Tranter GX64 Plate Heat Exchanger Gaskets NBR Material

Tranter GL13 Plate Heat Exchanger Plates and Gaskets For Marine Jack water cooler

Plate Heat Exchanger Introduction

Plate Heat Exchangers were first produced in the 1920s and have since been widely used in a great number of sectors.

A plate exchanger consists of a series of parallel plates that are placed one above the other so as to allow the formation of a series of channels for fluids to flow between them.

The space between two adjacent plates forms the channel in which the fluid flows.

Inlet and outlet holes at the corners of the plates allow hot and cold fluids through alternating channels in the exchanger so that a plate is always in contact on one side with the hot fluid and the other with the cold.

The size of a plate can range from a few square centimeters (100mm * 300mm side) up to 2 or 3 square meters (1000mm * 2500mm side). The number of plates in a single exchanger ranges from just ten to several hundred, so reaching surface exchanger areas up to thousands of square meters.

Generally, these plates are corrugated in order to increase the turbulence, the thermal exchanger surface and to provide mechanical rigidity to the exchanger. Corrugation is achieved by cold forging of sheet metal with thicknesses of 0.3mm to 1mm.

The most frequently used materials for the plates are stainless steel (AISI 304, 316), titanium and aluminium.

The corrugation on the plates forces the fluid on a tortuous path, setting a space between two adjacent plates b, from 1 to 5 millimeters.

GX64 Model Plate Heat Exchanger Specification
 

GL13 Plate Heat Exchanger Technical Information

LT L = Length long tightning bolt

LG = Length guiding bar

n= number of plates

GX64 Plate Heat Exchanger Gasket & Plate Pictures

GL13 Plates

GL Series herringbone-style plates have a large theta span, enabling finely tuned pressure drop and heat transfer rate.

GL13 Gasket Choice

Glued Gaskets

M&C plate gaskets are specilly moulded elastomers to assure superior performance.

Numerous gasket materials - NBR, EPDM, Viton, Neoprene, Butyl.Hypalon, Teflon-encapsulated NBR and others - are available to match your process conditions, to maximum operating temperatures of 180℃.

Clip-on Gaskets

Consider the M&C Clip-on glueless gasket system wherever regular cleaning is necessary or aggressive fluids shorten gasket life. The unique design allows easy and fast clip-on installation for sure sealing and simple removal.

The clip-on is available in NBR and EPDM, both industrial and FDA ratings. These precision gaskets are moulded under rigorous manufacturing controls and are peroxide-cured for long life and excellent compression set resistance.

GL13 Plate Heat Exchanger Advantage with Shell- and -tube exchangers

Why fill up your engine room with heavy, bulky equipment, when efficiency and economy are vital factors?

A plate heat exchanger from M&C is only about 1/3 of the size and 1/6 of the weight of a shell- tube exchanger of comparable performance. Even if it  may seem reasonable to invest in a tube exchanger, this would have a much higher life cycle cost than a plate heat exchanger.

One reason is that the heat transfer properties of a plate heat exchanger are 3 to 5 times higher. Another is the close temperature approach which is as low as 1 ℃.

Efficiency pays off!

A plate heat exchanger offers many advantages compared with conventional shell-and-tube exchangers

• Up to 50% more efficient
• Up to 90% more compact
• 3-5 times higher k-values
• Unique turbulent flow design
• Closer temperature approach - as low as 1 ℃
• Far less material needed - less use of exotic alloys or titanium

Plate Heat Exchanger Advantage

• Much smaller footprints
• Lighter weight
• Easier installation
• Removable heat exchanger surfaces for effective cleaning
• Faster heating or cooling with less energy fluid
• Turbulent flow for better scaling resistance, greater reliablility
• Less steel, lower purchase price, shorter lead time and less expensive delivery

How to Provide Plate Heat Exchanger Maintenance?

Plate heat exchanger maintenance is provided through two distinct methods:

• Clean in place (CIP) on-site maintenance.
• Authorized cleaning facilities off-site maintenance.

The basic difference between these two methods is not how, but where and who performs the maintenance. CIP is performed in the manufacturing plant for quick recovery and continued equipment use, and it usually is performed by the person in charge of maintenance. Utilizing and authorized cleaning facility for maintenance requires removing the equipment and shipping it to a facility outside the plant where certified maintenance personnel service the plate heat exchanger. A closer look at each method will help shel light on which is best.

CIP Maintenance.Because of the advantages of quick turmarounds in a maintenance cycle, CIP is an attractive maintenance method. It is faster, more convenient and simple. It is also a preferred cleaning method when especially corrosive liquids are being processed. Typically, a CIP operation would be as follows:

• The plate heat exchanger unit is turned off.
• All fluids are drained from the unit. Single-pass units are self-draining. Multi-pass units may require special drain holes.
• The preselected cleaning solution is circulated through the unit in a bottom-to-top flow to totally flood the unit and prevent channeling. When it is determined that the solution is no longer reacting with the substances inside the unit, the cleaning is complete.
• The unit is drained of the cleaning solution and, if necessary, rinsed with water and put back online.

Authorized Cleaning Facilities. The disadvantages of the authorized cleaning facilities tend to be measured by the up-front cost and rarely for the real advantages achieved.

At an authorized cleaning facility, each plate is logged and visually inspected to determine if it merits reconditioning. The client is informed if any plate is underviceable and why. The facility cross-checks its databased to conirm the plate heat exchanger's original specifications and then conducts a close visual inspection of gaskets and contact points on the remaining plates to determine if there is any erosion or apparent change from the original specification. Then the precise cleaning and treatment process required is determined.

Plates are pressure-washed, rinsed and subjected to either hot caustic stripping and/or a manual procedure for gasket and scale removal. They are subjected to immersion in a variety of acids compatible with the plate material to remove the balance of any foulants. Cleaned plates are fully visually inspected and a 10 percent sampling of plates are dye-penetrant tested. Each tested plate is sprayed with dye and inspected under eltraviolet light to locate any pin-hole leaks or cracks. Following this procedure, plates again are pressure-washed and rinsed to remove all traces of the dye.

Plates are then re-gasketed with an OEM-spec gasket adhesive that eases field repair should it be required. Plates receive a thorough inspection before being packed and shipped. Units are hydrostatically tested prior to shipment.

Plate Heat Exchanger Pictures

M&C Heat Parts Company Profile

M&C Heat Parts Co., Ltd is founded in Wuxi, Jiangsu. M&C is specialized in designing and manufacturing high quality heat transfer equipment. The range of products comprises plates & gaskets, plate heat exchangers, gasketed heat exchangers and brazed heat exchangers. Thus, as one of the few producers worldwide, M&C offers solutions with optimum thermodynamic designs for different industries and virtually all applications.

M&C provide you with one-stop accessories service, multuple-brand & multiple model alternatives for your choice. We'll meet all your requirements of plate heat exchanger and keep your machine running contunously through our rich storage and quick response.

Moreover, we have a strict quality control and after-sales service system, from material purchasing to finished product package until the product received in good condition. Our products have been widely used all over the world in various fields.

M&C Plate Heat Exchanger Plates & Gaskets Other Models Recommend

Sondex/Danfoss - S4A, S7, S20, S21, S22, S41, S43, S47, S65, S81, S86, S100, S120, S130, SFD7, SFD13, SW19 and so on;

APV/SPX - H17, N25, N35, A055, A085, J060, J092, J107, M92, M107, K55, K71, B110, B134, P105, P190, SR1, SR2, TR9GN, TR9AL and so on;

Tranter/Swep - GX12, GL13, GC26, GC51, GX26, GX51, GX42, GX64, GX85, GX91, GX140, GX145 and so on;

API/Schmidt - Sigma 7, Sigma 9, Sigma 13, Sigma 26, Sigma 27, Sigma 36, Sigma 66, Sigma 106, Sigma 229, Sigma Star 45, Sigma Star 90 and so on;

Vicarb - V4, V13, V20, V28, V45, V60, V100, V110, V130 and so on;

Hisaka - EX11, EX15, EX15, LX026, LX195, LX395, LX595, RX135, RX395, RX595, UX115, UX225, UX395, UX495, UX815, UX995 and so on;

GEA - VT04, VT10, VT20, VT40, VT80, VT405, VT805, VT1306, NT50M, NT50X, NT100S, NT150S, NT150L, NT250M, NT250L and so on;

Funke - FP04, FP05, FP14, FP16, FP08, FP22, FP31, FP40, FP41, FP70, FP100, FP120 and so on;

Thermowave - TL200SS/PP, TL250SS/PP, TL400SS/PP. TL650SS/PP and so on;

DHP - DX143, DX146, DX20V, DX20DL, DX20DM, DX30S, DX36M and so on;

LHE - HT101, HT102, HT104, HT151, HT152, HT202, HT232, HT233 and so on;

M&C Plate Heat Exchanger Goods ready to Delivery