Plate Heat Exchanger for Wine Cooler Cooling, Plate Heat Exchanger for Formaldehyde Cooling

Product Details
Customization: Available
After-sales Service: 1 Year
Warranty: 1 Year
Gold Member Since 2019

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  • Plate Heat Exchanger for Wine Cooler Cooling, Plate Heat Exchanger for Formaldehyde Cooling
  • Plate Heat Exchanger for Wine Cooler Cooling, Plate Heat Exchanger for Formaldehyde Cooling
  • Plate Heat Exchanger for Wine Cooler Cooling, Plate Heat Exchanger for Formaldehyde Cooling
  • Plate Heat Exchanger for Wine Cooler Cooling, Plate Heat Exchanger for Formaldehyde Cooling
  • Plate Heat Exchanger for Wine Cooler Cooling, Plate Heat Exchanger for Formaldehyde Cooling
  • Plate Heat Exchanger for Wine Cooler Cooling, Plate Heat Exchanger for Formaldehyde Cooling
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Overview

Basic Info.

Model NO.
N40/N35/VT20
Application
Heater, Cooler, Vaporizer, Condenser
Principle
Recuperative Heat Exchanger
Style
Plate Type
Material
Stainless Steel
Transport Package
Wooden Case
Specification
Customized
Trademark
DGXT OR OEM
Origin
China
HS Code
84195000
Production Capacity
100000pieces/Year

Product Description

Heat Transfer by Plate Heat Exchangers
Model Corrugated angle Center distance Size Corrugated depth DN Cleat Splint size
(W*H)
RX0.08 120°    416*86 497*168 3.0 50Inner 20mm 235*525
M6-0.15 126°    496*140 604*250 3.0 DN50/DN65 25mm 342*694
RX0.16 120    565*155 665*248 3.6 DN40/DN50 25mm 320*710
M6-1-0.19 126°    639*140 750*250 3.0 DN50/DN65 25mm 342*842
M6-2-0.25 126°    886*140 1000*250 3.0 DN50/DN65 25mm 380*1104
M6-2-0.25-SH 126    886*140 1000*250 2 DN50/DN65 25mm 380*1104
RX0.3 120    875*180 1000*303 3.6 DN65 30mm 400*1074
RX1001-0.33 120°    716*223 875*375 3.7 DN80-DN100 30mm 490*1126
RX1002-0.46 1200   1058*223 1219*375 3.7 DN80-DN100 30mm 500*1478
M10-S-0.33 57°121°   720*223 875*375 4.0 DN80-DN100 30mm 490*1126
M10-L-0.45 57°121   1047*223 1205*375 4.0 DN80-DN100 30mm 500*1478
RX1502-0.61 120°   1000*290 1219*500 3.7 DN125-DN150 35mm 610*1488
RX1503-0.75 120° 1280*290 1500*500 3.7 DN125-DN150 35mm 610*1769
M15MD1-0.45 61°123° 698*298 906*500 4.0 DN125-DN150 35mm 610*1153
M15MD2-0.55 61°123° 897*298 1105*500 4.0 DN125-DN150 35mm 610*1352
M15MD3-0.70 61°123 1195*298 1403*500 4.0 DN125-DN150 35mm 500*1647
M15M-0.75 61°123° 1294*298 1502*500 4.0 DN125-DN150 35mm 610*1746
M15BD-0.61 70°130° 1012*298.5 1220*500 2.6 DN125-DN150 35mm 610*1448
M15B-0.75 70°130° 1294*298.5 1502*500 2.6 DN125-DN150 35mm 610*1746
Model Corrugated angle Center distance Size Corrugated depth DN cleat Splint size
(W*H)
RX2001-0.75 120 970*345 1234*610 3.7 DN200 40mm 735*1576
RX2002-1.08 120° 1515*345 1778*610 3.7 DN200 40mm 735*2126
M20MD-0.94 49132° 1229*353 1500*625 4.0 DN200 40mm 736*1764
M20M-1.1 49132° 1479*353 1750*625 4.0 DN200 40mm 736*1994
T20BD-0.96 70°126.5° 1267.5*353 1540*625 2.0 DN200 40mm 756*1744
T20B-1.1 70°126.5° 1478*353 1750*625 2.0 DN200 40mm 756*1994
RX2501-1.06 120° 1096*436 1415*750 3.7 DN250 45mm 870*1765
RX2502-1.33 120° 1451*436 1772*750 3.7 DN250 45mm 870*1260
MX25D1-1.0 56120.5° 1013*439 2252*750 4.0 DN250 45mm  
MX25D2-1.34 56120.5 1476*439 1789*750 4.0 DN250 45mm  
MX25M-1.69 56120.5° 1939*439 1326*750 4.0 DN250 50mm  
MX25B-1.69 127.5 1939*439 2252*750 2.6 DN250 50mm  
RX3002-1.55 120° 1385*480 1772*868 3.7 DN300 55mm 1062*2132
M30A-1.5 67°127° 1085*596 1493*1000 3.4 DN300-DN350 60mm 1129*1860
M30B-1.86 67°127 1446*596 1854*1000 3.4 DN300-DN350 65mm 1129*2200
M30C-2.3 67127° 1842*596 2250*1000 3.4 DN300-DN350 70mm 1129*2600
TL35S-2.57 128 2178*578 2591*991 7.5 DN300-DN350 80mm 3000*1200
T45A-2.6 60°118° 1528*720 2060*1250 4.0 DN400-DN450 80mm 1430*2440
T45B-3.2 60118° 1998*720 2530*1250 4.0 DN400-DN450 90mm 1420*2970


Function of a Plate Heat Exchanger
A plate Heat Exchanger is a unit which transfers heat continuously from one media to another media without adding energy to the process. The basic concept of a plate and frame Heat Exchanger is two liquids flowing on either side of a thin corrugated metal plate so heat may be easily transferred between the two.

The plate Heat Exchanger efficiency requires less floor space compared to other types of Heat Transfer equipment and is lighter in weight.


Design of a Plate Heat Exchanger
The plate Heat Exchanger is designed with either single-pass or multi-pass flow, depending on the duty. For most duties single-pass is suitable and often the preferred solution as it keeps all connections on the stationary frame part and consequently makes disassembly easier. Multi-Pass however, is required when flow rates are low or when approach temperatures are close. Other factors such as building ceiling height or space limitations for handling of large plates often leads to the decision to use multi-pass and thereby more and smaller plates.

Types of a Plate Heat Exchangers

Paraflow Plate Heat Exchangers
The Paraflow is the original plate type Heat Exchanger designed by APV to provide maximum efficiency and cost effectiveness in handling a wide variety of Heat Transfer applications.


ParaBrazed Plate Heat Exchangers
ParaBrazed Heat Exchangers are a compact, cost effective unit designed to deliver high thermal efficiency while maintaining lower pressure drops. It's the perfect choice for many single and two phase Heat Transfer applications for industrial and refrigeration duties.


Advanges of Plate Heat Exchangers
Easy to Remove and Clean
  • Plate Heat Exchangers are easy to clean by remove the tie bolts and slide back the movable frame part. Then the plate pack can be inspected, pressure cleaned, or removed for refurbishment if required.
Expandable
  • A very significant feature of the plate Heat Exchanger is that it is expandable. Increasing the Heat Transfer requirements means simply adding plates instead of buying a new Heat Exchanger, saving time and money.
High Efficiency
  • Because of the pressed patterns in the plates and the relative narrow gaps, very high turbulence is achieved at relative low fluid velocity. This combined with counter directional flow results in very high Heat Transfer coefficients.
Compact Size
  • As a result of the high efficiency, less Heat Transfer area is required, resulting in a much smaller Heat Exchanger than would be needed for the same duty using other types of Heat Exchangers. Typically a plate Heat Exchanger requires between 20-40% of the space required by a tube and shell Heat Exchanger.
Close Approach Temperature
  • The same features that give the plate Heat Exchanger its high efficiency also makes it possible to reach close approach temperatures which is particularly important in heat recovery and regeneration applications. Approach temperatures of 0.5°C is possible.
Multiple Duties in a Single Unit
  • The plate Heat Exchanger can be built in sections, separated with simple divider plates or more complicated divider frames with additional connections. This makes it possible to heat, regenerate, and cool a fluid in one Heat Exchanger or heat or cool multiple fluids with the same cooling or heating source.
Less Fouling
  • Very high turbulence is achieved as a result of the pattern of the plates, the many contact points, and the narrow gap between the plates. This combined with the smooth plate surface reduces fouling considerably compared to other types of Heat Exchangers.
Lower Costs
  • High Heat Transfer coefficients mean less Heat Transfer area and smaller Heat Exchangers, and sometimes even less Heat Exchanger.

Features and benefits

Experience the benefit of an individually customized solution that perfectly matches your requirements and lowers your energy consumption.
High performance for a low pressure drop eliminates unnecessary burdens on your system and optimizes overall system performance.
The design results in a compact solution with a small footprint, simple installation, and easy access for maintenance.

Applications

  • HVAC industry - e.g. district cooling solutions using seawater and groundwater as cooling source - e.g. district heating solutions using, for example, solar and geothermal energy as heating source
  • Marine/offshore industry - e.g. central and lubrication oil cooling
  • Dairy/food/beverage industry - e.g. pasteurization, heat recoveries, and duties that require gentle treatment
  • Sugar industry
  • Biogas industry
  • Pulp and paper industry
  • Heavy industry
  • Mining industry
  • Petrochemical industry
  • Chemical industry - e.g. waste heat recovery from condenser water
Detailed Photos

 

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