Sondex S37 Gasket Plate Heat Exchanger for Liquld Heating and Cooling

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Customization: Available
Customized: Customized
Certification: CE, ISO, RoHS
Gold Member Since 2019

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  • Sondex S37 Gasket Plate Heat Exchanger for Liquld Heating and Cooling
  • Sondex S37 Gasket Plate Heat Exchanger for Liquld Heating and Cooling
  • Sondex S37 Gasket Plate Heat Exchanger for Liquld Heating and Cooling
  • Sondex S37 Gasket Plate Heat Exchanger for Liquld Heating and Cooling
  • Sondex S37 Gasket Plate Heat Exchanger for Liquld Heating and Cooling
  • Sondex S37 Gasket Plate Heat Exchanger for Liquld Heating and Cooling
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Basic Info.

Model NO.
304/316/Titanium /254 SMO/Alloy C-276
Sectional Shape
Square
Performance
Pressure Resistant, Temperature Resistant, Corrosion Resistant
Material
Stainless Steel
Transport Package
Wooden Cae
Specification
Stainless Steel
Trademark
DGXT OR ORM
Origin
China
HS Code
84165000
Production Capacity
100000pieces/Year

Product Description

                                                        DGXT sondex plate heat exchanger

DGXT SONDEX HEAT EXCHANGER TYPES

 

1. Double-pipe heat exchanger

When one fluid flows through the smaller pipe, the other flows through the annular gap between the two pipes. These flows may be parallel or counter-flows in a double pipe heat exchanger.

(A)Parallel flow, where both hot and cold liquids enter the heat exchanger from the same side, flow in the same direction and exit at the same end. This configuration is preferable when the two fluids are intended to reach exactly the same temperature, as it reduces thermal stress and produces a more uniform rate of heat transfer.

(B)Counter-flow, where hot and cold fluids enter opposite sides of the heat exchanger, flow in opposite directions, and exit at opposite ends. This configuration is preferable when the objective is to maximize heat transfer between the fluids, as it creates a larger temperature differential when used under otherwise similar conditions.

Sondex S37 Gasket Plate Heat Exchanger for Liquld Heating and CoolingSondex S37 Gasket Plate Heat Exchanger for Liquld Heating and CoolingSondex S37 Gasket Plate Heat Exchanger for Liquld Heating and CoolingSondex S37 Gasket Plate Heat Exchanger for Liquld Heating and Cooling

2. Shell-and-tube heat exchanger

In a shell-and-tube heat exchanger, two fluids at different temperatures flow through the heat exchanger. One of the fluids flows through the tube side and the other fluid flows outside the tubes, but inside the shell (shell side).

Baffles are used to support the tubes, direct the fluid flow to the tubes in an approximately natural manner, and maximize the turbulence of the shell fluid. There are many various kinds of baffles, and the choice of baffle form, spacing, and geometry depends on the allowable flow rate of the drop in shell-side force, the need for tube support, and the flow-induced vibrations. There are several variations of shell-and-tube exchangers available; the differences lie in the arrangement of flow configurations and details of construction.

In application to cool air with shell-and-tube technology (such as intercooler / charge air cooler for combustion engines), fins can be added on the tubes to increase heat transfer area on air side and create a tubes & fins configuration.

3. Plate Heat Exchanger

A plate heat exchanger contains an amount of thin shaped heat transfer plates bundled together. The gasket arrangement of each pair of plates provides two separate channel system. Each pair of plates form a channel where the fluid can flow through. The pairs are attached by welding and bolting methods. The following shows the components in the heat exchanger.

In single channels the configuration of the gaskets enables flow through. Thus, this allows the main and secondary media in counter-current flow. A gasket plate heat exchanger has a heat region from corrugated plates. The gasket function as seal between plates and they are located between frame and pressure plates. Fluid flows in a counter current direction throughout the heat exchanger. An efficient thermal performance is produced. Plates are produced in different depths, sizes and corrugated shapes. There are different types of plates available including plate and frame, plate and shell and spiral plate heat exchangers. The distribution area guarantees the flow of fluid to the whole heat transfer surface. This helps to prevent stagnant area that can cause accumulation of unwanted material on solid surfaces. High flow turbulence between plates results in a greater transfer of heat and a decrease in pressure.

Sondex S37 Gasket Plate Heat Exchanger for Liquld Heating and CoolingSondex S37 Gasket Plate Heat Exchanger for Liquld Heating and CoolingSondex S37 Gasket Plate Heat Exchanger for Liquld Heating and CoolingSondex S37 Gasket Plate Heat Exchanger for Liquld Heating and Cooling

4. Condensers and Boilers


Heat exchangers using a two-phase heat transfer system are condensers, boilers and evaporators. Condensers are instruments that take and cool hot gas or vapor to the point of condensation and transform the gas into a liquid form. The point at which liquid transforms to gas is called vaporization and vice versa is called condensation. Surface condenser is the most common type of condenser where it includes a water supply device. 

The pressure of steam at the turbine outlet is low where the steam density is very low where the flow rate is very high. To prevent a decrease in pressure in the movement of steam from the turbine to condenser, the condenser unit is placed underneath and connected to the turbine. Inside the tubes the cooling water runs in a parallel way, while steam moves in a vertical downward position from the wide opening at the top and travel through the tube. Furthermore, boilers are categorized as initial application of heat exchangers. The word steam generator was regularly used to describe a boiler unit where a hot liquid stream is the source of heat rather than the combustion products. Depending on the dimensions and configurations the boilers are manufactured. Several boilers are only able to produce hot fluid while on the other hand the others are manufactured for steam production.


Sondex S37 Gasket Plate Heat Exchanger for Liquld Heating and CoolingSondex S37 Gasket Plate Heat Exchanger for Liquld Heating and CoolingSondex S37 Gasket Plate Heat Exchanger for Liquld Heating and CoolingSondex S37 Gasket Plate Heat Exchanger for Liquld Heating and Cooling

DGXT PLATE


 

1.Another type of heat exchanger is the plate heat exchanger. These exchangers are composed of many thin, slightly separated plates that have very large surface areas and small fluid flow passages for heat transfer.

2.Advances in gasket and brazing technology have made the plate-type heat exchanger increasingly practical.

3.In  applications, large heat exchangers of this type are called plate-and-frame; when used in open loops, these heat exchangers are normally of the gasket type to allow periodic disassembly, cleaning, and inspection.

4.There are many types of permanently bonded plate heat exchangers, such as dip-brazed, vacuum-brazed, and welded plate varieties, and they are often specified for closed-loop applications such as refrigeration.

5.Plate heat exchangers also differ in the types of plates that are used, and in the configurations of those plates.

6.Some plates may be stamped with "chevron", dimpled, or other patterns, where others may have machined fins and/or grooves.


7.When compared to shell and tube exchangers, the stacked-plate arrangement typically has lower volume and cost.

8.Another difference between the two is that plate exchangers typically serve low to medium pressure fluids, compared to medium and high pressures of shell and tube.

9.A third and important difference is that plate exchangers employ more countercurrent flow rather than cross current flow, which allows lower approach temperature differences, high temperature changes, and increased efficiencies.


KEYWORDS


small engine exhaust heat exchanger
smc heat exchanger
solar thermal heat exchanger
solex heat exchanger
sondex braze
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sondex s62
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spiral coil heat exchanger
spiral finned tube
spiral flow heat exchanger
spiral plate exchanger
spiral type heat exchanger
spirax sarco plate heat exchanger
spx apv plate heat exchanger
stacked heat exchanger
stainless steel heat transfer
stainless steel maple syrup evaporator
standard shell and tube heat exchangers
static heat exchanger
steam air preheater
steam coil air preheater
steam condenser heat exchanger
steam condenser types
steam condensers

 

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