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Comparison Fire-Maple Polaris vs Fire-Maple Star X2

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Fire-Maple Polaris
Fire-Maple Star X2
Fire-Maple PolarisFire-Maple Star X2
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Main
Equipped with a reducer (compensates for the reduced pressure in the cylinder with gas residues).
Container for cooking and storage. Wind protection. Stand for gas bottle.
Typecamping stovecamping stove
Fuelgasgas
Balloon mountthreadedthreaded
Specs
Power2500 W2200 W
Fuel consumption158 g/h
Continuous operation time
270 min /when using an FMS-G5 cylinder/
Boiling time for 1 L of water185 с
Power regulator
Piezo ignition
General
Cooking container
Wind protection
Replaceable balloonsFMS-G2 FMS-G3, FMS-G5
Case included
Materialsteel
Dimensions
82х49 mm /folded/
133x205 mm
Weight76 g600 g
Added to E-Catalogaugust 2021july 2016

Power

The rated power of the burner is the amount of heat generated by it during operation. For models with power control, the value is indicated at the maximum mode.

The nuances of choosing this parameter depend on the type of device. So, the general rule for burners and stoves (see "Type") states that at least 1 kW of power is needed to efficiently heat 1 liter of liquid. And the volumes that you have to deal with depend on the number of tourists and the expected conditions: in a warm climate, 600-700 mL per person is enough for 1 cooking, in a cool one — 1 liter, and it is better to clarify recommendations for different types of extreme tourism in special sources. Thus, the minimum indicator for burners is actually 1 kW, for stoves — 1.5 kW, and the most powerful ones can provide 3 kW or more. Note that more powerful burner models have the appropriate dimensions and weight, and you can heat a large amount of food several times; so for long hikes with luggage carried on you, a relatively low-powered device may be more suitable.

In the case of heaters, it can be assumed that a power of 1 – 1.5 kW is enough for 5 – 7 m2 of area — this is quite enough to heat a tent or tent, higher power is rarely required in fact. And for lamps, the main indicator of efficiency is not power, but luminous flux (see below).

Fuel consumption

The amount of fuel required for the normal operation of the burner for a certain time; usually stated in grams per hour. Different manufacturers may calculate fuel consumption differently, but most often it is indicated for normal operation, when the burner produces the power indicated in the documentation (see "Power"). Knowing the fuel consumption and the capacity of the cylinder used (see "Replaceable cylinders") or the built-in tank (see "Filling volume"), you can easily calculate the time of continuous operation of the burner.

Continuous operation time

The time that the burner is able to work without changing the cylinder or refilling the tank. Usually, the characteristics indicate the operating time at maximum power (see above); at lower power, the actual operating time may be longer than stated. However, it is best to evaluate and compare different models by directly claimed battery life.

Another important nuance is that battery life directly depends on the volume of the fuel tank — and many modern burners are designed for interchangeable cylinders produced in different volumes. Therefore, the characteristics may indicate for which cylinder model the continuous operation time is given (and for multi -fuel models, the type of fuel should also be specified). If there are no such data, the tank capacity required for a certain time can be calculated from fuel consumption: for example, gas consumption of 180 g / h and battery life of 120 min (2 h) mean that the data are given for a cylinder of at least 360 g (400 mL) gas. With other volumes, the time of continuous operation will differ accordingly.

Boiling time for 1 L of water

Approximate time required to boil 1 liter of cold water on the burner. Of course, in fact, the boiling time may differ from the claimed one, since it is affected by the shape and material of the dishes, ambient temperature, etc.; however, this parameter quite clearly characterizes the overall efficiency of the device, it is quite possible to compare different models with each other. At the same time, it should be taken into account that when working with other volumes, the time may not change in direct proportion: for example, if 1 liter requires 300 s, then 2 liters may require not 600 s, but more, but 0.5 L — not 150 s, but less.

Piezo ignition

Built-in flame ignition system based on a piezoelectric element. Such an element does not require batteries: it generates electricity by pressing the ignition button, and ignition is carried out using an electric spark. This function allows you to do without matches, lighters and other external sources of fire; however, if desired, the flame can be ignited with their help, without the use of piezo ignition.

Cooking container

The presence of its own container for cooking in the delivery set of the burner.

Such a complete set not only eliminates the need to purchase utensils for cooking separately, but also provides other advantages. So, "native" dishes can have a mount for secure fixation on the burner and a heat exchanger to improve the heating efficiency; and in some models, the complete container is also used as a container for transporting the burner and cylinder. The disadvantage of this option is that the burners in this configuration are most often poorly suited for use with third-party cookware, and the standard capacity does not always meet the user's requirements.

Wind protection

The burner has a special curtaincovering the flame from the sides. Such a curtain can have a different design: it can be built-in (folding), removable, and can even be made in the form of a screen completely separate from the burner, installed directly on the ground. Anyway, the main purpose of this device is to protect the flame from strong winds. In addition, the curtain can be useful for camouflage — for example, when hunting or during a military-tactical game, when the light from the flame can give the user away.

Replaceable balloons

Models of cylinders for the use of which the burner is structurally designed. Usually, the cylinders specified in the specifications are guaranteed to be compatible with the burner in the standard configuration — up to the point that for models equipped with adapters for different types of fasteners (for example, from thread to collet, see "Cylinder Mount"), this paragraph often indicates both regular and "non-native" cylinders.

Knowing the names of the cylinders, you can easily find fuel for the burner in specialized stores.

Material

Titan. Durable, wear-resistant and light weight material, characterized by high resistance to corrosion and resistance to high temperatures. Burners in a titanium alloy body make ammunition as light as possible in comparison with models made of other metals, which is extremely important when hiking.

— Steel. The stainless steel body guarantees a long service life of the burner due to its high resistance to corrosion. Steel also tolerates high temperatures well.
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