because the polar sulfonate (of detergents) is less likely than the polar carboxyl (of soap) to bind to calcium and other ions found in hard water. Powder detergents work because they are amphiphilic - partly hydrophilic (polar) and partly hydrophobic (non-polar). Their dual nature facilitates the mixture of hydrophobic compounds (like oil and grease) with water. Detergent powder falls into four major groups :

• Heavy duty detergents (high and low foaming),
• Light duty detergents,
• Soap powders, and
• Soda products.

Uses :

• The major use of detergent powders is in households for washing clothes and utensils. They are suitable for hand washing and also for machine washing in laundries and dish washers.
• The major raw materials used to produce detergent powder are Alkyl benzene sulphonic acid, sodium tri polyphosphate, sodium sulphate, sodium silicate, and caustic soda. Caustic soda can be obtained locally while the other raw materials are supposed to be imported. However, there is a possibility to manufacture sodium sulphate and sodium silicate locally as the starting materials for these chemicals are locally available. Auxiliary material i.e. printed polyethylene is necessary as

Technology : Production Process

• Standard detergent powder manufacturing plant consists of mixing, drying, after drying, packing and antipollution units. These units are briefly described as follows:
• Mixing unit: Linear alkyl benzene sulphonate paste is metered into a slurry preparation tank together with metered sodium silicate solution, and solid phosphates, sulphates and additives. The slurry preparation tank acts as a coarse mixer. Here lumps are broken down and air pockets are eliminated. Materials after blending are conveyed to an ageing vessel.
• Mixing is carefully controlled to prevent aeration of the slurry. Feed slurry passes through a coarse filter, homogenizer and fine filter. Deaeration of product is carried out if necessary. The slurry of constant solid content and viscosity is ready for spray drying. This detergent slurry is heated and transferred to the top of the spray drying tower by high pressure pump.
• Drying unit - Free flowing, non dusty, non caking detergent products in bead form are produced by Spray Drying mostly in counter current flow using pressure nozzle atomization. The mixed slurry is sprayed through nozzles (under pressure) to create small droplets. Inlet temperatures vary according to product and up to 400^oC inlet temperatures are used for some detergents. Hot air from direct fired air heaters is used for Spray Drying. Exhaust high efficiency 38-9 cyclones / bag houses are used to control emissions and maximize product recovery are part of the spray drying plant. The dried detergent powder is taken out at the bottom of the tower, and is transferred to the sieve by belt conveyor and air lift equipment.
• After drying unit  - The dried detergent powder collected from the bottom of the spray tower is pneumatically conveyed to the product silos after sieving. Here filtered atmospheric air is used as the cooling & conveying media. Dense phase conveying systems are normally preferred.
• After the granules have been cooled, heat sensitive ingredients, which are not compatible with the spray drying temperatures (like bleach, enzymes and fragrance), are added.

Packing unit : The final product is packed here. Detergent powder is fed into the packing machine from baggies.

We have installed all the requisite amenities, necessary for making safe side deliveries. Buyers can approach us for acquiring top-of-the-line quality NPK Fertilizer Plant at coffer-friendly prices! Our NPK fertilizer plant produces round fertilizer granules in various diameters ranging from 1mm to 6mm. 

An exceptional array of finest quality Anchor Type Agitator is offered by us to customers at affordable rates. Our range of anchor agitator is available in various specifications and can be customized as per the requirements of our clients. The sweep diameter of our anchor agitator is attentively designed to ensure better yielding and bonding of reactants, which reduces the load on the motor.

Details :

• Available in -  Round anchor Combine anchor and gate
• Application - Milk and fat processing Paints Adhesives

Advantages :

• Efficient heat exchange between the reactor walls and reaction mass (fluids)
• Supports the reaction of chemical matter Keeps homogeneous liquid volume during storage Superb mixing of liquid

Disadvantages :

• High power consumption
• Requires heavy duty gear box

Propeller agitators are commonly made of three bladed attached to the main shaft. They are flexible in operations and mostly used in mechanical mixing of low to medium viscosity fluids. These type of propellers are also called as marine type propellers. The diameter of the propellers depends on the rotational speed and diameter of the batch reactor or the agitator vessel. Depending on the agitator vessel size and the fluid viscosity the power consumption of the propeller agitator may exceed more than 50kW.

Features of Propeller Agitator :

• The entire machine is operated automatically thereby reducing the need of frequent labor inspection.
• There is an automatic operation using differential pressure method to make the entire work easier and efficient.

Application : Dairy and food processing Chemicals processing

Advantages :

• Less Metzner ott shear rate constant
• Homogenization
• Good miscibility

Disadvantages :

• Motion of liquid starts on one spot
• Dead spots formation at high rotation speeds
• Occurrence of solids settling at low speeds

Paddle Mixers handle substrates high in fibrous material and solid matter. Paddle Mixers are slow moving agitators operating at approx. 10 rpm. A single shaft with welded on fixed pitch paddles faces along the radius towards the middle of the digester. With each turn the paddles cross the complete volume of the digester making sure that the biomass is properly mixed and fresh substrate is well-dispersed.  Even at a high dry substance content layer or crust formation is minimized with paddle blades reaching above the liquid levels of the digester. Paddle mixers can handle a solid content of up to 14%. Fibrous material, such as grass silage is easily taken in and homogeneously distributed.

Available in :

• Flat paddles
• Finger paddles
• Gate paddles

Application :

• Solid mixing
• Slurry mixing

Advantages :

• Heavy duty mixing
• Adjustable to 2 or 4 blades
• Excellent for low speed

Disadvantages :

• High power consumption
• Inefficient liquid circulation

He Zinc Sulphate is major source of Zinc supply to crops. The Zinc deficiency creates poor growth, flowering and fruitation in the plant. Zinc Sulphate Product : 1. Zinc Sulphate Hepta Hydrate Raw Materials : 1. Zinc Ash 2. Sulphuric Acid (Technical grade 98.5% pure) Spent Sulphuric acid may also be used partially in place of Technical grade. Zinc Ash Specifications : 1. Zinc 70% (40 â 72%) 2. Lead (Pb) 8% max ( Lesser the better) 3. Iron (Fe) 5% max 4. Chlorides (Cl) 25 â 30 max (Less the better) Manufacturing Process : A measured quantity of water / wash water is filled in the Digester. The measured quantity of Sulphuric acid is slowly added to the digester. The measured quantity of Zinc ash calculated on stiometic ratio is added slowly with agitation. The addition is continued till the completion of the reaction. As the reaction is complete the suspension is drained in the filtration tank for storage. The suspension is taken to Filter Press with the help of a pump. The suspension is filtered with the filter press. The residue is washed and filtered again for better recovery. After wash the residue remains is good quality Carbon. It is dried and sent to the market. The filtrate is fed to the crystallizer. The cooling is provided by circulating chilled water generated with freezing system. The solution is stirred continuously. As the required temperature is reached the Zinc Sulphate crystals separate out in the mother liquor. The mother liquor is drained into the recycling tank. The separated crystals are centrifuged with the help of centrifuge to remove any liquor remaining. The Zinc Sulphate hepta â hydrate is ready for filling in 1, 2, 5, 10, 25Kg. bags to be sent to market. For mono hydrate the filtrate is dried in a spray Drying system. The mono hydrate is collected in a hopper and packed in 1, 2, 5, 10, 25Kg. bags to be sent to the market. These are some of the major components of Zinc Sulphate Plants: Pumps Rubber Lined Mild Steel Tanks Chillin

We are supported by a well-structured warehousing facility wherein we keep a large stock of products. This unit facilitates us to meet urgent and massive requirements of the customers. We offer online and offline Payment Processing as per the needs of the customers; not just the transactions details, but we sternly keep the personal details confidential that is shared by our clients. The Zinc Sulphate is major source of Zinc supply to crops. The Zinc deficiency creates poor growth, flowering and fruition in the plant.

Zinc Sulphate Product : Zinc Sulphate Hepta Hydrate

Raw Materials :

• Zinc Ash
• Sulphuric Acid (Technical grade 98.5% pure)
• Spent Sulphuric acid may also be used partially in place of Technical grade.

Zinc Ash Specifications :

• Zinc 70% (40 – 72%)
• Lead (Pb) 8% max ( Lesser the better)
• Iron (Fe) 5% max
• Chlorides (Cl) 25 – 30 max (Less the better)

Manufacturing Process :

• A measured quantity of water / wash water is filled in the Digester. The measured quantity of Sulphuric acid is slowly added to the digester. The measured quantity of Zinc ash calculated on stiometic ratio is added slowly with agitation.
• The addition is continued till the completion of the reaction. As the reaction is complete the suspension is drained in the filtration tank for storage. The suspension is taken to Filter Press with the help of a pump. The suspension is filtered with the filter press.
• The residue is washed and filtered again for better recovery. After wash the residue remains is good quality Carbon. It is dried and sent to the market. The filtrate is fed to the crystallizer. The cooling is provided by circulating chilled water generated with freezing system. The solution is stirred continuously.
• As the required temperature is reached the Zinc Sulphate crystals separate out in the mother liquor. The mother liquor is drained into the recycling tank. The separated crystals are centrifuged with the help of centrifuge to remove any liquor remaining. The Zinc Sulphate hepta – hydrate is ready for filling in 1, 2, 5, 10, 25Kg. bags to be sent to market.
• For mono hydrate the filtrate is dried in a spray Drying system. The mono hydrate is collected in a hopper and packed in 1, 2, 5, 10, 25Kg. bags to be sent to the market.

These are some of the major components of Zinc Sulphate Plants :

• Pumps
• Rubber Lined Mild Steel Tanks
• Chilling Plant
• Filter Press
• Mild Steel Storage Tanks
• Crystallizers
• Centrifuge
• Digesters
• Compressors

Turbine Agitator operate at low speed and are much larger than propellers. Turbine has an excellent feature in designing the flow patter where a change in design can divert the flow pattern of fluid by radial flow or axial flow in the reactor vessel. Based on the configuration of the impeller blades these flow patterns can be achieved. Radial design make the fluid to flow at high velocity in radial direction where as axial impellers use pitched blades, make the fluid to flow parallel to shaft in downward direction and then push the fluid towards the wall of the agitator vessel. For gas dispersion operation radial turbine impeller is used and axial turbine impeller is used for chemical reactions, suspension solid and miscible liquid mixing.

Details :

• Available in - Straight blade Pitched blade Vaned disk Curved blade
• Application - Liquid and gas reactions
• Advantages - Excellent for dispersion operations Creates good radial flow
• Disadvantages - Only for less viscous liquid below 15 to 20 Ns/m²

We are acknowledged for meeting the urgent requirements of the clients even on short notice as we are supported by capacious warehouse and streamlined inventory management system. Located in Panvel(India), we have marked our presence as a distinguish Supplier since our products are qualitative and timely delivered. Distillation columns are one of the most often used types of separation equipment in industry.

Distillation : 

• Distillation is one of the most common liquid-liquid separation processes, and can be carried out in a continuous or batch system.
• Distillation works by the application and removal of heat to exploit differences in relative volatility. The heat causes components with lower boiling points and higher volatility to be vaporized, leaving less volatile components as liquids. Mixtures with high relative volatilities are easier to separate. This makes separations of close-boiling and azeotropic feeds difficult, so special distillation techniques have to be used to separate these mixtures.
• Distillation can be used to separate binary or multi-component mixtures. Many variables, such as column pressure, temperature, size, and diameter are determined by the properties of the feed and the desired products. Some specialized columns perform other functions, such as reactive distillation columns, which combine reaction and separation of products into a single unit.

We are a renowned name in the market for providing the best Biodiesel Plant at affordable charges.

We are a renowned name in the market for providing the best Biodiesel Plant at affordable charges.

We are a renowned name in the market for providing the best Biodiesel Plant at affordable charges.

We have a well-developed all the in-house storage facility, laced with all the modern facilities. Also, we have hired a team of professionals who efficiently manage and maintain it. We work in close coordination with the team members and packaging professionals; they ensure that the products are packed sternly using the finest quality packaging materials. Our anti-corrosive biodiesel plants are designed for high-strength, superior weather resistance, easy installation and long service life.

We are a renowned name in the market for providing the best Alum Plant at affordable charges.We are a renowned name in the market for providing the best Alum Plant at affordable charges.We are a renowned name in the market for providing the best Alum Plant at affordable charges.We are a renowned name in the market for providing the best Alum Plant at affordable charges.We are a renowned name in the market for providing the best Alum Plant at affordable charges.

Detergent powder is a surfactant or a mixture of surfactants with "cleaning properties in dilute solutions. These substances are usually alkyl benzenesulfonates, a family of compounds that are similar to soap but are more soluble in hard water, because the polar sulfonate (of detergents) is less likely than the polar carboxyl (of soap) to bind to calcium and other ions found in hard water. Powder detergents work because they are amphiphilic - partly hydrophilic (polar) and partly hydrophobic (non-polar). Their dual nature facilitates the mixture of hydrophobic compounds (like oil and grease) with water. Detergent powder falls into four major groups: Heavy duty detergents (high and low foaming), Light duty detergents, Soap powders, and Soda products. The major use of detergent powders is in households for washing clothes and utensils. They are suitable for hand washing and also for machine washing in laundries and dish washers. The major raw materials used to produce detergent powder are Alkyl benzene sulphonic acid, sodium tri polyphosphate, sodium sulphate, sodium silicate, and caustic soda. Caustic soda can be obtained locally while the other raw materials are supposed to be imported. However, there is a possibility to manufacture sodium sulphate and sodium silicate locally as the starting materials for these chemicals are locally available. Auxiliary material i.e. printed polyethylene is necessary as

Detergent powder is a surfactant or a mixture of surfactants with "cleaning properties in dilute solutions. These substances are usually alkyl benzenesulfonates, a family of compounds that are similar to soap but are more soluble in hard water, because the polar sulfonate (of detergents) is less likely than the polar carboxyl (of soap) to bind to calcium and other ions found in hard water. Powder detergents work because they are amphiphilic - partly hydrophilic (polar) and partly hydrophobic (non-polar). Their dual nature facilitates the mixture of hydrophobic compounds (like oil and grease) with water. Detergent powder falls into four major groups :

• Heavy duty detergents (high and low foaming),
• Light duty detergents,
• Soap powders, and
• Soda products.

Uses :

• The major use of detergent powders is in households for washing clothes and utensils. They are suitable for hand washing and also for machine washing in laundries and dish washers.
• The major raw materials used to produce detergent powder are Alkyl benzene sulphonic acid, sodium tri polyphosphate, sodium sulphate, sodium silicate, and caustic soda. Caustic soda can be obtained locally while the other raw materials are supposed to be imported. However, there is a possibility to manufacture sodium sulphate and sodium silicate locally as the starting materials for these chemicals are locally available. Auxiliary material i.e. printed polyethylene is necessary as

Technology : Production Process

• Standard detergent powder manufacturing plant consists of mixing, drying, after drying, packing and antipollution units. These units are briefly described as follows:
• Mixing unit: Linear alkyl benzene sulphonate paste is metered into a slurry preparation tank together with metered sodium silicate solution, and solid phosphates, sulphates and additives. The slurry preparation tank acts as a coarse mixer. Here lumps are broken down and air pockets are eliminated. Materials after blending are conveyed to an ageing vessel.
• Mixing is carefully controlled to prevent aeration of the slurry. Feed slurry passes through a coarse filter, homogenizer and fine filter. Deaeration of product is carried out if necessary. The slurry of constant solid content and viscosity is ready for spray drying. This detergent slurry is heated and transferred to the top of the spray drying tower by high pressure pump.
• Drying unit - Free flowing, non dusty, non caking detergent products in bead form are produced by Spray Drying mostly in counter current flow using pressure nozzle atomization. The mixed slurry is sprayed through nozzles (under pressure) to create small droplets. Inlet temperatures vary according to product and up to 400^oC inlet temperatures are used for some detergents. Hot air from direct fired air heaters is used for Spray Drying. Exhaust high efficiency 38-9 cyclones / bag houses are used to control emissions and maximize product recovery are part of the spray drying plant. The dried detergent powder is taken out at the bottom of the tower, and is transferred to the sieve by belt conveyor and air lift equipment.
• After drying unit  - The dried detergent powder collected from the bottom of the spray tower is pneumatically conveyed to the product silos after sieving. Here filtered atmospheric air is used as the cooling & conveying media. Dense phase conveying systems are normally preferred.
• After the granules have been cooled, heat sensitive ingredients, which are not compatible with the spray drying temperatures (like bleach, enzymes and fragrance), are added.

Packing unit : The final product is packed here. Detergent powder is fed into the packing machine from baggies.

We have installed all the requisite amenities, necessary for making safe side deliveries. Buyers can approach us for acquiring top-of-the-line quality NPK Fertilizer Plant at coffer-friendly prices! Our NPK fertilizer plant produces round fertilizer granules in various diameters ranging from 1mm to 6mm. 

An exceptional array of finest quality Anchor Type Agitator is offered by us to customers at affordable rates. Our range of anchor agitator is available in various specifications and can be customized as per the requirements of our clients. The sweep diameter of our anchor agitator is attentively designed to ensure better yielding and bonding of reactants, which reduces the load on the motor.

Details :

• Available in -  Round anchor Combine anchor and gate
• Application - Milk and fat processing Paints Adhesives

Advantages :

• Efficient heat exchange between the reactor walls and reaction mass (fluids)
• Supports the reaction of chemical matter Keeps homogeneous liquid volume during storage Superb mixing of liquid

Disadvantages :

• High power consumption
• Requires heavy duty gear box

Propeller agitators are commonly made of three bladed attached to the main shaft. They are flexible in operations and mostly used in mechanical mixing of low to medium viscosity fluids. These type of propellers are also called as marine type propellers. The diameter of the propellers depends on the rotational speed and diameter of the batch reactor or the agitator vessel. Depending on the agitator vessel size and the fluid viscosity the power consumption of the propeller agitator may exceed more than 50kW.

Features of Propeller Agitator :

• The entire machine is operated automatically thereby reducing the need of frequent labor inspection.
• There is an automatic operation using differential pressure method to make the entire work easier and efficient.

Application : Dairy and food processing Chemicals processing

Advantages :

• Less Metzner ott shear rate constant
• Homogenization
• Good miscibility

Disadvantages :

• Motion of liquid starts on one spot
• Dead spots formation at high rotation speeds
• Occurrence of solids settling at low speeds

Paddle Mixers handle substrates high in fibrous material and solid matter. Paddle Mixers are slow moving agitators operating at approx. 10 rpm. A single shaft with welded on fixed pitch paddles faces along the radius towards the middle of the digester. With each turn the paddles cross the complete volume of the digester making sure that the biomass is properly mixed and fresh substrate is well-dispersed.  Even at a high dry substance content layer or crust formation is minimized with paddle blades reaching above the liquid levels of the digester. Paddle mixers can handle a solid content of up to 14%. Fibrous material, such as grass silage is easily taken in and homogeneously distributed.

Available in :

• Flat paddles
• Finger paddles
• Gate paddles

Application :

• Solid mixing
• Slurry mixing

Advantages :

• Heavy duty mixing
• Adjustable to 2 or 4 blades
• Excellent for low speed

Disadvantages :

• High power consumption
• Inefficient liquid circulation

He Zinc Sulphate is major source of Zinc supply to crops. The Zinc deficiency creates poor growth, flowering and fruitation in the plant. Zinc Sulphate Product : 1. Zinc Sulphate Hepta Hydrate Raw Materials : 1. Zinc Ash 2. Sulphuric Acid (Technical grade 98.5% pure) Spent Sulphuric acid may also be used partially in place of Technical grade. Zinc Ash Specifications : 1. Zinc 70% (40 â 72%) 2. Lead (Pb) 8% max ( Lesser the better) 3. Iron (Fe) 5% max 4. Chlorides (Cl) 25 â 30 max (Less the better) Manufacturing Process : A measured quantity of water / wash water is filled in the Digester. The measured quantity of Sulphuric acid is slowly added to the digester. The measured quantity of Zinc ash calculated on stiometic ratio is added slowly with agitation. The addition is continued till the completion of the reaction. As the reaction is complete the suspension is drained in the filtration tank for storage. The suspension is taken to Filter Press with the help of a pump. The suspension is filtered with the filter press. The residue is washed and filtered again for better recovery. After wash the residue remains is good quality Carbon. It is dried and sent to the market. The filtrate is fed to the crystallizer. The cooling is provided by circulating chilled water generated with freezing system. The solution is stirred continuously. As the required temperature is reached the Zinc Sulphate crystals separate out in the mother liquor. The mother liquor is drained into the recycling tank. The separated crystals are centrifuged with the help of centrifuge to remove any liquor remaining. The Zinc Sulphate hepta â hydrate is ready for filling in 1, 2, 5, 10, 25Kg. bags to be sent to market. For mono hydrate the filtrate is dried in a spray Drying system. The mono hydrate is collected in a hopper and packed in 1, 2, 5, 10, 25Kg. bags to be sent to the market. These are some of the major components of Zinc Sulphate Plants: Pumps Rubber Lined Mild Steel Tanks Chillin

We are supported by a well-structured warehousing facility wherein we keep a large stock of products. This unit facilitates us to meet urgent and massive requirements of the customers. We offer online and offline Payment Processing as per the needs of the customers; not just the transactions details, but we sternly keep the personal details confidential that is shared by our clients. The Zinc Sulphate is major source of Zinc supply to crops. The Zinc deficiency creates poor growth, flowering and fruition in the plant.

Zinc Sulphate Product : Zinc Sulphate Hepta Hydrate

Raw Materials :

• Zinc Ash
• Sulphuric Acid (Technical grade 98.5% pure)
• Spent Sulphuric acid may also be used partially in place of Technical grade.

Zinc Ash Specifications :

• Zinc 70% (40 – 72%)
• Lead (Pb) 8% max ( Lesser the better)
• Iron (Fe) 5% max
• Chlorides (Cl) 25 – 30 max (Less the better)

Manufacturing Process :

• A measured quantity of water / wash water is filled in the Digester. The measured quantity of Sulphuric acid is slowly added to the digester. The measured quantity of Zinc ash calculated on stiometic ratio is added slowly with agitation.
• The addition is continued till the completion of the reaction. As the reaction is complete the suspension is drained in the filtration tank for storage. The suspension is taken to Filter Press with the help of a pump. The suspension is filtered with the filter press.
• The residue is washed and filtered again for better recovery. After wash the residue remains is good quality Carbon. It is dried and sent to the market. The filtrate is fed to the crystallizer. The cooling is provided by circulating chilled water generated with freezing system. The solution is stirred continuously.
• As the required temperature is reached the Zinc Sulphate crystals separate out in the mother liquor. The mother liquor is drained into the recycling tank. The separated crystals are centrifuged with the help of centrifuge to remove any liquor remaining. The Zinc Sulphate hepta – hydrate is ready for filling in 1, 2, 5, 10, 25Kg. bags to be sent to market.
• For mono hydrate the filtrate is dried in a spray Drying system. The mono hydrate is collected in a hopper and packed in 1, 2, 5, 10, 25Kg. bags to be sent to the market.

These are some of the major components of Zinc Sulphate Plants :

• Pumps
• Rubber Lined Mild Steel Tanks
• Chilling Plant
• Filter Press
• Mild Steel Storage Tanks
• Crystallizers
• Centrifuge
• Digesters
• Compressors