Difference between revisions of "Fridge"
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* [[Refrigeration Regassing (R600a)]]
* [[Refrigeration Regassing (R600a)]]
* [[Special:Allpages|Wiki Contents]]
* [[Special:Allpages|Wiki Contents]]
Revision as of 11:26, 9 April 2013
Most of the information here also applies to fridge freezers, and some of it to freezers.
Right: 1920s monitor top fridge
Liquid oozes inside the fridge can penetrate interior lining junctions and saturate the insulation at the bottom, leading to external dripping, rusting, increased power consumption, inadequate cooling and sometimes smell.
It doesn't happen often, but fridges in tight spaces can overheat. Too high a temp at the rear causes overheating of compressor, with consequently reduced life.
An indoor/outdoor thermometer can be used to tell if the temp behind the fridge is getting too high, but its generally quicker to just place a hand on the heat exchanger at the rear. Warmth is to be expected, and hotness at one end, but if its not cold at one end then the compressor isn't getting the cooling it needs. In this situation, the refrigerant gas is delivered to the expansion line hot, so energy consumption increases, further increasing average compressor temp and reducing life expectancy.
The solution is more ventilation. Where its problematic to provide this, a quiet 3" or 4" fan can be used to move air upwards behind the machine (machines with side mounted cooling need side airflow). Such arrangements require an occasional clean to remove dust buildup.
Dripping & flooding
External dripping can be caused by the drainage tube becoming unattached from the plastic tray on the compressor. Some fridges used metal evaporation trays; these rust enthusiastically, causing external dripping.
Interior dripping or flooding can be caused by blockage of the entry point of the drainage pipe. Remove any debris and poke the pipe with a bit of wire to clear it. If it blocks repeatedly, mould growth is the usual culprit. This can usually be stopped by cleaning the interior spotlessly. A bit of bare copper wire lying across the pipe entry can also help.
Exterior dripping can also be caused by saturated insulation This also causes the compressor to run continuously, and often the interior temp to be too high. Replacing the insulation is the only cure, which isn't worthwhile unless the appliance is of some value. Insulation saturation usually occurs at the bottom of the fridge, where many 1990s fridges used a cheap saturatable insulation pad.
If the bottom insulation pad is the problem, its often possible to cut metal back to get the pad out and refill with a PIR or polystyrene foam building insulation, making it airtight with a little expanding foam (don't overdo the expanding foam!). Don't forget to leave the machine the right way up for 24hrs before plugging in.
With a bad thermostat the fridge either plays dead, or the compressor runs all the time, consuming excessive energy. Icing up of the cooling plate often occurs. A fridge running constantly can use about £70 of electricty a year, around £50 a year more than it should (exact figures vary).
Thermostats can be DIY replaced, and generic replacement stats are available. The temperature detecting capillary tube mustn't be cut or damaged. If its too long just coil the excess up.
Usually the stat needs no adjustment, other than the knob setting to give the correct temp, but if adjustment is needed, the 2 adjusting screws under the cover control set temp range and hysteresis. If the hysteresis is set too small for the fridge, the compressor will stall on starting frequently.
Compressor runs but not cold
This is caused by loss of refrigerant, which is caused by a leak. A gas refill will only leak out again. Usually not worth repairing, unless the machine is valuable, because of the great difficulty in finding such a tiny leak.
Compressors can be replaced and the refrigerant gas refilled, but again most fridges aren't worth it.
A compressor with a partial short either blows fuses or overheats quickly and cuts out. Its often possible to make these run by adding a high power series resistance to limit the short current, but the increased energy consumption and low cost of replacement fridges makes it not usually worthwhile. A 240v 3kW non-fanned heater makes a suitable series resistance.
Some such compressors fail to start fairly often, so this should only be used as a temporary measure while a replacement fridge is obtained, and machine operation checked regularly. (A stalled compressor can often be got to start with a kick when it powers up. This bodge can crack the pressure piping, so is best reserved for machines too damaged to start themselves after several tries.)
Fridge noise is usually caused by something touching the compressor or failure of the rubber suspension under the compressor. The latter can be fixed by inserting chunks of rubber under the compressor, making sure it can still move slightly. Metallic clanking noise can be caused by loose mounting of piping or something touching the pipework. A little rubber, cardboard or foam does the job.
When a gas leak occurs, some repairers offer to refill. However if it leaked out once, it will do so again, so this is only a temporary repair. Locating a very slow leak to fix it is extremely difficult.
The situation is different with belt driven in-car compressors. These leak refrigerant as a normal part of operation, and eventually require refill. Ditto belt driven antique fridges.
Test effectiveness of the door seal by checking it grips a till receipt all the way around. A failed seal allows air to leak through, which results in excessive condensation formation on the cold plate, more rapid icing of icebox models, and increased energy consumption.
If the seal looks OK but isn't sealing, check the fridge is standing squarely and level on the floor with the feet adjusted correctly. The cabinent is easily jarred when not supported correctly on all feet, which can prevent the door fitting the frame. Secondly, check the door adjustment (where present). This should be correct when supplied, but can be misaligned when reversing the door.
Door seals can be replaced on some fridges. Peel the seal back to locate the screws. Unfortunately in some cases the only known good repair is a new door.
There is a cheap bodge that's sometimes the only economic option when the door seal doesn't sit flat against the frame. Clean the face of the door seal well. Apply cling film onto the metalwork where the seal meets it. Apply clear silicone to the face of the door seal, and close the door fully. When fully set, open very gently & remove the cling film, and put clear tape over the surface of the silicone to give it a non-stick finish, trimming the tape. This method gives an effective seal, but the silicone's adherence to the seal is weak, and it must be treated gently. Sanding the original seal's surface would probably help. Less magnetic closing force also results if the seal damage is large; tilt the machine back slightly by adjusting the feet to avoid the door sitting ajar.
Door sits ajar
If the door sits ajar rather than closing itself, adjust the front feet to tilt the machine back a few degrees.
Rapid interior icing is due to a door seal problem. See the above 2 sections
Larders & frost free fridges
Standard fridges have an icebox, which ices up and requires periodic defrosting.
Larder fridges contain no icebox, and generally don't frost up, so are frost free.
Be sure to avoid all scented cleaners. Avoid scourers which make the interior lining harder to clean in future. Avoid bleach too. Cream cleaner and a cloth are normally effective, with a brush for any residue buildup. Stubborn dirt should be soaked to loosen.
The occasional spot of dirt that won't clean off with a water based clean can be removed with paraffin or diesel on a paper towel. But keep this to a minimum and wipe off thoroughly, remaining traces takes ages to evaporate away completely.
Plastic fittings in fridges & freezers are typically not dishwashable.
The fridge exterior can be cleaned with the usual things, such as cream cleaner & bleach.
Where smells are persistent, wiping the interior with dissolved bicarb (and not rinsing) sometimes clears the last of the smell.
If the fridge is in such a state that stinking oozes have gotten into the insulation:
- a new fridge is normally the only remedy
- For a valuable fridge, replacement of the insulation is also an option.
- Or relegate the machine to a garage etc
The evaporator (cooling plate) in domestic fridges is normally made of thin aluminium, and is very easily punctured by a screwdriver.
The usual way to defrost is to just leave the door open. If time is pressing, a fan near the ice speeds deicing up greatly.
Pretty much all brands of fridge have a good reliability record. (This is less true of fridge freezers.) Liebherr and Miele are generally reckoned to be among the best makes.
There are 3 common cooling arrangements:
- Heat exchanger at back. Requires rear ventilation, but no side ventilation.
- No external heat exchanger. These have cooling tubes built in under the outer skin, and require side ventilation for cooling.
- Less common is cooling underneath the fridge, with warm air expelled at the front at the base. Such fridges require no ventilation to sides or rear.
Its traditional to leave a small gap each side of a fridge. This gap makes moving the appliance easier, avoids the door catching, avoids vibration noise and increases rear ventilation. Newer fridges with no external heat exchanger need side ventilation for cooling.
There's also a condensation issue. You need enough ventilation at the sides to prevent the side panels dropping below the dewpoint and generating condensation, which would rust the fridge & wet the floor. The other alternative is to seal the side gap so there's no flow of air to form condensation -- this is the approach used by linking kits for linking adjacent appliances.
Shelves: Wire vs glass
Glass shelves are wipe cleanable, and minimise spills of meat juices etc onto foods below. Glass is dishwashable indefinitely. Wire is dishwashable occasionally, but frequent dishwashing causes the plastic to crack and the wire to rust badly.
Glass shelves can't always be retrofitted into a wire shelved fridge. Glass blocks air circulation, and this can sometimes result in inadequate cooling in fridges designed for wire. A fridge with a large cooling evaporator that extends most of the way down the fridge is much more likely to work with glass than one with an evaporator at the top only.
In 2012 less than 3% of sales were of A+ & A++ rated fridges/freezers
- A+ rated use 23% less energy than A rated
- A++ rated use 50% less energy than A rated
The energy efficiency of fridges has improved substantially since the 1970s. Over its lifetime, the total purchase and running costs of a new fridge are normally less than those of a free 1970s fridge.
A fridge with a compressor running continuously can eat £60-70 a year in electricity, costing much more over the years than buying a new machine.
Until 1993 nearly all fridges used the CFC refrigerant R12, also known as freon.
New fridges use any of several HC and HFC refrigerants, such as R134a. Some of these are believed to affect the ozone layer as well, some not.
Propane, Butane, Pentane
Third world fridges usually use propane (or similar gases) as the refrigerant. These gases are cheap and energy efficient, but leaked gas can be explosive. Despite this, data indicates the real world risk is negligible.
Propane is also sometimes used by DIYers to repair fridges and a/c systems that were designed for R12, R-22 or R-134a. Its cheap, readily available, a plug-in replacement, and 9-15% more energy efficient than R12, but also highly flammable.
Propane refrigerant is labelled as R-290. Bottled propane is a propane butane mix, not pure propane, and the 2 need to be separated, which isn't hard.
Butane is R-600 and works at low enough pressure to be contained in reinforced plastic hose.
Pentane is another low working pressure refrigerant gas.
Due to the good safety record, some British fridges are now using these gases. These come with a small warning sign on the rear. With these machines, the only practical difference is that if a gas leak is smelt, one should ventilate well.
Ammonia absorption cycle
Ammonia has long been used in a small percentage of fridges using the ammonia absorption cycle. These fridges are almost totally silent, with just the thermostat's click and the occasional quiet gurgle. They're easily spotted:
- the equipment on the rear looks quite different to compressor fridges
- They are completely silent when first plugged in
- They don't have a compressor
There are 2 issues with these fridges.
- Power consumption is relatively high, due to low thermal efficiency
- Even a mini fridge contains over 1kg of ammonia, which would be fatal if released.
One advantage of these fridges is they can in principle be run off any source of heat, such as 240v, 12v, bottled gas or paraffin. Hence they're standard equipment in caravans. The other is they're silent, so are used in bedrooms, hotel rooms, and so on.
The first fridges were little more than wooden or metal cabinets. Ice was bought & placed inside to cool them. They tended to have several doors, sometimes drawers too, and wooden ones are readily mistaken for standard furniture. Gallery
These aren't practical or safe to convert to use as fridges, due to lack of insulation and poor cleanability.
Pre- R-12 & Belt drive fridges
Early electric fridges used a separate motor and belt driven compressor. These are less efficient, and the compressor gradually leaks refrigerant, so needs refilling in time. Belts slip or break occasionally.
These also used various nasty refrigerants. The refrigerants used were either toxic, very toxic or explosively flammable. Such fridges were never well suited for use in inhabited spaces.
Refilling with modern refrigerants is usually not an option, as the working pressures of these old systems are often too far removed from those of modern equipment to produce a workable refrigeration cycle. The more toxic of the old refrigerants should be used in a location ventilated and isolated from the main building. Early machines using SO2 generated complaints of foul smells, so they too need a ventilated place.
Butane and pentane work with lower pressures than R12, and may be usable in some cases.
Above is a double width version of the iconic monitor top fridge introduced in 1927, which used sulphur dioxide or methyl formate as a refrigerant. Some of these are still in service today.
Safe non-toxic non-flammable R12 refrigerant was introduced in the mid 1930s, and soon became universal. Old fridges using R12 and a sealed compressor unit behave much like modern fridges, albeit with poorer energy efficiency, and without all the other modern refinements such as wipe clean linings, safe door latches, even interior temperature, frost free operation and so on.
Refilling R12 fridges that have leaked refrigerant is an issue. R12 refills will soon be banned by law. People have sometimes refilled these succesfully with HC fuel gas. Fuel gases are very cheap and available.
Foreign historic fridges don't all use R12 after the mid 1930s. Some countries preferred the much cheaper but highly flammable fuel gases.
New mini fridges usually use peltier heat pumps (old ones used the ammonia absorption cycle). Like ammonia, these are silent and have poor energy efficiency, but the remote risk of ammonia release is not there.
These fridges don't generally have the same cooling power as standard fridges, with the ability to only cool by 15°C being normal. They aren't safe to use as a food fridge from a food poisoning point of view, food stored at 10°C in a 25°C room spoils rapidly. This is why they're usually described as drink chillers only. If wanted to store food, the interior temp should be monitored and the machine only used for foods requiring refrigeration when the fridge is sufficiently cool. Foods that don't need refrigeration (such as wine, chocolate, and unopened drinks) are safe to store in them.
5°C or below is the recommended fridge temp for food storage. Above this, food spoilage with bacteria is much more likely.
Fridge thermostats tend to control the evaporator plate temp rather than the fridge interior temp, so changes in room temp and severe evaporator icing cause changes in interior temperature. Thus its good practice to check fridge temp from time to time, and adjust when necessary.
Temperature in fridges tends to vary from one place to another. The salad crisper operates at high RH and slightly higher temp, keeping salads firm for longer and avoiding any risk of freeze damage. Enclosed spaces mounted on the door also run at slightly higher temp, and are good for keeping butter, making it not quite so hard.
Areas close to the cooling plate run colder, salads can be frost damaged if put there.
Annual Total Cost of Ownership depends on purchase cost, life expectancy, energy efficiency and energy cost.
Fridges using fans often need a replacement fan fitted at some point in their life. This is a cost and reliability issue to bear in mind when purchasing.
News:uk.d-i-y and expert websites sometimes discuss TCO reduction strategies, but opinion remains divided. One thing is clear though: frost free fridge freezers have much shorter lives on average than traditional frosting ones.
- Check the fridge temperature is correct.
- Inspect contents regularly, removing anything that is beginning to spoil.
- Avoid arranging foods so that meat juices could drip onto other food types.
- Keep the fridge interior clean.
- Glass shelves reduce cross contamination by reducing drips.
- Don't pack a fridge crammed full, this blocks airflow and can cause unsafe temperature rise on some shelves.
- Don't store meat or fish above other food types, drips can contaminate.
- Put milk bottles upright in the door, they're prone to leak when laid down
- For items that are likely to be kept past safe storage times, write the date they were opened on them.
Fridge dials are usually marked with numbers unrelated to actual temperature. The only way to determine temperature is to leave a thermometer in the fridge.
A few fridges also have an insulation sheet between icebox and the main fridge space. The position of this can be adjusted in conjunction with the thermostat dial to achieve the desired temperatures in both fridge and icebox sections. The sheet is moved to adjust the relative temps of fridge and icebox; when blocking all airflow there is maximum temp difference, and when opened there is less temp difference. Frozen food keeps longer when the icebox is colder, but energy consumption increases a little. The sheet can be removed for maximum energy efficiency when not storing frozen food - expect to need to adjust the thermostat though.
Improving energy efficiency
The simplest way to improve energy efficiency is to replace a 1980s fridge with a modern A rated one.
Energy saver plug
Energy saver plugs reduce energy consumption in old fridges, but are incompatible with a lot of new fridges, some of which have this technology built in. Energy saver plugs pass full power to the compressor during starting, then throttle the power back once running.
In most places a 10 year old fridge can be bought for the price of one of these plugs, and delivers more performance improvement, so even for old fridges their use isn't popular. Maximum saving is obtained with large old fridges, such as original 1950s appliances.
More aggressive methods
People running fridges on small solar electric systems sometimes wish to reduce energy consumption further. The rest of us won't usually want to use these methods. Any of the following can help:
- Add more polyisocyanurate or polystyrene insulation on the outside of the fridge (watch for condensation on the metal cabinet, which can rust it)
- Use an energy saver plug when compatible
- Put frozen items in the fridge overnight to defrost them
- Write the food contents on a clipboard on the front so decisions can be made with the door closed.
- Keep the fridge in a cold place eg garage - ensure its rated for such a temp range though
- Ensure the building its in doesn't overheat in summer
- Replace the 15w lamp with a 1w mains LED
- In a subzero winter, put a container of water frozen outdoors in the fridge to provide some of the cooling. Sealed containers such as tetrapaks avoid spills.
Domestic refrigeration is designed to operate indoors at around 20C.
Fridges & freezers all have a room temperature range they're designed to work in. If your room will be far from 20C its possible to buy one rated to operate in that environment. Failing to do so can result in food poisoning.
Its also an option to try it and keep monitoring interior temperature until you know the machine can work safely over the full range of room temps.
Unheated rooms tend to cause condensation on the case, leading to rust and the risk of insulation saturation.
In a very hot room, such as a conservatory or shed in summer, some fridges fail to be able to cool enough to keep food safe, and some are quite happy. Check the fridge's internal temp, and address building overheating.
RCDs can cause nuisance trips. If this occurs when out for the day the fridge warms up, making some of the food unsafe to eat. Food poisoning claims orders of magnitude more lives than appliance electrocution, so ideally a fridge should be run from a non-RCD circuit. This is even more true for freezers. Occasionally DIYers install a non-RCD feed for the fridge freezer when rewiring. The 17th edition wiring regs requires that any such socket be marked with its intended use, and not likely to be used for outdoor equipment, so not by the door.
Most local councils take fridges and freezers away free. Local dealers purchase or collect the very few types of fridge they could repair and sell profitably, but this only applies to high ticket items. People on freecycle etc take some types of nonworking fridges.
Most other disposal options are now illegal for R12 fridges, since its no longer permitted to release R12 to the atmosphere. There's R12 in the insulation as well as the coolant circuit of pre-1993 fridges.
Compressors removed from fridges have their uses. They provide compressed air at high pressure but low flow rate, and require an oil catcher if they're to last. A metal globe or other shape in the output pipe close to the compressor, filled with a copper scourer works to catch oil. When the compressor stops, the oil runs back in.
Any receiving tank not watched continuously needs an overpressure cutout.
Its now unlawful to cut an R-12 filled compressor out, as this would release R12.