The Chocolate Life

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Hello all,

My name is Andrew and I am in the process of opening my first chocolate shop in Houston. My business will be creating 3.5oz 6x3.5" chocolate bars with a Selmi One tempering machine, and I had a few questions:

  1. What is the fastest way to cool one chocolate bar? By cool I mean solid and ready to eat.
  2. What is the fastest and easiest system to use, requiring the least amount of skills and experience?
     In other words, other options besides liquid nitrogen.
  3. I have looked into Irinox blast chillers and was wondering if anyone had any experience or comments on the efficiency and effectiveness of the system?
  4. Also, I have read earlier posts about a Holding Cabinet, and was wondering if this is needed?

Thank you,


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Replies to This Discussion

Thanks Clay. This is very similar to my existing cooling cabinet, but I just use a window A/C unit to cool and a double fan to better circulate the air. It works pretty well, but as you mention in the document, the A/C cycles on and off, so the temperature changes several degrees.

I like the idea of using the plenum with registers to better control the direction of air flow. 

Right -

The cooling cycles on and off which does cause fluctuations in temperature that may or may not be meaningful.

More to my liking is that the TrippLite unit filters and dehumidifies the air -- before blowing it on sensitive electronic equipment while evaporating any collected humidity into the exhaust air stream.

Yeah, it's a little more expensive than a home A/C unit but I think the overall benefits are worth the price difference. And, as I mentioned, this should reduce the load on whatever A/C system is being used for the rest of the production space.

I would be very interested in seeing pictures of this.

I saw this on the DIY tab & then searched for it. This is a Wonderful idea. Thank you for sharing Clay. I think I can picture this in my mind, but want to confirm.

Is the layout of the shelving is staggered like a water jacketed table so the air flow comes in at the top and flows to the right across the top row, then down to the second row moving to the left, down to the third row, and so forth.

I've drawn a picture of what I can see in my head. Is this close? The picture I drew has solid shelves and wire shelves. Solid shelves to direct the air flow and wire shelves to allow the bottom of the molds to cool.

A cheap source of NSF approved shelving may be sheet pans. Two half sheet pans end to end would allow for a pretty decent airflow-directing shelf. Plus it would be easy to get some matching wire cooling racks to use as ventilated shelving. A couple of vertical supports and the shelving should be in good shape. 

Here is a link to a water jacketed cooling table showing the water flow on page 2. 


Is the drawing similar to what you've designed Clay?

Thanks again


Based on the description Clay posted to google docs, my understanding is that the airflow is all one-directional. It goes from the air cooler to the plenum, over and under the molds, and then out the other side.

So, Clay's design does not go back and forth as shown in your picture. I can't think of a reason that shouldn't work too, though. 

Larry -

Ben is right in his reply - my design is not serpentine like you've drawn. The flow of air is across each shelf and then exits. There is a plenum that acts as a manifold for distributing the air across the shelves. By using existing NSF-rated shelving (metro-style), actual construction is about enclosing the shelving and making the plenum which serves as a manifold for distributing the air.

I don't see any particular reason why your design won't work but there may be more of a challenge ensuring that the air flow will be the same above and below the wire shelves on which the molds will rest. You want to remove heat evenly from the top and the bottom of the molds.

Off the top of my head I think your design will require more construction to make it work and to make it rigid. One thing to consider is that you are going to need to match the capacity of the outflow fan with the capacity of the cooling fan. They want to be the same CFM. If the output fan is not drawing as much air as the push fan you'll create a pressure build up in the cabinet that will negatively affect performance.

Does anyone have a photo of this to post? 


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