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Just taking it all in, folks.
One of my other side hobbies is to bang some hot metal now and again. There are many similarities between your WFO designs and the design of a good forge.
I began to think of cross-over ideas, and wondered whether ideas that help out in the blacksmith forge world would work in this world, too.
"Oven" temperatures are much higher in blacksmithing, so they're obviously worried about the same kinds of things that you guys are. Efficiency, thermal mass, etc.
I'd like you guys to consider these ideas from the WFO side and give me your opinions. Here are two.
#1 Use a blower
Although we often think of fuel for a blacksmith being coal, the reality is that charcoal worked perfectly fine for thousands of years. Coal is relatively recent. You can use charcoal to get iron out of ore (at 2600F) or just heating up iron enough to be worked (1600F) quite easily.
Since the main part of WFO cooking is loading whatever thermal mass you have, why not use a blower to make the fire hotter sooner?
I realize that the heat will still take some time to saturate all of the firebrick, but why not have a fire that's several hundred degrees hotter doing the job?
You can shut it off anytime you want, and for pizzas, I assume most will still want a fire inside during cooking.
#2 ITC-100 coating
There are several types of forges in use today, but all of them benefit from maximizing the reflective heat inside the chamber. For the most part, blacksmiths don't care about having thermal mass, as an excess simply requires more heat/fire/fuel to bring the forge up to working temperature.
In a modern propane fueled forge, for instance, you'd really like to cut the thermal mass down to as little as possible. Think of it as a WFO without the firebrick. Mostly ceramic wool insulation inside a steel shell.
Losses through radiation are extreme at these temperatures, so they apply a coating to the wool to both protect it somewhat, and significantly increase the reflectivity of the surface. A product called ITC-100 is one of the popular thermal ceramic coatings used.
I don't know how it would react with dough, but what about coating the dome to increase reflectivity?
Just some thoughts. Loving the site.
One of my other side hobbies is to bang some hot metal now and again. There are many similarities between your WFO designs and the design of a good forge.
I began to think of cross-over ideas, and wondered whether ideas that help out in the blacksmith forge world would work in this world, too.
"Oven" temperatures are much higher in blacksmithing, so they're obviously worried about the same kinds of things that you guys are. Efficiency, thermal mass, etc.
I'd like you guys to consider these ideas from the WFO side and give me your opinions. Here are two.
#1 Use a blower
Although we often think of fuel for a blacksmith being coal, the reality is that charcoal worked perfectly fine for thousands of years. Coal is relatively recent. You can use charcoal to get iron out of ore (at 2600F) or just heating up iron enough to be worked (1600F) quite easily.
Since the main part of WFO cooking is loading whatever thermal mass you have, why not use a blower to make the fire hotter sooner?
I realize that the heat will still take some time to saturate all of the firebrick, but why not have a fire that's several hundred degrees hotter doing the job?
You can shut it off anytime you want, and for pizzas, I assume most will still want a fire inside during cooking.
#2 ITC-100 coating
There are several types of forges in use today, but all of them benefit from maximizing the reflective heat inside the chamber. For the most part, blacksmiths don't care about having thermal mass, as an excess simply requires more heat/fire/fuel to bring the forge up to working temperature.
In a modern propane fueled forge, for instance, you'd really like to cut the thermal mass down to as little as possible. Think of it as a WFO without the firebrick. Mostly ceramic wool insulation inside a steel shell.
Losses through radiation are extreme at these temperatures, so they apply a coating to the wool to both protect it somewhat, and significantly increase the reflectivity of the surface. A product called ITC-100 is one of the popular thermal ceramic coatings used.
I don't know how it would react with dough, but what about coating the dome to increase reflectivity?
Just some thoughts. Loving the site.
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