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Comparison Panasonic NC-EG3000 3 L white vs Redmond RTP-M801 750 W 3.5 L stainless steel

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Panasonic NC-EG3000 3 L  white
Redmond RTP-M801 750 W 3.5 L  stainless steel
Panasonic NC-EG3000 3 L whiteRedmond RTP-M801 750 W 3.5 L stainless steel
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Main
Three temperature settings. Start delay. Convenient indication.
Typethermopotthermopot
Volume3 L3.5 L
Technical specs
Power consumption700 W750 W
Power in the heating mode35 W
Heating elementhiddenhidden
Coating of the heating elementstainless steelstainless steel
Water level indicator++
Thermostat
 /3 temperature settings/
Temperature adjustment70, 80, 90, 98 °C
Delay start timer
Water supply
water supply button
 
 
water supply button
manual pump
pressing by cup
Blocking the water supply
General
Materialplasticsteel
Dimensions30x24x22 cm
Weight2.5 kg
Color
Added to E-Catalogfebruary 2016july 2011

Volume

The nominal capacity of a kettle refers to the maximum amount of water that can be safely poured into it, and it is typically indicated by the water level indicator. In the case of brewing sets (see "Type"), the nominal capacity refers to the main kettle, while the capacity of the teapot is listed separately (see below).

The capacity of the electric kettle directly affects the amount of water that can be heated at once. A larger capacity allows for heating more water, but this also means the kettle will be larger and heavier. Additionally, heating a larger volume of water requires either more power or a longer time. Therefore, it is important to consider one's actual needs when choosing a kettle based on its capacity. For example, mini-kettles for travelling (or for one person) have a volume of up to 1 liter. For home use in a family of 2 – 3 people, a 1,5 – 2 liter model is enough. Devices for 2 – 3 liters are already well suited for a small office or a similar situation. The most spacious electric kettles are designed to hold 10 liters or more, and are typically used in public places such as canteens and cafes for dispensing hot water.

Power consumption

The power consumed by the kettle during operation is actually the power of the heating element installed in the device.

Two working moments depend on this parameter: heating intensity and electricity consumption. On the one hand, the high power of the heater allows you to quickly heat up a certain volume of water and saves time. On the other hand, the power consumption of such a device will also be appropriate. The wattage of a kettle's heater typically does not have a significant impact on electricity bills since the energy consumption required to heat a given volume of water remains the same regardless of the heater's power rating. However, there may be certain issues related to electrical connectivity. For example, if the wiring is weak or the fuses are improperly sized, the operation of a high-power heater may cause power outages. Additionally, devices with a power rating greater than 3500 W cannot be connected to a regular electrical outlet and require a specific power format. Consequently, even the largest thermal pots, which typically have a capacity of 10 L or more, are rarely equipped with heaters more powerful than 3000 W, since this power rating is sufficient for their intended use and can be connected to a standard electrical outlet.

Power in the heating mode

The power consumed by the thermopot (see "Type") in the heating mode, when the device maintains the temperature of the previously heated water. Manufacturers select this power in such a way that the device is guaranteed to be able to maintain the claimed temperature. Therefore, the only point that should be assessed by this feature is the general “voracity” of the thermopot in terms of electricity consumption. However, this mode requires relatively little energy, and the heating power does not exceed 200 W in the most voluminous models.

Temperature adjustment

The temperature adjustment capabilities refer to the specific temperature values that can be programmed into the electric kettle. It's important to note that this refers to automatic adjustment, where the kettle turns off or switches to temperature maintenance mode once the desired temperature has been reached.

If this paragraph contains several options separated by commas (for example, “60 °С, 80 °С, 90 °С”), this means that this model has several fixed temperature options. However, there are also devices with smooth adjustment, which allows you to adjust the temperature in steps of 5 °C, or even 1 °C; for such devices, the entire adjustment range is indicated here, for example, "60 — 100 °C".

The greater the number of temperature setting options available in an electric kettle, the more versatile it becomes, allowing for precise selection of the optimal brewing mode for various types of drinks. Here is a simple table of recommended temperatures:

white tea — 60 °C;
yellow tea -70 °C;
green tea — 80 °C;
black tea — 90 °C;
— rooibos, hibiscus — 100 °C (up to boiling);
baby food — 40 °C.

Of course, there are exceptions to such rules — depending on the specific type of drink. For example, some...varieties of green tea can be brewed at 90 °C.

Delay start timer

A function that allows you to pre-set the start time of the kettle. For example, you can pour water in the evening and set a timer for the morning, so that by the time you woke up, it has just boiled. This eliminates the need to turn on the kettle manually and wait for the water to heat up.

Water supply

Water supply button. The electric pump button is used to control the built-in pump in the kettle, which is responsible for supplying water to the spout. It is considered to be the most advanced method of water supply as it requires no manual effort from the user, can work with any container, and allows for accurate measurement of the required volume. Some models even provide automatic dosing where the electric pump dispenses a strictly defined volume of liquid with just the touch of a button. However, these supply systems are more expensive and require a power supply, which can be a disadvantage for some users.

Hand pump. The mechanical pump with a manual drive is integrated into the lid of the thermopot and is operated by a large button. This type of pump is simple, inexpensive, and does not require electricity to function, which is beneficial in case of power outages. However, it is not very convenient since multiple presses are required to fill even a small cup, and it is difficult to accurately measure the amount of water dispensed. As a result, it is typically used in conjunction with more advanced systems rather than being the sole method of dispensing water.

Cup pressing. This method is also known as the "cup-activated dispensing system". It uses an electric pump, similar to the button systems described earlier, but the switch for the pump...is located near the spout and is activated by the cup's edge instead of by hand. This makes it easy to dispense water by simply bringing the cup to the spout and pressing the switch with the cup's edge. However, this method is not suitable for certain types of cups such as soft plastic or paper cups, and holding the cup while dispensing can be inconvenient as the hot water can burn one's hand through the walls of the cup. Therefore, this method is often combined with a traditional serving button to provide users with the most convenient option for their situation.

Material

The main material of the kettle.

Note that this paragraph primarily considers external material; the inner coating may differ from it. As for specific options, metal (usually steel), plastic and glass products are the most popular nowadays. More rare are glass with metal and ceramics (including porcelain). Here is a more detailed description of the different materials:

— Steel. Stainless steel is a popular material for kettles due to its strength, stylish appearance, and non-corrosive properties. It is available in a wide range of price categories. However, steel's high thermal conductivity may increase energy consumption and create a risk of burns. Steel is also opaque, so transparent inserts are necessary to monitor water levels. It is not suitable for teapots as it can give an extraneous aftertaste to the drink.

— Plastic. Plastic kettles are inexpensive and can be produced in various colors and transparency. They have low thermal conductivity, which reduces the risk of burns when touched. However, plastic is prone to scratches and can fade over time. Inexpensive plastic models may emit an unpleasant smell and taste when heated, but higher-priced models may use better quality plastic or have a metal lining to prevent this issue. Some high-end plastic materials are available b...ut cost more.

— Glass. Glass kettles have a visually appealing and transparent appearance, allowing you to easily monitor the water level without any special indicators. This is especially useful for teapots, as it enables the user to monitor the colour and saturation of the tea during the brewing process. Glass containers do not affect the taste or smell of the drink, which is highly beneficial for tea drinkers. Although glass is considered fragile, it is difficult to break such a container in reality. However, one of the downsides of glass containers is that any scale or contaminants inside the container are easily visible from the outside, requiring extra care to maintain their appearance. The thermal conductivity of glass is average, making it less prone to heat transfer than steel, but more so than many types of plastic. Therefore, touching a heated glass kettle should be avoided to prevent the risk of burns.
It should be noted that glass kettles often have parts made of materials other than glass. Usually, the top and bottom, as well as the handle, are made of plastic or a combination of plastic and metal. However, if these parts are mostly made of metal, the material is referred to as "glass with metal."

— Glass with metal. There are glass kettles that have metal top and bottom parts, with only a plastic insert in the lid for convenience purposes. These teapots are considered more advanced than the regular glass models that use plastic, as metal adds a sense of solidity and enhances durability. Also, since the contents of the kettle do not come into contact with plastic, the possibility of foreign tastes and odors is almost non-existent. However, such teapots are relatively expensive, although there are also affordable options available.

— Ceramics. Ceramics have a distinct advantage in terms of aesthetics as they offer a stylish appearance, making them an ideal choice for retro-style kettles or those with a classic design. Moreover, they are usually adorned with unique patterns and designs. Apart from their appearance, ceramic kettles do not affect the taste of the contents and provide excellent heat retention due to their thick walls. However, they are heavy and vulnerable to shocks, their opaque cases make it difficult to check water levels without opening the lid, and they lack water level indicators. Therefore, if appearance is a priority, ceramics can be an attractive option despite these drawbacks.

— Porcelain. Porcelain is a type of ceramic material that is highly valued for its prestigious appearance and is considered expensive. However, it is also fragile and requires delicate handling, which is why it is not commonly used in electric kettles.
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