Claims
- 1. A heat-accumulating material comprising a thermally stable, porous matrix having an outer surface containing open pores and having impregnated in said open pores of said porous matrix a thermosensitive active ingredient having reversible dehydration/hydration with a gaseous atmosphere thereby absorbing heat during dehydration or giving off heat during hydration, said porous matrix being in the form of granulated or powdery porous particles of 1 to 5,000 .mu.m in size of inorganic, polymer, carbon or metal materials having open pores of less than 100 nm in size, said active ingredient being a crystallohydrate having the ability of releasing chemically bound water during said dehydration or absorbing chemically bound water during said hydration, and the pores of said thermally stable matrix being open to the surrounding atmosphere at the outer surface of said matrix and enabling the active ingredient contained in and communicating with said pores and exposed to the gaseous atmosphere to exchange water vapor with the surrounding gaseous atmosphere during said dehydration/hydration.
- 2. A heat-accumulating material according to claim 1, wherein the pores of the thermally stable matrix being sufficiently small that the maximum crystalline size of the crystallohydrates which have been formed in said pores causes the temperature of chemical conversion of the crystallohydrate so as to lose or gain bound water of crystallization to be below the melting point of the crystallohydrate in one of its crystalline forms containing water of hydration.
- 3. A heat-accumulating material according to claim 2, in which the crystallohydrate is stable under multiple hydration/dehydration cycles.
- 4. A heat-accumulating material according to claim 3, in which the salt crystallohydrate is the salt of a strong acid and a strong base.
- 5. A heat-accumulating material according to claim 4, in which the salt crystallohydrate is calcium chloride containing water of crystallization.
- 6. A heat-accumulating material according to claim 5, in which the salt crystallohydrate is CaCl.sub.2 .multidot.6 H.sub.2 O.
- 7. A heat-accumulating material according to claim 2, wherein the salt crystallohydrates are less than 100 nm in size.
- 8. A heat-accumulating material according to claim 2, in which the pores of the thermally stable matrix are of a size of 10-50 nm.
- 9. A heat-accumulating material according to claim 8, in which the pores are about 10 nm in diameter.
- 10. A heat-accumulating material comprising a thermally stable, porous matrix having an outer surface containing open pores and having impregnated in said open pores of said porous matrix a thermosensitive active ingredient having reversible dehydration/hydration with a gaseous atmosphere thereby absorbing heat during dehydration or giving off heat during hydration, said active ingredient comprising calcium chloride having chemically bound water of crystallization, said thermally stable, porous matrix being in the form of granulated or powdery porous particles of 1 to 5,000 .mu.m in size of inorganic, polymer, carbon or metal materials having open pores of less than 100 nm in size.
- 11. A heat-accumulating material according to claim 10, in which the hydrated calcium chloride includes CaCl.sub.2 .multidot.6 H.sub.2 O.
- 12. A heat-accumulating material according to claim 10, in which the pores have sizes within the range of 10-50 nm.
- 13. A method of maintaining temperature control within a gaseous atmosphere in a confined space, said gas atmosphere being subject to temperature fluctuations, which comprises placing a heat accumulating material as defined in claim 1 in said atmosphere, said heat-accumulating material being chosen so that the temperature at which the reversible dehydration/hydration of the thermosensitive active ingredient takes place is proximate a desired temperature for said gaseous atmosphere.
- 14. A coated article subject to heating above a desired of temperature, said article having as a coating on a surface thereof of a heat-accumulating material according to claim 1.
- 15. A method for extinguishing a fire, which comprises introducing into the flames of the fire a heat-accumulating material according to claim 1 broken up into particles having a sufficient mass to penetrate the fire.
Parent Case Info
This is a continuation of U.S. Ser. No. 08/039,185, filed as PCT/SU91/00173 Aug. 26, 1991, which is now abandoned.
US Referenced Citations (5)
Foreign Referenced Citations (3)
Number |
Date |
Country |
3132793 |
Feb 1981 |
DEX |
3413169 |
Sep 1985 |
DEX |
1584559 |
Jul 1982 |
GBX |
Continuations (1)
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Number |
Date |
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Parent |
39185 |
Apr 1993 |
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