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Chemical Pump
Our range of products include electromagnetic chemical pump, polypropylene chemical pump, pp monoblock pump, electroplating chemical pump and magnetic drive chemicals process pump.
Electromagnetic Chemical Pump
Product Price: Rs 15,000 / PieceGet Best Price
Product Brochure
Product Details:
| Flow Rate | 151-200 LPM |
| Head | 20 Meter |
| Motor Horsepower | 1HP |
| Brand | Alam Industries |
| Material | Polypropylene |
| Usage/Application | Chemical Dosing |
| Capacity | Upto 250 LPM |
| Frequency | 50Hz |
| Voltage | 380 - 440 Volts |
| Motor Speed | 2800 RPM |
**Basic Details:**
1. **Operating Principle:** Electromagnetic chemical pumps operate on the principle of magnetic coupling. A magnetically driven impeller is connected to a motor via a magnetic field, eliminating the need for a traditional shaft seal.
2. **Material:** These pumps are typically constructed from materials like polypropylene (PP), polyvinylidene fluoride (PVDF), or other chemically resistant materials to ensure compatibility with corrosive or hazardous chemicals.
3. **Applications:** Electromagnetic chemical pumps are used in various industrial applications, including chemical processing, water treatment, plating, and circulation of aggressive and corrosive fluids.
**Specifications/Additional Details:**
1. **Flow Rate:** The flow rate of the pump is specified in liters per minute (LPM) or gallons per minute (GPM). It indicates the pump's capacity to move fluid and varies depending on the pump's size and design.
2. **Head (Pressure):** Head is the measure of the pump's ability to lift or pressurize fluid. It is specified in meters (m) or feet (ft) and depends on the specific application.
3. **Motor Power:** The motor power is specified in horsepower (HP) or kilowatts (kW) and is chosen based on the desired flow rate and head requirements.
4. **Suction and Discharge Size:** The inlet (suction) and outlet (discharge) sizes of the pump are specified based on the desired flow rate and the plumbing system's requirements.
5. **Impeller Type:** The impeller design (e.g., closed, open, semi-open) affects the pump's performance and its ability to handle different types of fluids.
6. **Seal Type:** Electromagnetic pumps use a magnetic coupling to eliminate the need for a traditional mechanical seal. This design prevents leaks and makes the pump suitable for handling hazardous chemicals.
7. **Temperature Range:** The temperature range over which the pump can operate safely should be checked to ensure it meets the requirements of the specific application.
8. **Chemical Compatibility:** Ensure that the materials used in the pump, including the wetted parts, are compatible with the specific chemicals being pumped.
9. **Construction:** The construction of an electromagnetic chemical pump is typically corrosion-resistant, and materials are selected for compatibility with the chemicals being handled.
10. **Mounting Options:** These pumps can be mounted in various ways, including base-mounted, pedestal-mounted, or inline configurations.
11. **Control Options:** Some pumps may have built-in control options for flow rate and pressure regulation, allowing for greater precision in chemical transfer.
12. **Customization:** Manufacturers may offer customization options to meet specific flow rate, head, and material compatibility requirements.
13. **Quality Standards:** Ensure that the pump meets industry-specific quality and safety standards, particularly when used with hazardous or corrosive chemicals.
14. **Maintenance:** Electromagnetic chemical pumps are known for their minimal maintenance requirements due to the absence of shaft seals, but it's still important to consider ease of access for maintenance and cleaning.
15. **Cost:** The cost of an electromagnetic chemical pump can vary depending on its size, specifications, and customizations.
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Polypropylene Chemical Pump
Product Price: Rs 15,000 / PieceGet Best Price
Product Brochure
Product Details:
| Product Type | Mechanical seal pump |
| Head | <20 Meter |
| Motor Phase | Three Phase |
| Material | Polypropylene |
| Phase | Three Phase |
| Usage/Application | Nitric,phosphoric acid,potassium hydroxide,potassium permanganate,sodium hydroxide,sulfuric acid |
| Frequency | 50Hz |
| Discharge Outlet Size | 25 to 50 mm |
| Voltage | 380- 440 Volts |
| Brand | Alam Industries |
**Basic Details:**
1. **Material:** Polypropylene (PP) is the primary construction material for these pumps. PP is chosen for its exceptional corrosion resistance, making it suitable for handling a wide range of corrosive chemicals and fluids.
2. **Applications:** Polypropylene chemical pumps are used in a variety of industrial applications, including chemical processing, wastewater treatment, plating, and circulation of aggressive and corrosive fluids.
**Specifications/Additional Details:**
1. **Flow Rate:** The flow rate of the pump is specified in liters per minute (LPM) or gallons per minute (GPM). It indicates the pump's capacity to move fluid and varies depending on the pump's size and design.
2. **Head (Pressure):** Head is the measure of the pump's ability to lift or pressurize fluid. It is specified in meters (m) or feet (ft) and depends on the specific application.
3. **Motor Power:** The motor power is specified in horsepower (HP) or kilowatts (kW) and is chosen based on the desired flow rate and head requirements.
4. **Suction and Discharge Size:** The inlet (suction) and outlet (discharge) sizes of the pump are specified based on the desired flow rate and the plumbing system's requirements.
5. **Impeller Type:** The impeller design (e.g., closed, open, semi-open) affects the pump's performance and its ability to handle different types of fluids.
6. **Temperature Range:** The temperature range over which the pump can operate safely should be checked to ensure it meets the requirements of the specific application.
7. **Chemical Compatibility:** Ensure that the materials used in the pump, including the wetted parts, are compatible with the specific chemicals being pumped.
8. **Construction:** Polypropylene chemical pumps are typically constructed to be corrosion-resistant, and materials are selected for compatibility with the chemicals being handled.
9. **Seal Type:** Depending on the design, these pumps may use mechanical seals or magnetic coupling to prevent leaks. Choose the seal type suitable for your application.
10. **Mounting Options:** These pumps can be mounted in various ways, including base-mounted, pedestal-mounted, or inline configurations.
11. **Control Options:** Some pumps may have built-in control options for flow rate and pressure regulation, allowing for greater precision in chemical transfer.
12. **Customization:** Manufacturers may offer customization options to meet specific flow rate, head, and material compatibility requirements.
13. **Quality Standards:** Ensure that the pump meets industry-specific quality and safety standards, particularly when used with hazardous or corrosive chemicals.
14. **Maintenance:** Consider ease of maintenance, including access to components like seals and impellers, when selecting a polypropylene chemical pump.
15. **Cost:** The cost of a polypropylene chemical pump can vary depending on its size, specifications, and customizations.
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Pp Monoblock Pump
Product Price: Rs 14,800 / PieceGet Best Price
Product Brochure
Product Details:
| Head | <20 Meter |
| Usage/Application | Chemical Dosing |
| Material | Polypropylene |
| Product Type | Polypropylene pump |
| Maximum Discharge Flow | 100 - 500 LPM |
| Brand | Alam Industries |
| Phase | 3-Phase |
| Power Source | Electric |
| Frequency | 50Hz |
| Voltage | 380- 440 Volts |
| Automation Grade | Automatic |
**Basic Details:**
1. **Material:** The primary construction material for PP monoblock pumps is polypropylene (PP). Polypropylene is chosen for its exceptional corrosion resistance, even in highly aggressive chemical environments.
2. **Monoblock Design:** PP monoblock pumps are characterized by their compact and integrated design. The pump and motor are combined into a single unit, making them easy to install and maintain.
3. **Applications:** These pumps are widely used in industries such as chemical processing, pharmaceuticals, wastewater treatment, electroplating, and others, where the handling of corrosive or aggressive fluids is necessary.
**Specifications/Additional Details:**
1. **Flow Rate:** The flow rate of the pump is specified in liters per minute (LPM) or gallons per minute (GPM) and indicates the pump's capacity to move fluids. The flow rate can vary based on the pump's size and design.
2. **Head (Pressure):** Head is a measure of the pump's ability to lift or pressurize fluids. It is typically specified in meters (m) or feet (ft) and depends on the specific application's requirements.
3. **Motor Power:** The motor power is specified in horsepower (HP) or kilowatts (kW) and is selected based on the desired flow rate and head requirements of the application.
4. **Suction and Discharge Size:** The inlet (suction) and outlet (discharge) sizes of the pump are specified based on the required flow rate and the plumbing system's requirements.
5. **Impeller Type:** The design of the impeller (e.g., closed, open, semi-open) affects the pump's performance and its ability to handle different types of fluids.
6. **Temperature Range:** PP monoblock pumps can operate within a specified temperature range, and it is essential to ensure that the chosen pump can handle the temperature requirements of the application.
7. **Chemical Compatibility:** Polypropylene is known for its resistance to a wide range of chemicals, but it is crucial to verify compatibility with the specific chemicals being pumped.
8. **Construction:** The wetted parts of the pump, including the impeller, casing, and shaft, are typically made of polypropylene. The motor housing is also designed to be corrosion-resistant.
9. **Mounting Options:** PP monoblock pumps can be mounted in various ways, including base-mounted or pedestal-mounted configurations.
10. **Control Options:** Some pumps may have built-in control options for flow rate and pressure regulation, allowing for greater precision in fluid transfer.
11. **Customization:** Manufacturers may offer customization options for PP monoblock pumps to meet specific flow rate, head, and material compatibility requirements.
12. **Quality Standards:** Ensure that the pump meets industry-specific quality and safety standards, particularly when used with hazardous or corrosive fluids.
13. **Maintenance:** PP monoblock pumps are known for their minimal maintenance requirements due to their design, but it's still important to consider ease of access for maintenance and cleaning.
14. **Cost:** The cost of PP monoblock pumps can vary depending on their size, specifications, and customizations.
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Electroplating Chemical Pump
Product Price: Rs 15,500 / PieceGet Best Price
Product Brochure
Product Details:
| Maximum Flow Rate | 150LPM |
| Motor Horsepower | 1 HP |
| Head | <20 Meter |
| Stages | Single Stage |
| Usage/Application | Industrial |
| Motor Phase | Three Phase |
| Material | Polypropylene |
| Brand | Alam Industries |
**Basic Details:**
1. **Applications:** Electroplating chemical pumps are primarily used in the electroplating industry for transferring plating solutions, chemicals, and rinse waters. They are essential for maintaining the chemical baths required for electroplating processes.
2. **Material Compatibility:** These pumps are constructed from materials that are highly resistant to corrosion and chemical attack. Common materials include polypropylene (PP), polyvinylidene fluoride (PVDF), and stainless steel (316 stainless steel).
3. **Chemical Compatibility:** Electroplating chemical pumps are designed to handle a wide range of plating chemicals, including acids, bases, metal salts, and various electrolytes. It's crucial to ensure that the pump materials are compatible with the specific chemicals used in the electroplating process.
**Specifications/Additional Details:**
1. **Flow Rate:** The flow rate of the pump is specified in liters per minute (LPM) or gallons per minute (GPM) and indicates the pump's capacity to move plating solutions and chemicals. The required flow rate depends on the size and requirements of the electroplating tank.
2. **Head (Pressure):** Head is the measure of the pump's ability to lift or pressurize fluids. It is specified in meters (m) or feet (ft) and depends on the height of the plating tank and the plumbing system.
3. **Motor Power:** The motor power is specified in horsepower (HP) or kilowatts (kW) and is chosen based on the desired flow rate, head requirements, and the specific plating chemicals being handled.
4. **Suction and Discharge Size:** The inlet (suction) and outlet (discharge) sizes of the pump are specified based on the desired flow rate and the plumbing system's requirements.
5. **Impeller Type:** The impeller design (e.g., closed, open, semi-open) affects the pump's performance and its ability to handle different types of plating solutions and chemicals.
6. **Temperature Range:** The temperature range over which the pump can operate safely should be checked to ensure it meets the requirements of the electroplating process.
7. **Seal Type:** Electroplating chemical pumps are often equipped with chemical-resistant seals or magnetic drive mechanisms to prevent leaks and contamination of the plating bath.
8. **Construction:** These pumps are designed for durability and chemical resistance. Wetted parts, including the pump casing, impeller, and seals, are typically made of materials that can withstand the corrosive nature of plating solutions.
9. **Mounting Options:** Electroplating chemical pumps can be mounted in various ways, including base-mounted, pedestal-mounted, or inline configurations.
10. **Control Options:** Some pumps may have built-in control options for flow rate and pressure regulation, allowing for precise control of chemical delivery.
11. **Customization:** Manufacturers may offer customization options to meet specific flow rate, head, and material compatibility requirements.
12. **Quality Standards:** Ensure that the pump meets industry-specific quality and safety standards, particularly when used in critical electroplating processes.
13. **Maintenance:** Consider ease of maintenance, cleaning, and replacement when selecting electroplating chemical pumps. Some designs may allow for easy access and servicing.
14. **Cost:** The cost of electroplating chemical pumps can vary depending on their size, specifications, and customizations.
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Magnetic Drive Chemicals Process Pump
Product Price: Get Latest Price
Product Details:
| Maximum Flow Rate | 250LPM |
| Usage/Application | To safely transfer corrosive, toxic, and even high-temperature chemicals |
| Material | Polypropylene / PVDF |
| Motor Power | 1HP |
| Voltage | 380 - 440 Volts |
| Motor Phase Type | 3-Phase |
| I Deal In | New Only |
| Brand | Alam Industries |
**Basic Details:**
1. **Operating Principle:** Magnetic drive chemical process pumps operate based on the principle of magnetic coupling. A magnetic field connects the motor and the impeller, allowing the impeller to rotate without the need for a mechanical shaft seal.
2. **Material:** These pumps are typically constructed from materials such as polypropylene (PP), polyvinylidene fluoride (PVDF), or other chemically resistant materials to ensure compatibility with corrosive or hazardous chemicals.
3. **Applications:** Magnetic drive chemical process pumps are used in various industrial applications, including chemical processing, pharmaceuticals, water treatment, and circulation of aggressive and corrosive fluids.
**Specifications/Additional Details:**
1. **Flow Rate:** The flow rate of the pump is specified in liters per minute (LPM) or gallons per minute (GPM) and indicates the pump's capacity to move fluid. It varies depending on the pump's size and design.
2. **Head (Pressure):** Head is the measure of the pump's ability to lift or pressurize fluid. It is specified in meters (m) or feet (ft) and depends on the specific application.
3. **Motor Power:** The motor power is specified in horsepower (HP) or kilowatts (kW) and is chosen based on the desired flow rate and head requirements.
4. **Suction and Discharge Size:** The inlet (suction) and outlet (discharge) sizes of the pump are specified based on the desired flow rate and the plumbing system's requirements.
5. **Impeller Type:** The impeller design (e.g., closed, open, semi-open) affects the pump's performance and its ability to handle different types of fluids.
6. **Temperature Range:** The temperature range over which the pump can operate safely should be checked to ensure it meets the requirements of the specific application.
7. **Chemical Compatibility:** Ensure that the materials used in the pump, including the wetted parts, are compatible with the specific chemicals being pumped.
8. **Construction:** Magnetic drive chemical process pumps are typically constructed to be corrosion-resistant, and materials are selected for compatibility with the chemicals being handled.
9. **Mounting Options:** These pumps can be mounted in various ways, including base-mounted, pedestal-mounted, or inline configurations.
10. **Control Options:** Some pumps may have built-in control options for flow rate and pressure regulation, allowing for greater precision in chemical transfer.
11. **Customization:** Manufacturers may offer customization options to meet specific flow rate, head, and material compatibility requirements.
12. **Quality Standards:** Ensure that the pump meets industry-specific quality and safety standards, particularly when used with hazardous or corrosive chemicals.
13. **Maintenance:** Magnetic drive chemical process pumps are known for their minimal maintenance requirements due to the absence of shaft seals, but it's still important to consider ease of access for maintenance and cleaning.
14. **Cost:** The cost of a magnetic drive chemical process pump can vary depending on its size, specifications, and customizations.
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