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Comparison Bosch HXN 390D61L black vs Bosch HXS 59AI50Q stainless steel

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Bosch HXN 390D61L black
Bosch HXS 59AI50Q stainless steel
Bosch HXN 390D61L blackBosch HXS 59AI50Q stainless steel
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Main
8 modes including convection. Turbo burner. catalytic cleaning. LCD display.
Hob typegasgas
Burner controlsrotary knobsrotary knobs
Oven
Oven typeelectricelectric
Oven capacity66 L66 L
Minimum temperature50 °C
Max. temperature275 °C275 °C
Power3.3 kW3.3 kW
Features
thermostat
timer
convection
electric grill
oven lighting
thermostat
timer
convection
electric grill
oven lighting
Number of cooking modes7
Oven cleaningtraditional
catalytic /back wall/
Guidesframeframe
Number of glass in door22
Hob
Hob materialenamelstainless steel
Number of gas burners44
Turbo burners1
Burner gratessteelcast iron
More features
Gas controlhobhob
Auto ignitionhobhob
Child lock
Automatic switch-offovensovens
Display
More specs
Energy classA
Connected load3.3 kW3.3 kW
Dimensions (HxWxD)85x60x60 cm85x60x60 cm
Country of originTurkey
Color
Added to E-Catalogdecember 2019october 2018

Minimum temperature

The lowest temperature the oven can provide. Usually, it is in the range of +30 to +50 ˚C. So, for example, the minimum heating temperature at +30 ˚C allows you to defrost products. Models with a minimum of 40 ˚C and 50 ˚C allow you to heat ready meals, heat tableware (before serving), dry rusk, etc.

Number of cooking modes

It is the number of cooking modes provided in the design of the oven. This item shows the typical cooking modes — for example, “heating”, “heating + convection”, etc. Accordingly, this parameter is highly dependent on additional equipment. However, even in similar models, the number of modes may be different. In general, the more there are, the more opportunities for cooking, and the easier it will be to choose the optimal mode for a specific situation.

Oven cleaning

It is the method of cleaning the inner surface provided in the design of the oven. In addition to traditional and more advanced steam cleaning, there are catalytic and pyrolytic cleaning. More about them:

— Traditional. This option assumes the absence of any devices that facilitate cleaning: you have to wash the oven manually, using ordinary detergents and cleaning products. Such a procedure can be quite troublesome and time-consuming, but such ovens are much cheaper than similar models with more advanced types of cleaning.

— Pyrolytic. Cleaning with high temperature. Dirt on the interior surfaces of the oven is burned to ash, which can then be easily removed without using detergents. At the same time, pyrolytic cleaning equally effectively handles all types of dirt, both new and old. The disadvantages of such a system are the duration of cleaning (sometimes up to several hours), high cost, and significant consumption of resources (electricity or gas, depending on the type of oven). In addition, during the operation of the cleaning system, unpleasant odours often arise, generated by the combustion of contaminants in the oven.

— Catalytic. Ovens with this type of cleaning have a special coating on the inner surface that breaks down grease on the oven walls. Fat disintegration is accelerated at high temperatures; the oven is thus self-cleaning t...o a certain extent. However, the efficiency of catalytic cleaning is lower than that of pyrolytic cleaning. It is unable to cope with the entire amount of fat on the walls. Therefore, such an oven should be washed from time to time. On the other hand, ovens with catalytic cleaning are cheaper than ones with pyrolytic cleaning. And the cleaning itself does not require additional electricity/gas costs, nor is time-consuming (except for washing/wiping).

— Steam cleaning. Cleaning the oven with heated steam. A certain volume of water is poured into a baking sheet or another container, the container is placed in the oven and the cleaning mode is turned on. Due to heating, the water evaporates, and the heated steam softens the dirt on the walls and partially disintegrates the fat. After the end of the programme, it is enough to wipe the oven with a damp cloth. Such a cleaning requires less time and resources than pyrolysis and often turns out to be more effective than catalytic — steam can soften even old dried-up contaminants. At the same time, these ovens are relatively inexpensive. At the same time, this mode does not guarantee to cope with any contamination. It is possible that after the end of the steam cleaning, the oven will have to be washed traditionally.

Hob material

— Enamel. Enamel coating is inexpensive and relatively easy to clean. In addition, enamel can have different colours, which allows you to give the stoves an original appearance (although the most popular is still the classic white colour). On the other hand, cracks, chips and scratches may appear on such a surface. As a result, such a coating is typical for relatively inexpensive boards.

Stainless steel. Steel hobs are highly durable and attractive. But, it will take a lot of effort to keep such a stove clean: even slight dirt is noticeable on a steel surface (especially polished). And it is more difficult to clean them than enamel. In addition, such surfaces are somewhat more expensive than enamelled ones, and there are, in fact, two design options for them - matte and polished.

- Glass-ceramic. A material is found predominantly in electric stoves; rarely used in gas models, mainly for aesthetic reasons. The main advantages of glass ceramic are resistance to heat and high permeability to heat and electromagnetic radiation. Schott Ceram and EuroKera, manufacturers of this very glass-ceramic, which manufacturers of household appliances install in their models, were especially successful in this. It allows electric burners (regardless of type) to be placed directly under such a surface. The re...sult is a flat top with no protrusions, making cleaning easier and providing a neat appearance. The main disadvantages of this material are high cost and sensitivity to impacts.

- Tempered glass. A material similar to the glass-ceramics described above: the glass surfaces have an attractive appearance, usually with a glossy finish. Another common feature is the ease of cleaning: most of the contaminants are easily removed. However, this material is not as strong as glass-ceramic: it is much more sensitive to impacts and tolerates heat much worse, which makes it poorly suited for installation above burners. As a result, tempered glass is used mainly in gas stoves, where the burners are located above the work surface and tempered glass heats up relatively weakly. Another category of stoves with such a surface is electric models with induction hobs, where the dishes and not the surface are mainly heated (see below for more details).

— Plastic. Working surface made of special heat-resistant plastic. A rather specific option is found mainly among portable single-burner electric stoves with induction heaters (see below). There are several reasons for this. One of them is that, despite the heat resistance, even fairly advanced plastic does not tolerate heating on gas or a classic electric burner. But with an induction burner, this material works without problems, especially since it is well permeable to electromagnetic radiation. Plastic is cheaper than tempered glass or glass-ceramic, and it also weighs less - the latter is important for a stove that is planned to be moved frequently from place to place. At the same time, all these advantages cannot be called critical. As a result, this option, even in its niche, has not received much popularity.

Turbo burners

The number of gas burners in which the flame is located not in one, as in standard burners, but in two (or three) rows — in other words, in the form of two (three) rings, one inside the other. Such burners have more power than traditional single-row ones and heat the bottom of the pan more evenly, which can be especially useful when frying. On the other hand, the need for such a heating mode arises quite rarely, and much more gas is consumed than during the operation of a classic burner. As a result, even in advanced stoves, the number of turbo burners rarely exceeds 1.

Burner grates

It is the material from which the burner grates of the stove are made. This parameter is relevant only for gas burners — electric hobs do not have grates.

— Steel grates. The most common type of grates is steel grates coated with a special heat-resistant enamel. They are quite practical, reliable, have a relatively small weight and neat appearance, and at the same time are inexpensive, due to which they are often found in entry-level and middle-level models. The main disadvantage of steel grates can be called the difficulty in cleaning from adhering contaminants — too intensive cleaning can damage the enamel. In addition, they are less durable than cast iron ones, and under heavy dishes containers, they can deform — as a result, the dishes will not stand stably on the stove, and the grate will most likely have to be replaced.

— Cast iron grates. Cast iron grates is much heavier than steel ones. Moreover, they often look more massive and rough. On the other hand, they are more reliable, durable and stable, can cope even with heavy weights and keep their working shape much longer. In addition, cast iron is easier to clean: although dirt comes off worse than enamel, in extreme situations it is quite possible to use abrasive products without fear of damaging the surface.

Child lock

A security measure that allows you to block the controls of the stove. It will be useful in families with small children: when the lock is on, a curious child will not be able to turn on the stove or change settings. To unlock, one needs to perform certain actions, which are easy for an adult and too complex for a child: for example, you need to press two specific buttons simultaneously.

Energy class

The energy class describes the overall efficiency of the cooker in terms of energy consumption. Note that we are not talking about actual consumption (see "Connected load" for details), but about the efficiency of the stove, about the efficiency of using the energy that it consumes.

This indicator is especially important for models with at least one electric burner or electric oven/grill. But, if we are talking about a purely gas stove, you can not pay much attention to the energy consumption class. Electricity in such models is spent only on additional functions like auto-ignition or oven lighting,

Initially, the classes were marked in Latin letters from A(the most economical) and then alphabetically in order of decreasing efficiency — B, C, D ... Later, improved classes A+, A++ appeared; the more pluses, the higher the efficiency. Today, energy consumption in class A can be called medium, and in a lower class — high. The maximum indicator found in modern stoves is A++; if we are talking about a model with an electric burner, such a stove is usually expensive, but it pays off by saving electricity during use.

Country of origin

The country in which, according to the manufacturer, the model is manufactured. Despite the fact that most of the capacities are concentrated in China, European factories ( in Poland, Slovenia, Romania, Turkey, Czech Republic, etc.) for the production of household appliances have not gone away. And some models can be produced there. In general, such a division into a Chinese or European factory should not particularly affect the quality of products, but the stereotype of a reliable European assembly is present in us. However, it is possible that the model may have a country of manufacture, for example, Poland, and in the store under the same article, you will meet China.
Bosch HXN 390D61L often compared
Bosch HXS 59AI50Q often compared