Total capacity
The total capacity of the refrigerator is the total capacity of all the main working chambers: refrigerating, freezing, zero, and wine chambers. The set of these chambers, of course, will be different in different models (see more about them above). Here we note that large volumes, on the one hand, simplify the storage of numerous products and, on the other hand, affect the dimensions and price of the unit. It is also worth considering that refrigerators of the same total capacity may differ in the capacity of individual chambers.
No Frost
The No Frost function prevents the formation of frost inside the refrigerator. The general principle of its operation is that excess moisture is blown out of the working chamber by a special fan, not having time to settle on the walls and form frost.
This function is most relevant for the freezer, although it is technically easy to provide in the refrigerator. Therefore, refrigerators with
No Frost in all compartments are the most popular nowadays, much less often this system is installed only in the
freezer, and extremely rarely — only in the refrigerator (usually in such models there is no freezer at all).
The No Frost function significantly simplifies the user's life. It eliminates the need to
manually defrost the refrigerator and even eliminates the need for automatic defrosting systems (see "Features"). The reverse side of this convenience is that such systems absorb moisture not only from the air but from the food inside too. So for long-term storage, the contents must be tightly packed — otherwise, it dries quickly. In addition, the presence of No Frost inevitably increases the overall cost of the fridge. So if these moments are critical for you, the fridges
without No Frost may well be the best choice.
Refrigerator capacity
The total capacity of the main working chamber of the refrigerator. If there are separate zero chambers, compartments for wine and other additional functions, this paragraph takes into account only the volume of the refrigerating chamber itself, without additional equipment. In the smallest modern units, this figure
does not even reach 100 liters, in the largest it can exceed
400 liters.
The choice of capacity depends on the actual storage needs of the products. At the same time, both the volume of stocks and the frequency of their replenishment (every day, once a week, etc.) matter. The chamber should not be stocked completely; this adversely affects the quality of the refrigerator. On the other hand, it is worth remembering that large volumes accordingly affect the dimensions and price of the unit.
In general, for one or two people, a capacity of
200 – 250 liters, or even less, is considered quite sufficient. The optimal capacity for a family of three is about
250 – 300 liters, for four to five people —
300 – 350 liters, and larger volumes are really needed mainly for specific situations when food has to be stored in large quantities and for a long time.
Fast cool
Forced cooling mode, in which the intensity of cooling the refrigeration compartment is significantly increased. It is an analogue of the fast freeze described above, used in the refrigerator compartment.
Fast cool is also intended mainly for situations where a lot of foodstuff must be loaded inside at a time — it avoids a critical increase in temperature inside the refrigerator. This mode also needs to be turned on in advance and turned off after a certain time. In some models, the shutdown occurs automatically, but the presence of this feature needs to be specified separately.
Dynamic air cooling
This function means that there is a built-in fan that circulates air around the refrigerator compartment. It contributes to the evenest distribution of cold and more efficient cooling than in units without a fan, where the air moves only due to natural convection. The main disadvantages
of dynamic air cooling are the increase in noise level, energy consumption and the cost of the refrigerator.
Freezer capacity
The capacity of the freezer installed in the refrigerator. Such a chamber is designed to store products at temperatures well below zero (on average -18 °C). Its capacity is related to the total capacity of the refrigerator (and the capacity of the main, refrigerating chamber). However, there is no strict dependence here — models with a similar volume of the refrigerating chamber can be equipped with freezers of different sizes.
When choosing by capacity, it is worth considering how much frozen food you plan to store at a time. Note that it is undesirable to fill the freezer completely — this negatively affects the efficiency of work. However, if this chamber is planned to be used only occasionally, and you do not plan to keep numerous products in it, you can not chase after the capacity: for such cases,
25 – 50 liters, or even
smaller capacities, are enough. In the smallest modern refrigerators, the freezer capacity
does not exceed 10 liters. And vice versa, very roomy freezers come across — for
176 – 200 liters and even
more. Such volumes are typical mainly for side-by-side and French door units (see "Product type"). However, they are also found in models of the classic two-chamber layout.
Autonomy time
The autonomy time provided by the refrigerator when the power is turned off.
Often, this parameter describes the capabilities of the freezer. In such cases, the autonomy time is indicated as the time during which, at an outside temperature of +25 °C, the temperature in the filled freezer does not rise above -9 °C (this level is considered critical for the storage of frozen foods). Accordingly, the actual autonomy time may differ from the claimed one — depending on the ambient temperature, the frequency of opening the refrigerator, etc. However, this parameter describes the quality of thermal insulation quite accurately, and it is possible to evaluate different models and compare them with each other.
Also, autonomy time can be given for models without freezers: in such cases, we are talking about the time during which the temperature in the refrigerator compartment remains at an acceptable level under approximately the same conditions.
Controls
The type of controls for refrigerators is indicated primarily by the type of control panel. Often its location is also taken into account. According to these criteria, nowadays, the following options are distinguished:
rotary knobs,
internal push-buttons,
external push-buttons,
internal touch controls and
external touch controls. Here are the features of each of these options:
— Rotary knobs. Control using rotary knobs. Such knobs are traditionally installed inside the refrigerator, so in this case, the location is not specified. In general, this is the simplest and most inexpensive option used in units of the appropriate level. Most often, there is only one rotary knob; it is directly connected to the thermostat and regulates only the temperature inside the refrigerator (and even then very approximately). However, even this is often quite enough — especially if the refrigerator is operated in more or less constant temperature conditions (for example, in a home or office kitchen). In many cases, the matter is limited to choosing a more or less suitable knob position once and then not touching the settings at all. In addition, the unambiguous advantages of this type of control are reliability and ease of repair.
— Internal push-buttons. Push-buttons are generally considered more advanced th
...an rotary knobs. The specific functionality of refrigerators with such control may be different, but among them, models with additional functions and the ability to fine-tune the temperature (and sometimes even humidity) are noticeably more common. As for the interior layout, it allows you to hide the panel behind the refrigerator door, providing a neat appearance with a minimum of protruding parts. And if the door has a child lock, in this case, it also performs the function of protecting against children. However, to access the controls you have to open the refrigerator — but this moment is generally not critical: such access is not needed so often, and changing settings does not take much time.
— External push-buttons. Like the internal push-buttons (see above), such controls are typical mainly for fairly advanced models (although exceptions are possible). And the external location is convenient because you do not need to open the door to access the settings. On the other hand, the real need for such an arrangement is not so often, and push-buttons must also fit into the overall design of the unit (which is not always possible to do in the best way). As a result, the external version of push-button controls is much less common than the internal one.
— Internal touch controls. Internal touch controls are considered the next step in the development of controls, after buttons. So, they look stylish and technologically advanced, they do not need to be pressed hard (just touched), and there are no protruding parts, corners and cracks on the surface of the panel, which simplifies cleaning from dirt. Accordingly, the presence of touch controls is typical mainly for refrigerators of the middle and top levels. It costs a little more than a push-button one, but this is imperceptible against the background of the total price of the units. But specifically, the internal location is much less common than the external one. It is because there is no need to hide the touch sensors behind the door — they can be easily fit into the external design of the refrigerator.
— External touch controls. The general features of touch controls are described above. And external touch panels in refrigerators are used much more often than internal ones: such panels can be given almost any appearance, optimally fitting them into the design of the refrigerator. Besides, placing them outside allows you not to open the door again to access the settings.Energy consumption per year
The average amount of energy consumed by a refrigerator in a year of operation. Of course, these figures are not absolutely accurate; the actual power consumption may vary depending on the specific operating conditions. However, this parameter makes it possible to evaluate the power consumption of the refrigerator and compare different models with each other. At the same time, it often turns out to be more convenient and visual than the energy consumption class (see above) because in this paragraph we are talking about a specific figure (from which you can also calculate the cost of electricity consumed). For clarity, let's take the following example: a small two-chamber refrigerator with energy class A can consume less energy per year than a large side-by-side unit of class A+++, although formally, in terms of energy consumption classes, the second model will be more economical than the first.