Machine Design

Tiny Particles Bring on a Big Chill

Researchers at the National Institute of Science and Technology recently discovered that adding a dash of the right nanoparticle to a refrigerant can boost its heat-transfer capabilities. For example, putting copper oxide particles, each about 30 nm in diameter, into a common polyester lubricant, then combining it with R134a refrigerant improved heat transfer by 50 to 275%. Though the phenomenon is not completely understood, scientists speculate that nanoparticle of materials with high thermal conductivities improve heat-transfer rates for some systems. NIST experiments do show that when in sufficient concentrations, nanoparticles enhance heat transfer by encouraging more vigorous boiling. The small particles seem to stimulate double bubbles — secondary bubbles forming atop bubbles initiated at the boiling site. Bubbles carry heat away from the surface. And because they form more readily due to the nanoparticles, heat is being transferred more efficiently.

National Institute of Science and Technology

If the researchers are successful, more-efficient refrigerants could be used in current chillers and HVAC equipment resulting in immediate energy savings. (Chillers consume about 9% of the nation’s electricity.) And future chillers could be made smaller and lighter.

Hide comments


  • Allowed HTML tags: <em> <strong> <blockquote> <br> <p>

Plain text

  • No HTML tags allowed.
  • Web page addresses and e-mail addresses turn into links automatically.
  • Lines and paragraphs break automatically.