WHAT’S THE DEAL WITH INFRARED Honeycomb Ceramic BURNERS?

WHAT’S THE DEAL WITH INFRARED Honeycomb Ceramic BURNERS?

WHAT’S THE DEAL WITH INFRARED Honeycomb Ceramic BURNERS?

Infrared honeycomb ceramic burners are found in a wide range of commercial restaurant equipment, including grillers, broilers and fryers. These types of burners are most commonly used to sear, brown, and caramelize food products. Any chef or serious cook knows that the best way to prepare a juicy, succulent steak is to sear the outside as quickly as possible to keep the juices and moisture locked inside.To get more news about Infrared Honeycomb Ceramic Plate, you can visit senpinghz.com official website.

Infrared honeycomb ceramic burners are mostly recognized for their ability to bring on the Maillard reaction (the reaction of sugars with amino acids during the cooking process that turns meat brown and gives it flavor and aroma, i.e. “the flavor reaction”). Some units are able to reach sustained temperatures of beyond 2,100⁰ F and can heat up to 600⁰ F in less than 4 minutes. That’s hot enough to melt some metals, and definitely hot enough to put a little brown on a pork roast.

But most probably already know that infrared burners can get extremely hot, extremely quick. So, what else do they do that separates them from other types of burners? That’s a burning question, indeed.
Cooking results with infrared technology differ from those produced by an open gas burner or an electric heating element, mainly because they produce more radiant heat – the same type of heat energy that the sun produces. Rather than transferring heat through the air (convective heat transfer) or across a solid conductive object (conductive heat transfer), heat energy is transferred through heat waves onto the food product. This type of heat transfer is ideal for preparing a perfectly cooked steak.

Ever wondered why some people may leave the door of an oven slightly cracked when using the broiler portion? Many, like me, assume that this is done as a reminder to not burn whatever is under the broiler. Contrary to this belief though, the main reason the oven door is kept ajar is to maximize radiant heat energy by minimizing convective heat energy transfer. With the door kept open, hot air is allowed to escape and therefore does not circulate throughout the oven cavity as it normally would if the oven door was closed. This allows for whatever is being cooked to receive more radiant heat rather than convective heat.


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