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In the field of water treatment, chemical dosing pumps are vital devices used to precisely add chemicals to water for water treatment and purification. Calculations for chemical dosing pumps are a critical step in ensuring that the water treatment process runs effectively and efficiently!
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A chemical dosing pump is a device for automatic chemical dosing, which is mainly composed of a pump body, driving mechanism, control system, and liquid container. By precisely controlling the working speed and time of the pump, a specific amount of chemicals (e.g. chlorinating agent, flocculant, pH adjusting agent, anti-scaling agent, etc.) is accurately dosed into the liquid to be treated to realize the regulation and control of water quality, pH, turbidity, disinfection and sterilization and other parameters.
Metering pumps for chemical dosing calculations for boiler feed in steam turbine generator systemsThe formula for chemical dosing pumps usually depends on the type of chemical to be dosed, the water treatment objective and the specific application scenario.
Pharmaceutical Dosage Formula
Dosage (unit: ml/min) = Water Flow (unit: m³/h) × Concentration (unit: mg/L) ÷
Accurate dosing of chemicals: The water treatment process usually requires the dosing of chemicals, such as chlorinating agents, coagulants, pH adjusters, etc., to achieve specific water quality treatment goals, to achieve the accuracy and stability of water quality treatment.
Automated operation: Chemical metering pumps are usually equipped with automated control of the dosing system, which can realize the automatic adjustment and control of the dosage of chemicals.
Improve treatment efficiency: Through precise control of the dosage of chemicals, chemical dosing pumps can ensure that each step in the water treatment process can achieve the best results, thereby improving treatment efficiency and reducing waste of resources.
Cost savings: The correct use of chemical metering pumps can avoid overdose of chemicals or chemical waste situation, in addition, chemical metering pumps can also reduce the cost of labor and maintenance costs, and improve the economic efficiency of the water treatment process.
Ensure water quality and safety: The chemical agents added to the water treatment process have a direct impact on the treatment effect and safety of water quality. Chemical metering pumps can ensure the accuracy and stability of the dosage of chemicals to ensure that the treated water quality meets the relevant safety standards and requirements.
The importance of water treatment chemical metering pump in the water treatment process is self-evident, it can ensure the stability, efficiency, and safety of the water quality treatment process, for the normal operation of the water treatment system provides an important guarantee.
Piston pump: Piston pump is a common type of chemical dosing pump, its working principle is to use the reciprocating motion of the piston in the plunger barrel to realize the suction and discharge of the pharmaceutical. Piston pumps are usually characterized by high pressure, high precision and stability, and are suitable for occasions with strict requirements on the dosage of chemicals. The HJ-Z Mechanical Dosing Pump is an excellent choice.
Dosing pump: Dosing pumps realize the suction and discharge of chemicals through the up and down movement of diaphragm, so as to realize the dosage of chemicals. Solenoid dosing pumps usually have good sealing and corrosion resistance, and are suitable for the dosing of various chemicals.
H solenoid dosing pump 1Peristaltic pump: Peristaltic pump through the rotary movement of the roller or squeeze plate, the liquid in the hose will be pushed forward, to achieve the delivery of pharmaceuticals and dosing. Peristaltic pump has simple, compact, easy-to-maintain the characteristics of some of the need for low-flow, high-precision occasions.
Gear pump: Gear pumps use the rotary motion of the gear to inhale and discharge the agent to achieve the pharmaceutical dosage. Gear pumps have the characteristics of stable flow rate and smooth pressure, which are suitable for some occasions with high flow rate requirements.
Each type of chemical metering pump has its applicable occasions and advantages and disadvantages, Choosing the right type should be based on specific application needs and process requirements for comprehensive consideration.
Proper chemical dosing pump calculations not only improve the treatment efficiency of water treatment systems and reduce wasted resources, but also reduce operating costs and protect the environment and public health.
The Haosh pump manufacturer has advanced production facilities and a technical team that is constantly working on technological innovations and optimization of dosing metering pumps to ensure that the performance and quality of its products are always at the forefront, as well as providing pump equipment such as agitators, accessories and pulsation dampeners.
Pump flow rate is a crucial parameter to consider when choosing or specifying a sanitary pump. It tells us how much liquid the pump can move in a certain amount of time and is usually expressed in gallons per minute (gpm), liters per second (l/s), or cubic meters per hour (m³/h).
Lets say you have a pump that needs to move 100 gallons of water per minute. But the pump can only move 60 gallons per minute. This means that the pump is working at 60% capacity.
Now, lets say you have another pump that can move 150 gallons per minute. This pump is around 67% utilized if its only moving 100 gallons per minute.
As such, knowing how to calculate pump flow rate can help you:
A pumps BEP is the point at which it produces the most flow with the least amount of power. You dont want to operate a pump that isnt powerful enough to meet your needs or one that consumes more energy than necessary.
Worse, failing to operate your pump at its BEP increases the pumps chance of failure.
Now that we know why pump flow rate is important, lets learn how to calculate it.
While there are several ways to calculate pump flow rate, using pump curves is one of the most common. A pump curve goes by several names, including:
Pump curves show the relationship between flow rate and head (the maximum height a pump can raise fluid against gravity) for a given pump. Theyre provided by pump manufacturers and can be found in the product manual or on the manufacturers website.
Check out this pump curve to see what we mean:
Pump curves include a range of performance metrics, such as:
If youve already established some of these metrics, you can use a pump curve to find a pump that meets your desired flow rate. Heres an example of how you can use pump curves to select a pump.
Say youre considering a TF-C100 Centrifugal Pump (whose chart is shown above). Youve picked out the one with a 3.5 impeller diameter that operates at 1 horsepower.
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Assuming that you need the pump to move fluid up 40 feet (head), youll:
Its worth noting that other factors (discussed towards the end of this article) can influence your pumps actual flow rate, including:
Therefore, its advisable to get in touch with the pump experts at Sanitary Fittings if youd like help reading the pump selection curves tailored for your operation.
The affinity laws are a set of formulas that describe the relationship between the variables of pump flow rate, head, speed, and power. There are two sets of affinity or pump laws:
The relevant formula for establishing the flow rate of a specific centrifugal pump when impeller diameter is constant is expressed as: Q/Q = (N/N)
Where Q = flow rate, N = shaft speed, 1 = current or before, and 2 = new or after
By using this formula, we can determine how the flow rate varies when changes are made to the shaft speed. Since the change is directly proportional, a 10% increase in shaft speed will result in a 10% increase in flow rate.
Heres an example of how you can use this affinity law to calculate pump flow rate.
Say youre wondering what your pumps new flow rate, Q, would be if the:
To calculate the new flow rate:
You might want to know how your current flow rate would be affected if you used a different impeller diameter while retaining the same shaft speed.
In this case, the flow rate is directly proportional to the impeller diameter. The relevant formula is: Q/Q = (D/D)
Where Q = flow rate, D = impeller diameter, 1 = current or before, and 2 = new or after
For example, assume that you wanted to calculate the new flow rate, Q, for your pump given that:
Follow these steps:
Expert Tip: Changing the impeller diameter will impact its efficiency. While affinity laws can be helpful for calculating how changes in impeller diameter impact pump performance, theyre not always precise.
If you dont have pump curves, or if the affinity laws arent applicable to your situation, its still possible to calculate pump flow rate manually.
This method requires you to collect the fluid in a measuring container whose volume is known, and then use the following formula to calculate flow rate: Volume of fluid collected / Time taken
For example, if a 20-gallon container took two minutes to fill up, your flow rate would be 20 gallons divided by 2 minutes. The resulting answer of 10 gallons per minute is your pumps flow rate.
You can also attach a flowmeter to the pumps discharge piping to measure the flow rate of the fluid passing through your pump. For optimal results, attach the device as close to the pumps discharge port as possible.
Knowing how to calculate pump flow rate will give you confidence when it comes to finding the right pump for your specific application. This knowledge will save you time, money, and energy in the long run.
Check out the table below to get an idea of how different pumps compare in terms of manufacturer-rated flow rates.
Remember, pump flow rate can be affected by several factors, including:
Its always advisable to consult with a trusted and reliable pump expert to ensure that the sanitary pumps you choose are well suited for your operation.
The team at Sanitary Fittings is committed to providing affordable and high-quality products, coupled with exceptional customer service. You cant go wrong when you choose Sanitary Fittings, as Lewis discovered:
Great product, good price, great customer service and easy to order products that ship fast.
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