ADR for Middle School Science fair project (Magnetic Refrigeration)

In summary, the conversation discusses the feasibility of using magnetism to cool Gadolinium as a demonstration of magnetic refrigeration for a middle school science fair project. It is concluded that while there have been successful college and university projects, it may not be practical for a small-scale project due to the requirements for generating the necessary magnetic field. Additionally, new developments in room temperature magnetic refrigeration have been made, but the article referenced is several years old.
  • #1
fellersmtc
1
0
Hi,

I'm curious about doing a middle school science fair project showing how magnetism can be used to cool Gadolinium and thus demonstrate the basis of magnetic refrigeration (ADR). From what I've read it looks like the requirements for generating the required magnetic field would make such a project impractical for a middle-school science fair project.

Is there a way to still demonstrate the ADR process, using a very small amount of magnetism (<< 1 Tesla)?

Thanks
 
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  • #2
I've searched and have no joy finding a small, demonstrative project for your middle-school project. However, there have been many colleges/universities that have made working models. For example, see this article:

Recent Developments in Room Temperature Active Magnetic Regenerative Refrigeration
AUTHOR(S)
Engelbrecht, Kurt L.; Klein, Sanford A.; Nellis, Greg F.; Zimm, Carl B.
PUB. DATE
July 2007
SOURCE
HVAC&R Research;Jul2007, Vol. 13 Issue 4, p525
SOURCE TYPE
Academic Journal
DOC. TYPE
Article
ABSTRACT
Active magnetic regenerative refrigeration (AMRR) systems represent an environmentally attractive alternative to vapor compression systems that do not use a fluorocarbon working fluid. The AMRR concept has previously been demonstrated using superconducting solenoid magnets that are not practical for small-scale commercial applications. However, recent AMRR prototypes that use more practical permanent magnets have proved that AMRR systems can produce cooling over a useful temperature range with a relatively low magnetic field. In addition, families of materials with large magnetocaloric effects and adjustable Curie temperatures have been developed; these materials may be used to construct layered regenerator beds that may have lower cost and provide higher performance than current materials. This paper reviews recent developments in the field of room temperature magnetic refrigeration and discusses some design issues that may affect practical systems.

http://connection.ebscohost.com/c/a...re-active-magnetic-regenerative-refrigeration

And that article is around seven years old...hardly "recent" now.

Bobbywhy
 

Related to ADR for Middle School Science fair project (Magnetic Refrigeration)

1. What is ADR for Middle School Science fair project (Magnetic Refrigeration)?

ADR stands for Adiabatic Demagnetization Refrigeration, a cooling technique that uses the principle of magnetism to achieve low temperatures.

2. How does Magnetic Refrigeration work?

Magnetic Refrigeration works by using a magnetic field to align the magnetic dipoles in a material, causing it to heat up. When the magnetic field is removed, the material cools down due to the decrease in energy from the aligned dipoles.

3. What materials are needed for a Magnetic Refrigeration experiment?

To conduct a Magnetic Refrigeration experiment, you will need a magnetic material, such as a paramagnetic salt or a ferromagnetic metal, a strong magnet, and an insulating material to keep the temperature stable.

4. What are some advantages of using Magnetic Refrigeration?

Magnetic Refrigeration has several advantages over traditional refrigeration methods, including being more energy-efficient, environmentally friendly, and having the potential for smaller and more compact cooling systems.

5. Can Magnetic Refrigeration be used in real-life applications?

While Magnetic Refrigeration is a relatively new technology, it is currently being researched and developed for use in various applications, such as in refrigerators, air conditioning systems, and even in space exploration for cooling sensitive equipment.

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