Place of Origin: | China |
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Brand Name: | Sondex |
Certification: | CE ISO9001 COO COM |
Model Number: | S130 |
Minimum Order Quantity: | 1 |
Price: | $2000/PCS |
Packaging Details: | Wooden Case |
Delivery Time: | 10-15 days |
Payment Terms: | T/T, D/P, Western Union, Paypal, Money Gram |
Supply Ability: | 100000pieces/Year |
Model NO.: | S130 | Trademark: | DGXT OR OEM |
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Specification: | Customized | Origin: | China |
HS Code: | 84195000 | Port: | Shanghai, China |
Production Capacity: | 100000pieces/Year | Certification: | CE, ISO, RoHS |
Application: | Heater, Cooler | Principle: | Recuperative Heat Exchanger |
Style: | Plate Type | Material: | Stainless Steel |
Transport Package: | Wooden Case |
Heat Transfer by Plate Heat Exchangers
Gasket frame plate heat exchanger
Efficient heat transfer
Plate heat exchangers, also known as gasketed frame heat exchangers (GPHE), provide efficient heat transfer in compact units with a small footprint - much smaller and more efficient than shell and tube heat exchangers .
Plate heat exchangers are designed to optimize heat transfer because corrugated plates provide the largest surface area to date, through which heat can be drawn from one gas or liquid to another.
1. Plate heat exchanger material: stainless steel, Ti and EPDM / NBR gasket
These units also have a flexible design that is easy to maintain and maintain.
Benefits of plate heat exchangers:
Accurate heat transfer - closer temperature, true counterflow, reduced 80-90% retention
Low overall cost - low capital investment, reduced installation costs, limited maintenance and operating costs
Highest reliability - reduce dirt, stress, wear and corrosion
Responsible for the environment - minimum energy consumption, maximizing process efficiency and reducing cleaning
Easy to expand capacity - just add or remove plates on existing frames
The product range is used in heating, cooling, heat recovery, evaporation and condensation, as well as in heavy industries such as HVAC, refrigeration, engine cooling, dairy and food industries, as well as chemical processing, oil production and power generation.
GPHEs for standard duties - heating, cooling, heat recovery, condensation, and evaporation
Heat Exchanger Specification:
Material of Plate | Suited Liquid Kinds | ||
Stainless Steel (AISI304.316 Etc) | Pure Water, Normal Water, Oil for eating, Mineral Oil | ||
Ti, Ti-pd | Sea Water, Saline Water, Mineral Water | ||
20Cr, 18Ni, 6Mo (254SMO) | Dilute Sulphuric Acid, Organic Water Solution | ||
Ni | High-temp and concentration caustic soda,sodium hydroxide | ||
Hastelloy (C276, D205, B2G) | Concentration Sulphuric Acid, Hydrochloric acid, Phosphoric acid | ||
Material of Gasket | Operating Temperature ° C | Suited Liquid Kinds | |
NBR | -15~+110° C | Water, Sea Water, Mineral Oil, Salinous Water | |
HT-NBR | -15~+120° C | Water, Sea Water, Mineral Oil, Salinous Water | |
HNBR | -15~+140ºC | High temperature mineral oil, high temperature water | |
EPDM | -25~+160° C | Hot Water, Steam, Acid, Alkali,sodium hydroxide | |
HEPDM | -25~+180° C | Hot water, water vapor, acid, alkali,sodium hydroxide | |
Viton-A | -5~+160° C | Acid, Alkali Acid, alkali, fluid,sodium hydroxide | |
Viton-G | -5~+180° C | High Concentrated Acid, Alkali, High temperature Oil, Steam |
Sondex Heat Exchanger Plate Gasket | ||||||
S4A | S16B | S22 | S43A | S81 | S86 | S65 Glue Type |
S8A | S9A | S37 | S43 | S121 | S110 | S100 Glue Type |
S7A | S19A | S41 | S65 | S188 | S113G | S130 Glue Type |
S14A | S31A | S41A | S100 | S81 | S201G | SFD13 |
S20A | S17 | S42 | S100 | S121 | SF123 | SFD22 |
S7Glue | S21 | S63 | S47 | S188 | SF160 | SFD23 |
S20Glue | S21A | S43H | S64 | S62 | S43 Glue Type | SFD35 |
Funke Heat Exchanger Plate Gasket | ||||||
FP04 | FP16 | FP31 | FP60 | FP112 | FP205 | FP41 |
FP08 | FP22 | FP40 | FP80 | FP405 | FP82 | FP130 |
FP05 | FP14 | FP50 | FP42 | FP70 | FP10 | FP100 |
FP09 | FP20 | FP71 | FP62 | FP100 | ||
APV Heat Exchanger Plate Gasket | ||||||
T4 | Q030E | A085 | M060 | SR6AG | B134 | TR9GN |
H12 | Q055E | A145 | M092 | R8GI | B158 | TR9GL |
H12 Water Generator | Q080E | J060 | M107 | SR9 | B205 | K34 |
H17 | Q030D | J092 | SR2 | R10 | P105 | K55 |
N25 | Q055D | J107 | SR3 | R14 | P190 | K71 |
N35 | Q080D | J154 | R5 | B063 | TR9AL | TR9AV |
N50 | A055 | J185 | SR6GL | B110 | TR9AV | |
GEA Heat Exchanger Plate Gasket | ||||||
VT04 | VT405P | NT50M | NT250S | VT20P | VT80(M) | NT100X |
VT10 | AT405 | NT50X | NT250M | VT40 | VT2508 | NT150L |
VT20 | VT405 | NT100T | NT250L | VT40(M) | NT50T | NT150S |
VT205 | VT80 | NT100M | NT350S | NT350M | FA184 | N40 |
Vicarb Heat Exchanger Plate Gasket | ||||||
V2 | V13 | V45 | V110 | V28 | V100 | V170 |
V4 | V20 | V60 | V130 | V8 | V280 | |
Heat Exchanger Plate Gasket | ||||||
M3 | M15M | M10BW | AM20B | Clip8 | TL6B | T20S |
M6B | MX25M | MK15BW | A20B | Clip10 | TS6M | TL35S |
M6M | MX25B | T20MW | AM20 | Clip15 | TL10B | TL35B |
M6MX | M30 | MA30W | AK20 | P16 | TL10P | T45M |
M10B | MA30S | AM10 | AX30B | P26 | TL15B | M20 |
M10M | MA30M | A10B | AX30BW | P32 | T20M | T20MW |
M15B | M6MW | A15B | Clip6 | P36 | T20B | |
Tranter Heat Exchanger Plate Gasket | ||||||
GC008 | GX18 | GX26 | GX51 | GX60 | GX64 | GX85 |
GL13 | GC16 | GX42 | GC51 | GX100 | GX91 | GX145 |
GX12 | GC26 | GC50 | GC60 | GX140 | GX118 | GX205 |
Schmidt Heat Exchanger Plate Gasket | ||||||
Sigma09 | Sigma27 | Sigma48 | Sigma35 shallow type | Sigma55 | Sigma96 | Sigma136 |
Sigma13 | Sigma36 | Sigma49X(39X) | Sigma25 | Sigma56 | Sigma66 | Sigma156 |
Sigma26 | Sigma37 | Sigma25 shallow type | Sigma35 | Sigma76 | Sigma106 | Sigma90 |
G33 | ||||||
Hisaka Heat Exchanger Plate Gasket | ||||||
CX70 | UX20 | UX90 | LX00A | LX526A | RX715 | LX30A |
UX07 | UX40 | RX50 | LX10A | UX10A | UX80 | |
Thermowave Heat Exchanger Plate Gasket | ||||||
TL50P | TL90S | TL400P | TL250P | TL500S | TL650P | TL850S |
TL90P | TL150S | TL200S | TL500P | TL250SSW | LT850P | TL650S |
TL150P | TL200P | TL400S | TL250S | TL500SSW |
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