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BEAUTIFUL DESIGN FEATURES
The beautiful cast-iron panels of an Aga stove are individually moulded in a hand-finished 'cast'. This means we can create the gentle curves and exquisite design details which are the hallmark of a high quality stove. Aga stoves are available with a cast matt finish or a high-quality vitreous enamel surface.
EXCELLENT HEAT RETENTION
Cast iron is renowned for its heat retention properties, which is why we use it in our world-famous Aga cookers. The heat stored while the stove is lit continues to be released into the room, long after the embers have died away
OUTSTANDING BUILD QUALITY
As you would expect from any product made by Aga, our stoves are manufactured to the highest possible standards. They carry the CE mark, which means they comply with the essential requirements of the relevant European health, safety end environmental protection legislation. Aga stoves also have a five-year parts and one-year labour warranty.
Clean burn technology
Aga stoves incorporate the latest clean-burn technology to deliver the most efficient use of energy and to protect the environment from harmful fumes.
Fresh air is carefully channelled below, around and above the fire box, to create the optimum conditions for combustion. Any solid particles and volatile gasses produced from the fire  are re-ignited and burnt off, before they can enter the atmosphere.
This process not only guarantees that you achieve the maximum heat output from your chosen fuel, but also helps to keep the window clean and clear, so you can enjoy the flame picture to the full.
Often it is those things which you don't see that make all the difference.
The interior construction of every Aga stove is individually designed and precisely engineered, with hidden baffles, ducts and channels, so air enters, circulates and leaves the stove in the most efficient way. This is essential if you are to achieve the maximum heat output. Efficient fuel combustion is also the key to economy and low emissions.
In the Little and Much Wenlock, the firebox is carefully shaped to recirculate the air until combustion is complete. In the Berrington, when the cold air enters the stove it is separated. The majority of the air is used to fuel the fire and create the primary combustion. However, a smaller amount of air is channelled around the back of the stove, where it is warmed, before circulating over the flames and creating a secondary combustion, which increases the heat output and burns off any impurities in the smoke.
With solid-fuel and wood-burning models, a secondary supply of cold air enters the stove above the window. Being heavier than the warm air inside, it flows down the face of the window, keeping the glass clean and leaving a clear view of the flame picture.
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