Question about Amana Refrigerators
I also get particles in ice from icemaker. They appear to be plastic - hard, they cannot be broken/crushed between fingernails. I had a plumber check: the tubing is copper so not the source. Tap water doesn't have particles, so it must be the icemaker. Plastic mold-liner chipping off seems most likely source.
Your anlysis of the problem seems right on. If the liner is chipping you may end up replacing the entire icemaker.
Posted on Dec 30, 2013
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Posted on Jan 02, 2017
SOURCE: Bad water & ice cube taste
the feed line of the water source is bad replace it you will also need to clean the ice makers insides to remove the rest of the contamination
and 2 more suggestions:1) change the filter - older refers have the filter in the water line serving the ice maker - newer refers have the water filter in the refer (it looks much like an auto oil filter); 2) do not store ice for extended periods when ice use is not high e.g. during cooler months. Unless you use a full basket of ice over say a few weeks you should dump all and start over periodically.
Posted on Sep 16, 2008
SOURCE: Bad water & ice cube taste
Hello redwood City
Your Kitchenaid Superba KSRG25FKBL15 has bad tasting water and ice cubes. You replaced the copper tubing which delivers the water to the fridge and that didn't help. You replaced the copper tubing again with plastic tubing...no better. Any suggestions? Your tap water doesn't taste this bad.You bought a Kenmore french door fridge with water dispenser in the door in July 2008. The fridge has a filter. A few weeks after the fridge came the water and ice started tasting really bad, unlike any bad water taste I have ever tasted. And your tap water is fine. The bad taste appears to be random. Sometimes you get a cup full of nasty water and sometimes it tastes fine.
First you must know you have a 1 year warranty and can have them come out to fix anything, no charge.If it persists. You will have to get tough and you , MUST INSIST THEY REPLACE YOUR FRIDGE
When installing the water line these were a part of the directions!
Did you do this before connecting the water line to your fridge?
"Place the free end of the tubing in a container or sink, and
turn ON the main water supply. Flush the tubing until water is
clear. Turn OFF the shutoff valve on the water pipe. Coil the
Off-taste, odor or gray color in the ice
1.Are the plumbing connections new, causing discolored or
off-flavored ice? Discard the first few batches of ice.
2.Have the ice cubes been stored too long? Throw old ice
away and make a new supply.
3.Does the freezer and ice storage bin need to be cleaned?
See “Cleaning” or “Ice Maker and Storage Bin.”
4.Has food in the freezer or refrigerator been wrapped
properly? Use airtight, moisture-proof packaging to help
prevent odor transfer to stored food.
5.Does the water contain minerals (such as sulfur)? A filter
may need to be installed to remove the minerals.
6. Is there a water filter installed on the refrigerator? Gray or
dark discoloration in ice indicates that the water filtration
system needs additional flushing. Run additional water
through the water dispenser to flush the water filtration
system more thoroughly (at least 2 to 3 gal. [8 to 12 L] or 6 to
7 minutes initially). Discard discolored ice.
Let me know what works,
Thank You ,
Please remember to leave a rating.
Posted on Oct 12, 2008
SOURCE: Bad water & ice cube taste
Our refridgerator has terrible tasting ice and water and we have tried everything to fix it. Is there a sure fire way to fix the problem. I would love to use the ice maker and water.
Posted on Dec 08, 2008
Tips for a great answer:
The home icemaker's predecessor was the plastic ice tray. It's fairly obvious how this device works: You pour water into a mold, leave it in the freezer until it turns to a solid and then extract the ice cubes. An icemaker does exactly the same thing, but the process of pouring water and extracting cubes is fully automated. A home icemaker is an ice-cube assembly line.
Most icemakers use an electric motor, an electrically operated water valve and an electrical heating unit. To provide power to all these elements, you have to hook the icemaker up to the electrical circuit powering your refigerator. You also have to hook the icemaker up to the plumbing line in your house, to provide fresh water for the ice cubes. The power line and the water-intake tube both run through a hole in the back of the freezer.
When everything is hooked up, the icemaker begins its cycle. The cycle is usually controlled by a simple electrical circuit and a series of switches.
At the beginning of the cycle, a timed switch in the circuit briefly sends current to a solenoid water valve. In most designs, the water valve is actually positioned behind the refrigerator, but it is connected to the central circuit via electrical wires. When the circuit sends current down these wires, the charge moves a solenoid (a type of electromagnet), which opens the valve.
The valve is only open for about seven seconds; it lets in just enough water to fill the ice mold. The ice mold is a plastic well, with several connected cavities. Typically, these cavities have a curved, half-circle shape. Each of the cavity walls has a small notch in it so each ice cube will be attached to the cube next to it.
Once the mold is filled, the machine waits for the water in the mold to freeze. The cooling unit in the refrigerator does the actual work of freezing the water, not the icemaker itself. The icemaker has a built-in thermostat, which monitors the temperature level of the water in the molds. When the temperature dips to a particular level -- say, 9 degrees Fahrenheit (-13 degrees Celsius) -- the thermostat closes a switch in the electrical circuit.
Closing this switch lets electrical current flow through a heating coil underneath the icemaker. As the coil heats up, it warms the bottom of the ice mold, loosening the ice cubes from the mold surface.
The electrical circuit then activates the icemaker's motor. The motor spins a gear, which rotates another gear attached to a long plastic shaft. The shaft has a series of ejector blades extending out from it. As the blades revolve, they scoop the ice cubes up and out of the mold, pushing them to the front of the icemaker. Since the cubes are connected to one another, they move as a single unit.
At the front of the icemaker, there are plastic notches in the housing that match up with the ejector blades. The blades pass through these notches, and the cubes are pushed out to a collection bin underneath the icemaker.
The revolving shaft has a notched plastic cam at its base. Just before the cubes are pushed out of the icemaker, the cam catches hold of the shut-off arm, lifting it up. After the cubes are ejected, the arm falls down again. When the arm reaches its lowest resting position, it throws a switch in the circuit, which activates the water valve to begin another cycle. If the arm can't reach its lowest position, because there are stacked-up ice cubes in the way, the cycle is interrupted. This keeps the icemaker from filling your entire freezer with ice; it will only make more cubes when there is room in the collection bin.
This system is effective for making ice at home, but it doesn't produce enough ice for commercial purposes, such as restaurants and self-service hotel ice machines. In the next section, we'll look at a larger, more powerful icemaker design.
There are any number of ways to configure a large, free-standing icemaker -- all you need is a refrigeration system, a water supply and some way of collecting the ice that forms.
One of the simplest professional systems uses a large metal ice-cube tray, positioned vertically.
In this system, the metal ice tray is connected to a set of coiled heat-exchanging pipes like the ones on the back of your refrigerator. A compressor drives a stream of refrigerant fluid in a continuous cycle of condensation and expansion. Basically, the compressor forces refrigerant through a narrow tube (called the condenser) to condense it, and then releases it into a wider tube (called the evaporator), where it can expand.
Compressing the refrigerant raises its pressure, which increases its temperature. As the refrigerant passes through the narrow condenser coils, it loses heat to the cooler air outside, and it condenses into a liquid. When the compressed fluid passes through the expansion valve, it evaporates -- it expands to become a gas. This evaporation process draws in heat energy from the metal pipes and the air around the refrigerant. This cools the pipes and the attached metal ice tray.
The icemaker has a water pump, which draws water from a collection sump and pours it over the chilled ice tray. As the water flows over the tray, it gradually freezes, building up ice cubes in the well of the tray. When you freeze water layer by layer this way, it forms clear ice. When you freeze it all at once, as in the home icemaker, you get cloudy ice.
After a set amount of time, the icemaker triggers a solenoid valve connected to the heat-exchanging coils. Switching this valve changes the path of the refrigerant. The compressor stops forcing the heated gas from the compressor into the narrow condenser; instead, it forces the gas into a wide bypass tube. The hot gas is cycled back to the evaporator without condensing. When you force this hot gas through the evaporator pipes, the pipes and the ice tray heat up rapidly, which loosens the ice cubes.
Typically, the individual cube cavities are slanted so the loosened ice will slide out on their own, into a collection bin below. Some systems have a cylinder piston that gives the tray a little shove, knocking the cubes loose.
This sort of system is popular in restaurants and hotels because it makes ice cubes with a standard shape and size. Other businesses, such as grocery stores and scientific research firms, need smaller ice flakes for packing perishable items. We'll look at flake icemakers next.
In the last section, we looked at a standard cube icemaker design. Flake icemakers work on the same basic principle as cube icemakers, but they have an additional component: the ice crusher. You can see how a typical flake system works in the diagram below.
Like the cube icemaker design we examined in the last section, this machine uses a set of heat-exchanging coils and a stream of water to build up a layer of ice. But in this system, the coils are positioned inside a large metal cylinder. Water passes through the cylinder, as well as around its outer edges. The passing water gradually builds up a large column of ice surrounding the cylinder from the inside and outside.
As with a cube icemaker, a solenoid valve releases hot gas into the cooling pipes after a set length of time. This loosens the ice column so it falls into the ice crusher below. The ice crusher breaks the ice cylinder into small pieces, which pass on to a collection bin.
The size of the ice bits depends on the crusher mechanism. Some crushers grind the ice into fine flakes, while other crushers produce larger, irregularly shaped ice chunks.
There are many variations on these designs, but the basic idea in all of them is the same. A refrigeration system builds up a layer of ice, and a harvesting system ejects the ice into a collection bin. At the most basic level, this is all there is to any icemaker.
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