HYDAC HEX S610 Brazed Plated Heat Exchanger User Manual
- June 17, 2024
- HYDAC
Table of Contents
- Working Principle
- Application
- Advantage
- Design Condition for Copper Brazed PHE
- Specification & BPHE Dimension
- Standardized Connections
- Installation Guide
- Soldering Instruction
- Cleaning
- Warning
- Warranty Terms
- Label and Marking
- EC DECLARATION OF CONFORMITY
- References
- Read User Manual Online (PDF format)
- Download This Manual (PDF format)
HYDAC HEX S610 Brazed Plated Heat Exchanger User Manual
Working Principle
HYDAC Brazed Plate Heat Exchanger (BPHE) consists of chevron plates of acid- resistant stainless steel. Every other plate is reversed so the ridges of the herringbone pattern Intersect one another on adjacent plates forming a lattice on contact points, When these points are vacuum brazed together, two separate systems of channels for two media flow in counter-current are formed. The lattice structure causes vigorous turbulence, thus, ensuring maximum heat transfer.
The BPHE is a highly efficient, corrosion-resistant and pressure- resistant heat exchanger. The standard BPHE is designed to meet 30 bar, 200°C, and the largest-size handles a maximum flow capacity of 900 liter/min.
Application
HYDAC BPHE can be used for various medias:
- All type of refrigerants; ammonia will be used for nickel brazed.
- Organic solvents
- Water
- Various brine solutions (glycol mixtures, CaCl2, alcohols etc)
HYDAC BPHE can be used:
- Heat pumps
- Industrial chiller, plastic machines, welding machines, hydraulic presses (oil), and compressor oil cooling
- Air conditioning
- Refrigeration
- Air dryer
- Water cooler; drinking water or process water for various industries
- Temperature holding for storage tanks
- Heat recovery including heat recycling from hot steam
- Indoor heating including floor heating
Refrigerant applications, BPHE function as:
- Evaporators
- Condensers
- Super-heaters for gas
- Desuper-heaters for gas
- Subcoolers for condensate
- Economizers
- Intercoolers
- Oil coolers
Advantage
HYDAC BPHE provides many great advantages:
- Highly thermal efficiency
- Compact size and less weight
- High working pressure
- High thermal resistances and high operating temperature
- Lower cost for the same performances
- Lower pressure drop and high corrosion resistance
- No gaskets, no leakages
- Easy installation, easy replacement, less maintenance
- Durability
Design Condition for Copper Brazed PHE
Type| Max Allowable Pressure (PS)| Test Pressure (PT)| Working Temperalure
Range
---|---|---|---
HEX S400/S500/S610/ S510/S615/S715/ $722/S522| 30 Bar| 45 Bar| -160~+200℃
HEX S210| 16 Bar| 23 Bar
Specification & BPHE Dimension
T yp e| L1
mm| L2
mm| W1| W2| Weight
Kg| Thickness
(H) mm| Area
Wiplate| Volume
theri Channel| Max No.
of plate
---|---|---|---|---|---|---|---|---|---
mm| mm
HEX S400| 194| 154| 80| 40| 0.8+0.050N| 10.0+2.25N| 0.0117| 0.025| 60
HEX S500| 311| 278| 73| 40| 0.84+0.07N| 10.0+2.30N| 0.01946| 0.040| 60
HEX 5610| 306| 250| 106| 50| 1.5+0.135N| 10.0+2.40N| 0.0255| 0.055| 100
HEX S510| 304| 250| 124| 70| 1.6+0.150N| 10.0+2.40N| 0.0300| 0.065| 100
HEXS615| 522| 466| 106| 50| 3.1+0.220N| 10.0+2.40N| 0.0475| 0.095| 120
HEXS715| 504| 444| 124| 64| 3.5+0.240N| 10.0+2.40N| 0.0533| 0.107| 120
HEXS722| 613| 519| 186| 92| 7.12+0.41N| 14.0+2.40N| 0.09446| 0,206| 140
REIM| 528| 456| 246| 174| 7.2+0.520N| 11.5+2.40N| 0.1099| 0.232| 160
HEXS210| 527| 430_245| 148| 8.5+0.490N| 11.5+2.85N| 0.1036| 0.289| 160
Standardized Connections
- Connections for fluid applications are threaded connectors.
- Connections for refrigerant units are soidered/sweat connectors.
Type | Threaded Connections |
---|---|
PT/NPT/GB -Malo | PT/NPT/GB-Female |
Ur | 3/4′ |
2′ | HO’ |
HEX 8400 | * |
HEX S500 | * |
HEX MO | * |
HEX S510 | * |
HEX S615 | |
HEXS715 | |
HEX S722 | |
HEX S522 | |
HEX S210 | |
Type | Soldered Connections |
1/2″ | 5/8″ |
10 12,93ein | ID 16.1kra |
HEX 8400 | * |
HEX S500 | * |
HEX 3610 | * |
HEX S510 | * |
HEXS015 | * |
HEX S715 | * |
HEX S722 | * |
HEX S522 | * |
HEX 8210 |
Soldered Connections
Threaded Connections
Installation Guide
Illustration of
- General purpose of BPHE
- Types of fluid applied
- Arrangements of fluids directions
-
Always install your BPHE vertically, especially for a refrigerant system, in order to be secured and keep less volume of water below the connector.
-
In order to achieve high thermal efficiency and high heat transfer rates, BPHE is better to be installed in counter flow direction.
-
When BPHE works as an Evaporator, the two-phased (liquid an gas) refrigerant enters the evaporator at the bottom left connector and the single-phased (gas) refrigerant leaves the evaporator from the top left connector after heat transferring. The water enters at the top right connector and leaves from the bottom right. In the case of evaporator, heat is transferred from water to refrigerant and both fluids are in counter flow direction.
-
Mounting suggestions: There are four different ways to mount the BPHE:
-
(a)Bottom support
-
(b) Sheet metal bracket,
-
(c) Crossbar& bolts,
-
(d) Stud bolls
- All items should be supported independently.
- Do not apply excessive forces to the fittings.
- Except for small in sized HYDAC HEX S400, brazed PHE cannot fasten directly to the fittings/piping.
- Using flexible hoses or vibration dampers to reduce pulsation, shock or vibrations those are caused by the operating system.
Soldering Instruction
Cleaning and degreasing the surface of copper pipes and PHE connectors before soldering is important. To avoid the inside of copper pipes and BPHE from Oxidation, protect the Inside with N₂-gas. Put the BPHE on a flat surface and wrap a wet rag around the connectors to protect the BPHE from excessive heating. Use a 40-45% silver alloy soldering rod to weld the copper pipe into the connector at a max. of 800°C. After soldering, clean and dry the connection and BPHE.
Cleaning
Cleaning of fouled plate heat exchangers is important Back flushing will remove most of the soft debris that is blocked the inside. The solution used by back flushing shall be weak acid with concentration less than 5%, for example citric acid. If acidity is too high, the copper and stainless steel, which is inside the PHE, might be etched or corroded. Before restarting the system, flush the plate heat exchanger with large amounts of fresh water to purge any remaining acid solution.
Warning
- Fluid that is explosive, extremely flammable, highly toxicant, highly corrosive, hazardous or etc. Cannot apply to BPHE. Examples are ammonia, nitric acid, sulfuric acid, etc.
- When unknown quality of water is applied to BPHE, filter and strainer should be place at the water inlet of BPHE to filter out the dirt or large particles, Mesh size of around 20 is suitable for most cases. Blockage of evaporator due to dirt or large particles will reduce the flow rate of water then the water will freeze up.
- consequently might cause the crack of the BPHE. Chlorinated water, seawater, etc. are not suitable for BPHE because it will corrode and damage the BPHE For example, swimming pool water.
- Solution which applied to BPHE shall have PH value range between 6-8.
- Ground water with high sulfuric compound, sulfuric acid, low PH value, may cause gradual copper corrosion and damage the BPHE in a few years.
- Rubber ring always mounts or adheres the bottom edge of the BPHE in order to protect the hand and wrist against the sharp metal edges. If the rubber ring is not a required part of your order, watch out for the sharp metal edge.
- When moving BPHE, always wear gloves and pay attention to the sharp edges around the bottom of BPHE Some BPHE comes with rubber strips that covers the sharp edge of the BPHE but some does not. It all depends on your request.
Warranty Terms
- Free of charge if what defects are caused by manufacturing material or manufacturing workmanship
- Warranty Period is 12 months after exit factory delivery or else, by contract with the purchaser.
- Exceptions are:
- The failure or malfunction of BPHE is caused by Improper or negligent usage of BPHE.
- Malfunctions from Freezing or icing, flood, fire, or any natural disaster, or accident
- Damages cause by improper or faulty installation, or product exposed to corrosive elements harmful to the structure.
Label and Marking
For tracking purposes, model name and serial number will be embossed on the plate of the front cover below the two upper connectors of the BPHE.
EC DECLARATION OF CONFORMITY
- According to the following EC Directive
- Pressure Equipment Directive: 97/2VEC
Brazed Plate Heat Exchangers (BPHE)
Type :
Pressure Bearing Material:
- Steel 304 (ASTM A240 or JIS G4304/G4305)
- Steel 316 (ASTM A240 or JIS G4304/G4305)
Provided that it is used and maintained in accordance with the generally accepted codes of good practice and the recommendations of the User Manual, this device meets the essential safety and health requirements of the Pressure Equipment Directive.
To prevent the most specific risks of this device, the safety and compliance
with the essential requirements of the Directive have been applied. The
design, fabrication, inspection and testing should comply with: ASME Boiler
and Pressure Vessel Code Section VII, and EN 14276-1 Pressure equipment for
refrigerating system and heat pumps, Part 1: Vessels General requirement,
Brazing Procedure Reference:
EN 14276-1, Annex B, and ASME Section IX
For the procedure of EC conformity assessment, the manufacturer chooses Module DI for the complete serials of products, which covers the Category 1. Il a present, and are used for Fluids in Group 2 of pressure vessel equipment. Notified Body is DET NORSKE VERITAS and the Identification number is 0575.
Head Office HYDAC INTERNATIONAL GMBH Industriegebiet 66280 Sulzbach/Saar Germany
Tel.: +49 (0) 6897/509-01
Fax: +49 (0) 6897/509-577
E-Mail: info@hydac.com
Internet: www.hydac.com
References
Read User Manual Online (PDF format)
Read User Manual Online (PDF format) >>