Pump selection and modeling calculations

Pump is the use of additional energy delivery liquid or liquid-solid two-phase flow of fluid machinery. In the air pollution control projects often used. Such as wet desulfurization project, wet dust project, gas - water heat exchanger cooling water cycle.

1. Pump classification

Many types of pumps, centrifugal pumps, reciprocating pumps, rotary pumps, jet pumps and so on. In the air pollution control project is the main use of centrifugal pumps . Commonly used are: water pump, pump, mud pump, sand pump, corrosion-resistant pump (acid, lye pump) and so on.

2. Centrifugal pump performance parameters

Flow: pumping unit per unit time or the volume of liquid tunnel, the general proposed by the process.

Head: the unit volume of liquid delivered by the pump to the outlet to increase the value of energy. General use m liquid column said. Head calculation is an important basis for pump selection, pipe network system by laying, installation and operating conditions. Calculate the process sketch before drawing, plan and vertical layout

Pipeline length, pipe diameter and pipe type and quantity, the final calculation of system resistance.

3. Pump selection methods and procedures

â‘  list the basic data

a. Physical properties of the medium: the name of the medium, the specific gravity under the conveying conditions, viscosity, corrosion and the like.

b. The medium contains the solid particle size and content.

c. Operating conditions: temperature; pressure (inlet side equipment pressure, discharge side equipment pressure, discharge side piping pressure drop); flow (normal, minimum and maximum).

d. Pump location: ambient temperature; altitude; pipeline level, elevation requirements; inlet and discharge side of the device to pump center distance and pipeline equivalent length and so on.

â‘¡ determine the flow and lift

a. Flow rate: pump should be considered when the maximum flow rate; if only given the normal flow rate, the device and the process should be based on the specific circumstances of 1.1 safety factor. The above refers to the volume flow.

b. Head (or pressure): According to the pump layout, using Bernoulli equation to find the pump head.

â‘¢ select the pump and pump specific models

According to the characteristics of the media, has been identified the flow, head, and the selection of principles and the working range of the pump to choose the right type of pump. Then select the pump specific model number from the pump manufacturer's catalog and instructions and list the model and water-based performance parameters (flow, head or pressure differential, efficiency, critical suction vacuum level, or critical cavitation allowance ).

â‘£ calculate the performance of the pump

According to the actual performance of the pump performance. The listed performance parameters are listed, if the process requirements are met, the selected pump is available. If necessary, draw the calculated performance curve and piping system performance curve to determine the pump operating point.

⑤ determine the geometry of the pump installation height

â‘¥ calculate the pump shaft power

⑦ selected pump material and shaft seal

⑧ determine the cooling water (or heating steam) consumption

⑨ selection of motor

â‘© to determine the pump standby rate and the number of units

Centrifugal pumps in parallel and in series

â‘  parallel

In the project, when there is a big change in the flow rate requirements, that is, in a certain period of time required to reduce or increase the flow; or a pump can not meet the flow requirements, you can use two or more pumps to work in parallel. When the pump is working in parallel, the flow rate is less than the sum of the flow rates when the pumps are operated individually. The steeper the pipe resistance curve (ie, the greater the pipe resistance), the more the flow decreases in parallel operation.

â‘¡ series

In the project, when using a single pump, the flow has been able to meet, and head less than the predetermined requirements or the original equipment can not be used, require the switch to higher lift system, you can use two or more pumps Series to achieve the desired lift. But pay attention to the pump in series, the pump body strength can meet, in order to ensure safety.

In order to give full play to the efficiency of a single pump, regardless of series, parallel work, should adopt the same specifications of the pump.

Centrifugal pump installation and operation

Pump installation and operation have certain requirements.

Vegetable Hydraulic Tipper

The storage hopper with box tipper is designed to act as a buffer with tipping possibility. A box with produce is placed into the tipper. The box tips and the produce fall down into the storage hopper. An unloading conveyor is mounted at the bottom of the storage hopper, which can convey the produce out of the storage hopper.

Our vegetable hydraulic tipper is designed for gentle, regulated produce tipping. It is usually sold with a conveyor or small hopper to receive tipped produce.A crate is placed on the cradle platform. The tipping cycle is activated and the bin lifts slightly to clamp lightly against the roll-back lid. Hydraulic cylinders tip the secured bin to the full tip position. When the bin is empty, it returns to the start position ready to be removed by forklift.

This means a forklift driver can place a new full plastic crate in the bin cradle then remove the empty one, minimizing forklift movements and improving tip cycle times.

The vegetable tipper could be designed upon client's crate size.


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Shandong Colead Intellectualized Food Processing Equipment Co.,LTD , https://www.colead-tech.com