Pouillet effect

In physics and chemical engineering, the term Pouillet effect refers to an exothermic reaction that takes place when a liquid is added to a powder. Strictly speaking, the heat generated is caused by adhesion of the liquid to the surface of the particles rather than by a chemical reaction.[1] It was first observed in 1802 by physicist John Leslie, who noted that heat was evolved when dry sawdust was wetted with water.[2] Claude Pouillet later described this phenomenon in 1822, and it subsequently became known as the Pouillet effect in France, and then elsewhere.[3][4]

Negative Pouillet effect

Under certain conditions, a negative Pouillet effect is possible, i.e., heat can be absorbed instead of being released. G. Schwalbe showed that in the case of water below 4 degrees Celsius, the temperature of the system decreases.[5] Joseph Mellor argued that this is due to the negative thermal expansion coefficient of water between 0 and 4 degrees Celsius,[6] with the temperature change Δ T {\displaystyle \Delta T} given by

Δ T = α T C p D Δ P {\displaystyle \Delta T={{\alpha T} \over {C_{p}D}}\Delta P}

where α {\displaystyle \alpha } is the thermal expansion coefficient, C P {\displaystyle C_{P}} is the specific heat, D {\displaystyle D} is the specific gravity, and Δ P {\displaystyle \Delta P} is the applied pressure due to the addition of the liquid. According to this formula, any liquid with a negative thermal expansion coefficient would be expected to exhibit a drop in temperature.

References

  1. ^ Taggart, Arthur F.; Beach, Frederick E. (November 1, 1916). "An Explanation of the Flotation Process". Metallurgical and Chemical Engineering. 15 (9): 518–523. Retrieved 19 February 2022.
  2. ^ Leslie, John (1802). "On capillary action". Philosophical Magazine. 1st series. 14 (55): 193–205. doi:10.1080/14786440208676183. From p. 201: Upon wetting paper or linen with water or oil, and " … applying a delicate thermometer, I perceived a very sensible extrication of heat invariably to take place during such combinations. And this effect was the greater in proportion to the previous dryness of the solid. Thus I have sometimes produced a heat of ten degrees by moistening saw-dust which had been parched before the fire."
  3. ^ Pouillet (1822). "Mémoire sur de nouveaux phénomènes de production de chaleur" [Memoir on new phenomena of heat production]. Annales de Chimie et de Physique. 2nd series (in French). 20: 141–162. From p. 142: "À l'instant où un liquide mouille un solide, il y a dégagement de chaleur." (At the instant when a liquid wets a solid, there is a release of heat.)
  4. ^ 'Adsorption by powders & porous solids: principles, methodology and applications' Academic Press, 1999.
  5. ^ Schwalbe, G. (1905). "Über die beim Benetzen pulverförmiger Körper, insbesondere von Sand, mit Wasser auftretende Wärmetönung, sowie Untersuchungen über das Verhalten von Wasser unter 4° bei diesem Vorgange". Annalen der Physik. 321 (1): 32–45. Bibcode:1905AnP...321...32S. doi:10.1002/andp.19053210105. Retrieved 19 February 2022.
  6. ^ Mellor, J.W. (1922). A Comprehensive Treatise on Inorganic and Theoretical Chemistry, Volume 1. London: Longmans, Green and Co. pp. 495–496. Retrieved 19 February 2022.