IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0828713
(2004-04-21)
|
우선권정보 |
JP-2003-117576(2003-04-22); JP-2003-275330(2003-07-16) |
발명자
/ 주소 |
- Terashima,Tetsuo
- Suzuki,Motohiro
|
출원인 / 주소 |
- Matsushita Electric Industrial Co., Ltd.
|
대리인 / 주소 |
|
인용정보 |
피인용 횟수 :
9 인용 특허 :
3 |
초록
▼
It is not possible to store heat of a domestic hot water supply level at a high density. If thermal storage temperature is T, variation in enthalpy in a chemical reaction is ΔH, variation in entropy is ΔS, and variation in free energy is ΔG, a thermal storage material satisfying a rel
It is not possible to store heat of a domestic hot water supply level at a high density. If thermal storage temperature is T, variation in enthalpy in a chemical reaction is ΔH, variation in entropy is ΔS, and variation in free energy is ΔG, a thermal storage material satisfying a relationship of TΔS≧ ΔG is used under a condition of ΔH>0 so as to promote a reaction for putting the thermal storage material in a thermal storage reaction portion in an energy storing state by having supplemental energy added by an electrode portion when putting the thermal storage material in the energy storing state by decomposing or separating it.
대표청구항
▼
What is claimed is: 1. A thermal storage method wherein, where thermal storage temperature is T, variation in enthalpy in a chemical reaction is Δ H, variation in entropy is ΔS, and variation in free energy is ΔG, a thermal storage material satisfying a relationship of TΔ S
What is claimed is: 1. A thermal storage method wherein, where thermal storage temperature is T, variation in enthalpy in a chemical reaction is Δ H, variation in entropy is ΔS, and variation in free energy is ΔG, a thermal storage material satisfying a relationship of TΔ S≧ΔG is used under a condition or ΔH> 0 so as to promote a reaction that changes said thermal storage material into a thermal storage material in an energy storing state by adding supplemental energy when changing said thermal storage material into said thermal storage material in the energy storing state by decomposing or separating said thermal storage material; and wherein said supplemental energy is light, and the reaction that changes said thermal storage material into said thermal storage material in the energy storing state by adding the supplemental energy is a photocatalytic reaction. 2. The thermal storage method according to claim 1, wherein said thermal storage material and said thermal storage material in the energy storing state include a substance condensable or a substance storable by absorption and convertible to an ion-conducting substance. 3. The thermal storage method according to claim 2, wherein said ion-conducting substance is proton. 4. The thermal storage method according to claim 1, wherein said thermal storage material includes a substance for absorbing heat by a dehydrogenating reaction of O--H coupling and C--H coupling. 5. A thermal storage apparatus comprising: a heat source; a supplemental energy supply portion for adding said supplemental energy; a thermal storage reaction portion for changing said thermal storage material into said thermal storage material in the energy storing state by decomposing or separating said thermal storage material with heat from said heat source and said supplemental energy from said supplemental energy supply portion; an energy storing thermal storage material storage portion for storing said thermal storage material in the energy storing state; exothermic reaction portion for coupling said thermal storage material in the energy storing state; a heated fluid passage for receiving heat from said exothermic reaction portion; and a supplemental energy control portion for adjusting an amount of said supplemental energy correspondingly to change in temperature of said thermal storage reaction portion. 6. A thermal storage apparatus comprising: a heat source; a supplemental energy supply portion for adding said supplemental energy; a thermal storage reaction portion for changing said thermal storage material into said thermal storage material in the energy storing state by decomposing or separating said thermal storage material with heat from said heat source and said supplemental energy from said supplemental energy supply portion; an energy storing thermal storage material storage portion for storing said thermal storage material in the energy storing state; exothermic reaction portion for coupling said thermal storage material in the energy storing state; a heated fluid passage for receiving heat from said exothermic reaction portion; and wherein said supplemental energy is electricity; said thermal storage reaction portion has electrodes and an electrolyte; said supplemental energy supply portion adds a potential difference between said electrodes; and said thermal storage reaction portion promotes said decomposition or separation reaction with said added potential difference. 7. A thermal storage apparatus comprising: a heat source; a supplemental energy supply portion for adding said supplemental energy; a thermal storage reaction portion for changing said thermal storage material into said thermal storage material in the energy storing state by decomposing or separating said thermal storage material with heat from said heat source and said supplemental energy from said supplemental energy supply portion; an energy storing thermal storage material storage portion for storing said thermal storage material in the energy storing state; exothermic reaction portion for coupling said thermal storage material in the energy storing state; a heated fluid passage for receiving heat from said exothermic reaction portion; and wherein the supplemental energy is light; said thermal storage reaction portion has a light exposure surface; and said supplemental energy supply portion supplies the light to said light exposure surface so as to promote the decomposition or separation. 8. The thermal storage apparatus according to claim 5, claim 6, or claim 7, further comprising: a heating fluid passage, having a part of it placed in said thermal storage reaction portion, for heating said thermal storage reaction portion with a heating fluid circulating inside it; a thermal storage material storage portion for storing said thermal storage material, wherein said heat source is said heating fluid passage; and said heating fluid passage contacts with said thermal storage material storage portion more upstream side than said thermal storage reaction portion so as to heat said thermal storage material storage portion. 9. The thermal storage apparatus according to claim 5, claim 6, or claim 7, further comprising a heat exchanger between said energy storing thermal storage material storage portion and said thermal storage reaction portion or in said energy storing thermal storage material storage portion, wherein said heat source is said heat exchanger; and said heat exchanger recovers the heat of said thermal storage material in the energy storing state and heats said thermal storage material with said recovered heat. 10. The thermal storage apparatus according to claim 6, wherein said exothermic reaction portion has an electrode portion with a first electrode and a second electrode placed on both sides of the electrolyte and electric terminals connected to said first electrode and said second electrode, supplies at least one kind of said thermal storage material in the energy storing state to said first electrode and supplies other thermal storage material in the energy storing state to said second electrode, so that said thermal storage material in the energy storing state supplied to said first electrode is ionized and moves to said second electrode by way of said electrolyte to cause said electric terminals to generate electricity, and heated fluid of said heated fluid passage is heated by the heat generated on generating the thermal storage material on said second electrode. 11. The thermal storage apparatus according to claim 10, wherein said exothermic reaction portion doubles as said thermal storage reaction portion, and said apparatus comprises a switching means for switching said electric terminals so that said electric terminals are connected (1) to said supplemental energy supply portion when separating or decomposing said thermal storage material in said exothermic reaction portion and (2) to the electric terminals for taking out electricity when coupling said thermal storage material in the energy storing state in said exothermic reaction portion respectively. 12. The thermal storage apparatus according to claim 10, further comprising an electricity storage means, connected to said electric terminals, for storing electricity generated on said electric terminals, and said electricity storage means supplies the electricity to said thermal storage reaction portion via said supplemental energy supply portion so as to promote decomposition or separation of said thermal storage material. 13. The thermal storage apparatus according to claim 12, further comprising a thermal storage reaction portion heating means for heating said thermal storage reaction portion by having the electricity supplied from said electricity storage means on decomposing or separating said thermal storage material. 14. The thermal storage apparatus according to claim 10, further comprising an electric heat conversion means connected to said electric terminals and placed to thermally contact said heated fluid passage, and wherein said electric heat conversion means converts the electricity generated on generating coupling of said thermal storage material in the energy storing state into heat so as t heat said heated fluid passage. 15. The thermal storage apparatus according to claim 10, further comprising an electric heat conversion means connected to said electric terminals and placed to thermally contact said energy storing thermal storage material storage portion, and wherein said electric heat conversion means converts the electricity generated on generating coupling of said thermal storage material in the energy storing state into heat so as to heat said energy storing thermal storage material storage portion. 16. A heat source system, further comprising the thermal storage apparatus according to claim 14 or 15, wherein said electric heat conversion means is a heat pump; and said heat pump generates heat and cold from the electricity generated on generating coupling of said thermal storage material in the energy storing state, heats said heated fluid passage and/or said energy storing thermal storage material storage portion with said heat, and cools said energy storing thermal storage material storage portion with the cold.
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