How to Clean Gasketed Plate Heat Exchanger



Just like a car or a computer, a gasketed plate heat exchanger need regular maintenance to keep running at peak performance. Fortunately, plate heat exchangers (PHE) are generally easier to maintain than other types of heat exchangers, and problems tend to be easier to diagnose.

In the absence of regularly scheduled maintenance, a PHE’s efficiency naturally declines. The simple reason for this is plate fouling – as matter builds up in the grooves of a plate, the heat transfer capacity of that plate diminishes (because the fouling is less thermally conductive than the plate itself). The more scaling there is on a plate, the faster it continues to foul, so it’s important to catch the issue early to avoid extended downtime and excessive maintenance costs.

While less likely, other parts of a plate heat exchanger can fail as well. It’s important to visually inspect the gaskets, frame and bars whenever you open up the heat exchanger for any kind of maintenance. A habit of cursory visual examinations can save a lot of time and money in the long run.

Records
To ensure you’re keeping your plate heat exchanger properly maintained, you should keep basic records. Those should include the make and model number, what kind of maintenance you’ve already performed and when you performed it, available spare parts in your inventory, and the number of plates and gaskets in the unit. You should also know the dimensions of the plate pack as specified by the manufacturer (PHE’s aren’t tightened to a torque specification, but rather to the width of the plate pack) so you can periodically check it for tightness, and return it to its original state after scheduled maintenance. When you tighten the PHE, it’s also a good time to lubricate the carrying and guide bars to make opening the PHE easier next time.

Scheduled Maintenance
The most important kind of maintenance is the regular, scheduled maintenance that you do even if the unit appears to be working just fine. This is the equivalent of changing your car’s oil before the Check Engine light comes on, or going to the dentist even if you don’t have cavities (that is to say, you should do it!). Perform this kind of maintenance at least once every six months.

As mentioned above, regular visual examinations are important – make sure the plate pack is tightened to specification, the carrying and guide bars are lubricated, and the gaskets appear undamaged. Then, check your pressure gauges at each end of the plate heat exchanger to make sure the pressure drop is within expected limits.

If, after the above regular maintenance tasks are performed, the pressure drop is excessive, then there is likely a fouling issue and you’ll have to do unscheduled maintenance, which means downtime. It’s also possible that the problem lies somewhere else in your process. Make sure your pipes are in good shape, and all your pumps are doing their jobs. If everything else seems to be in working order, it’s time to clean your PHE. Request one of our service technicians to get your unit back up and running or perform preventative maintenance to minimize downtime.

Clean-In-Place
Periodic cleaning is the most effective form of maintenance and should comprise the bulk of your maintenance efforts. Most PHE’s can be maintained with a clean-in-place (CIP) process, where you don’t have to open the plate pack. The biggest goal of cleaning is to flush out the various kinds of debris that collect in a PHE over time, which will vary depending on your process.

To clean your plate heat exchanger, first drain both sides and isolate it from your system fluid (generally done with isolation valves). Then, flush water through both sides until it runs clear. For best results, you should flush the fluids counter to the direction that they run in operation. If a lot of debris comes out, then you’re in good shape! If, however, the excessive pressure drop persists after putting the PHE back in service, or if you didn’t see very much debris, then you’ll need something more aggressive than water.

The next step is to pass a cleaning agent through the PHE with a circular pump and a solution tank. The agent itself will be dictated by your particular process, but your PHE manufacturer can help you learn about the cleaning process in more detail if you’re unsure. In particular, you must ensure that the cleaning agent is compatible with the plates and gaskets of your PHE. Chloride, for example, will almost surely corrode the plates if they’re made of stainless steel (which most are). After running the cleaning agent through your PHE, flush it with water again until both sides discharge clear. If, after putting the PHE back in service, it still runs under capacity, then you’ll need to open up the plate pack and clean it manually.

Manual Cleaning
To clean a plate heat exchanger manually, open the plate pack according to the manufacturer’s instructions. It’s preferable to clean the plates without taking them out of the frame, which is one of the reasons why it’s recommended to install a PHE where there is plenty of space to maneuver around it.
Next, manually apply the cleaning agent to each plate to loosen any debris that may have accumulated. Then, rinse the agent off with a soft bristle brush and high-pressure washer. Wire brushes or metal pads are discouraged because they may score the plates. Be careful that you don’t hit the gaskets with the washer directly, as the high pressure may loosen or dislodge them. After the plates are completely rinsed, reassemble the PHE and put it back into service – everything should be good as new!

While this cleaning regimen is an involved process, it should still take no longer than 24 hours. Scheduled maintenance will take far less time, and will save your maintenance crew time and money.

VHX has full range of plate and gasket for PHE maintaining, we have more than 200 models produced to fulfill different kinds of demands, if you have any heat exchanger related issues please do not hesitate to contact us for help.
 

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  • Method for cleaning vicarb heat exchanger plate


    Vicarb heat exchanger plates have been widely used in some areas such as central heating and chemical industry. The plate heat exchanger has a good heat exchange effect, but it is prone to produce scale and impurities, which will block the flow of the plate heat exchanger and reduce the heat exchange effect. So, how to clean the plate heat exchanger?Plate heat exchangers can be disassembled and recirculated.

    Disassembly and cleaning steps:
    Disassembly and cleaning can clean both processes of the heat exchanger. The main steps are:
    1. Close the two water inlet and outlet valves of the heat exchanger;

    2. Measure the distance between the baffles of the heat exchanger and make a record;

    3. Disassemble the plate heat exchanger, empty the medium in the equipment, disassemble in the prescribed order, and make a record. Be careful not to damage the gasket and the plate during the disassembly process;

    4. During the cleaning process, the plates should be cleaned piece by piece, and soaked and washed. In the case of high-pressure cleaning, the cleaning should be performed below the specified pressure;

    5. After processing, put it back in the plate heat exchanger baffle in the original order, paying attention to distinguish the front and back. Control the strength when tightening the clamping bolts firmly, otherwise it is easy to crush the plate;

    6. Open the outlet valve and inlet valve of the plate heat exchanger to see if there is any leakage. If there is no leakage, the cleaning is complete.

    Cycle cleaning steps:
    If it is used in the chemical industry, firstly close the inlet and outlet valves of the plate heat exchanger, and add the cleaning agent to the system through a tube pump or a water tank for internal circulation until the concentration of the cleaning agent no longer changes and the impurities in the equipment are discharged.

    If it is a passivation treatment, it is necessary to ensure that after the chemical descaling is completed, no rust or other phenomena will occur in the pipeline. The amount of passivation cleaning solution needs to be determined according to the amount of water during cleaning, and the ph value cannot be too high, otherwise the effect will be poor, and it will be discharged after six hours.

    Finally, the plate heat exchanger was restored, and the inlet and outlet water valves were opened, indicating that the cleaning was completed.
  • The role and advantages,disadvantages of plate heat exchangers


    Plate heat exchangers are a type of mobile device that transfers heat between metal plates because the liquid is spread over more surfaces, which increases the exchange rate. Metal tubes are used to heat fluids.

    The role of plate heat exchangers
    The plate heat exchanger is based on different external and internal components, the welding plate exchange plates are welded together, and the brazed plate type construction model is vacuum brazed. In many cases, in order to make smaller sections work better, some chambers are designed to be thinner, allowing most of the liquid to contact the plate, improving heat transfer.

    The plate heat exchanger can play a good heat transfer effect in the boiler heating in winter. In the daily use process, it is necessary to do a good job of protecting this equipment. The plate heat exchanger is a kind of equipment that can play multiple benefits and functions for us. The user clearly knows its role and protects it so that it can play a greater role.

    Advantages of plate heat exchangers
    High heat transfer coefficient. The plate heat exchanger has a small flow channel, the plates are wavy, and the cross-section changes are complex, which makes the flow direction and velocity of the fluid constantly change, which increases the disturbance of the fluid and has a high heat transfer coefficient.

    Great adaptability. The required heat transfer area can be achieved by increasing or decreasing the plate. A heat exchanger can be divided into several units, which can be used for heating or cooling between several fluids at the same time.

    Compact structure, small size and few consumables. The heat transfer area per cubic meter volume can reach 250m2, and the heat transfer surface per square meter only needs about 15kg of metal.

    Dirt factor is small. Due to the large flow disturbance, dirt is not easily deposited. The plate heat exchanger plate is of good material and has little corrosion, which makes its fouling coefficient value smaller. Plate heat exchangers mainly use metal plates, so the price of raw materials is cheaper than the same metal pipes.

    Disadvantages of plate heat exchangers
    1) Poor sealing and easy to leak. The gasket needs to be replaced frequently, which is troublesome.
    2) The use pressure is limited, and generally does not exceed 1MPa.
    3) The use temperature is limited by the temperature resistance of the gasket material.
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    VHX supply gasketed plate heat exchangers from 0.03m2 to 1.8m2 for different application requirements. We manufacture plate heat exhcanger for replacement models and our own brand models, available calibre from DN25 to DN350.

    gasketed plate heat exchanger

     
    Model Height Width Min Standard Length Max Standard Length Vertical Port Distance Horizontal Port Distance Connection
    VHX25 480 180 20 350 357 60 DN25
    VHX51 940 330 35 600 640 140 DN50
    VHX52 920 320 25 450 640 140 DN50
    VHX61 835 325 50 630 625 130 DN65
    VHX62 1085 325 50 630 875 130 DN65
    VHX101 1084 470 120 950 719 225 DN100
    VHX102 1084 470 80 640 719 225 DN100
    VHX103 1235 500 115 1125 882 234 DN100
    VHX104 1655 500 115 1125 1302 234 DN100
    VHX151 1885 650 235 1410 1294 298 DN150
    VHX152 1885 610 160 1255 1294 298 DN150
    VHX201 2055 730 235 1645 1478 342 DN200
    VHX301 2086 1125 215 2580 1320 600 DN300
    VHX351 2920 1190 210 3360 1842 596 DN350
    Available plate material: AISI304/AISI316/Titanium/Nickel/Alloy C-276/254 SMO
    Available gasket material: NBR/EPDM/HNBR/NBR-HT/EPDM-HT/Viton-A/FKM/Viton-G/FKM/CR
    Available connection material: rubber/stainless steel/unlined/flange


     
  • Plate heat exchanger VHX102


    VHX supply plate heat exchangers from 0.03m2 to 1.8m2 for different application requirements. We manufacture plate heat exhcanger for replacement models and our own brand models, available calibre from DN25 to DN350.
     Thermowave Plate Heat Exchanger Gasket
    Model Height Width Min Standard Length Max Standard Length Vertical Port Distance Horizontal Port Distance Connection
    VHX25 480 180 20 350 357 60 DN25
    VHX51 940 330 35 600 640 140 DN50
    VHX52 920 320 25 450 640 140 DN50
    VHX61 835 325 50 630 625 130 DN65
    VHX62 1085 325 50 630 875 130 DN65
    VHX101 1084 470 120 950 719 225 DN100
    VHX102 1084 470 80 640 719 225 DN100
    VHX103 1235 500 115 1125 882 234 DN100
    VHX104 1655 500 115 1125 1302 234 DN100
    VHX151 1885 650 235 1410 1294 298 DN150
    VHX152 1885 610 160 1255 1294 298 DN150
    VHX201 2055 730 235 1645 1478 342 DN200
    VHX301 2086 1125 215 2580 1320 600 DN300
    VHX351 2920 1190 210 3360 1842 596 DN350
    Available plate material: AISI304/AISI316/Titanium/Nickel/Alloy C-276/254 SMO
    Available gasket material: NBR/EPDM/HNBR/NBR-HT/EPDM-HT/Viton-A/FKM/Viton-G/FKM/CR
    Available connection material: rubber/stainless steel/unlined/flange


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    VHX supply heat exchanger plates from 0.03m2 to 1.8m2 for different application requirements. We manufacture plate heat exhcanger for replacement models and our own brand models, available calibre from DN25 to DN350.

     
    Model Height Width Min Standard Length Max Standard Length Vertical Port Distance Horizontal Port Distance Connection
    VHX25 480 180 20 350 357 60 DN25
    VHX51 940 330 35 600 640 140 DN50
    VHX52 920 320 25 450 640 140 DN50
    VHX61 835 325 50 630 625 130 DN65
    VHX62 1085 325 50 630 875 130 DN65
    VHX101 1084 470 120 950 719 225 DN100
    VHX102 1084 470 80 640 719 225 DN100
    VHX103 1235 500 115 1125 882 234 DN100
    VHX104 1655 500 115 1125 1302 234 DN100
    VHX151 1885 650 235 1410 1294 298 DN150
    VHX152 1885 610 160 1255 1294 298 DN150
    VHX201 2055 730 235 1645 1478 342 DN200
    VHX301 2086 1125 215 2580 1320 600 DN300
    VHX351 2920 1190 210 3360 1842 596 DN350
    Available plate material: AISI304/AISI316/Titanium/Nickel/Alloy C-276/254 SMO
    Available gasket material: NBR/EPDM/HNBR/NBR-HT/EPDM-HT/Viton-A/FKM/Viton-G/FKM/CR
    Available connection material: rubber/stainless steel/unlined/flange