US1984369A - Heat carrier for high temperatures - Google Patents

Heat carrier for high temperatures Download PDF

Info

Publication number
US1984369A
US1984369A US672734A US67273433A US1984369A US 1984369 A US1984369 A US 1984369A US 672734 A US672734 A US 672734A US 67273433 A US67273433 A US 67273433A US 1984369 A US1984369 A US 1984369A
Authority
US
United States
Prior art keywords
chloride
zinc
heat carrier
high temperatures
melting point
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Expired - Lifetime
Application number
US672734A
Inventor
Gensch Karl
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
DRUCKTRANSFORMATOREN KOENEMANN
GESELLSCHAFT fur DRUCKTRANSFORMATOREN (KOENEMANN-TRANSFORMATOREN) GmbH
Original Assignee
DRUCKTRANSFORMATOREN KOENEMANN
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by DRUCKTRANSFORMATOREN KOENEMANN filed Critical DRUCKTRANSFORMATOREN KOENEMANN
Application granted granted Critical
Publication of US1984369A publication Critical patent/US1984369A/en
Anticipated expiration legal-status Critical
Expired - Lifetime legal-status Critical Current

Links

Classifications

    • CCHEMISTRY; METALLURGY
    • C09DYES; PAINTS; POLISHES; NATURAL RESINS; ADHESIVES; COMPOSITIONS NOT OTHERWISE PROVIDED FOR; APPLICATIONS OF MATERIALS NOT OTHERWISE PROVIDED FOR
    • C09KMATERIALS FOR MISCELLANEOUS APPLICATIONS, NOT PROVIDED FOR ELSEWHERE
    • C09K5/00Heat-transfer, heat-exchange or heat-storage materials, e.g. refrigerants; Materials for the production of heat or cold by chemical reactions other than by combustion
    • C09K5/08Materials not undergoing a change of physical state when used
    • C09K5/10Liquid materials
    • C09K5/12Molten materials, i.e. materials solid at room temperature, e.g. metals or salts

Definitions

  • the invention relates to a heat carrier for high temperatures for indirectly heated plants. While I prefer the illustrative salt melt embodiments disclosed herein, which are particularly desirable because of their cheapness and efiectiveness, my invention contemplates, and my preferred embodiments are illustrative of, such like substances as will be suggested to the skilled chemist by my present specification.
  • a salt melt consisting of zinc chloride and several other metal chlorides which form double salts with zinc chloride, was found to suit very well the aforesaid purpose.
  • melt which contains approximately zinc chloride, 10% sodium chloride, and 15% potassium chloride.
  • This melt has all properties which are required from such a heat carrier, e. g. low melting point, high boiling point, good heat transfer, low viscosity, high specific heat, low specific weight; and last but not least it is very cheap. Besides it does not attack iron, is not combustible, not explosive, and does not form any explosive mixtures with other substances.
  • the composition being as stated above, the melting point ranges approximately at 180 centigrade. If the melting point is desired to be lower, it can be reduced to approximately 140 centigrade by adding other salts such as lithium chloride and ferric chloride. Compared to other heat carriers known so far, the above heat carrier offers the following advantages.
  • the high coefficient of expansion and the good conduction of heat of the metals in the solid state are of disadvantage.
  • the solid metals When the solid metals are heated they expand very much before getting liquid; consequently, the apparatuses are stressed to such an extent that they are liable to burst.
  • the high specific weight of the metals has the disadvantage that if a high apparatus is used the lower parts of it are subjected to a considerably high hydrostatic pressure.
  • the above heat carrier has the special advantage that it is very cheap. Zinc chloride, sodium chloride, and potassium chloride are by-products of very low price. Further the above heat carrier has such a low melting point that it can be melted by heating it by steam of customary pressure, e. g. 15 atmospheres. Besides it contains neither water nor oxygen; therefore it does not attack iron 20 even at high temperatures and cannot form any explosive mixtures with other substances, e. g. with coal, as is the case with nitrate melts.
  • the above heat carrier can be used especially in the chemical industry and in the oil industry, 25 in other words everywhere where heating at high temperatures is involved, and where the products,
  • An indirect heating system employing as the heat carrying medium a molten mixture of metal chlorides, predominantly consisting of chloride of zinc, and including substantial quantities of metal chlorides of the class consisting of alkali metal chlorides and chlorides having sim- "ilar effect in the molten mixture, the medium thus constituted having a melting point substantially below that of chloride of zinc.
  • An indirect heating system employing as the heat carrying medium a molten mixture of chloa ride of zinc and other metal chlorides forming with chloride of zinc double salts existing in the molten mixture, the medium thus constituted having a melting point substantially below that of chloride of zinc. 55
  • An indirect heating system employing as the heat carrying medium a molten mixture approximately '75% chloride of zinc, 15% chloride of potassium and 10% chloride of sodium.
  • An indirect heating system employing as the heat carrying medium a molten mixture of approximately '75% chloride of zinc, 12% chloride of potassium, 8% chloride of sodium, 5% chloride of lithium and 5% chloride of iron,
  • An indirect heating system employing as the heat carrying medium a molten mixture preponderantly chloride of zinc, and containing sufficient alkali metal chloride to impart to the mixture a melting point materi allynbglc w that of chloride of zinc.
  • ⁇ - 6:"An'indirectheating system employing as the heat carrying medium a molten mixture comprising preponderantly chloride of zinc, and containing sufficient metal halide of the class consisting of potassium-, sodium-, lithium-, and
  • iron-chloride to impart to the mixture a melting point materially below that of the preponderant metal halide.
  • An indirect heating system employing as the heat carrying medium a molten mixture comprising preponderantly chloride of zinc, which is a halide of a weak negative, acid forming metal, and sufiicient halides of the class consisting of NaCl, KCl and LiCl, which are halides of strong positive, base forming metals, to impart to the mixture a melting point materially below that of the preponderant metal halide.
  • An indirect heating system employing as the heat carrying medium a molten mixture comprising preponderantly chloride of zinc, which is a halide of a weak negative, acid forming metal, having incorporated therewith at least one of the halides of the class consisting of NaCl, KCl or LiCl, which are halides of strong positive base forming metals, characterized in that one or more of the incorporated latter halides forms with the preponderant halide a double salt existing in the molten state, and further characterized in that the quantity of these latter halides present is sufiicient to impart to the mixture a melting point materially below that of the preponderant metal halide.

Landscapes

  • Chemical & Material Sciences (AREA)
  • Engineering & Computer Science (AREA)
  • Physics & Mathematics (AREA)
  • Chemical Kinetics & Catalysis (AREA)
  • Combustion & Propulsion (AREA)
  • Thermal Sciences (AREA)
  • Materials Engineering (AREA)
  • Organic Chemistry (AREA)
  • Manufacture And Refinement Of Metals (AREA)

Description

Patented Dec. 18, 1934 HEAT CARRIER FOR HIGH TEMPERATURES Karl Gensch, Berlin, Germany, assignor to Gesellschaft fiir Drucktranslormatoren (Koenemann-Transformatoren) G. m. b. 11., Berlin, Germany, a corporation of Germany No Drawing. Application May 24, 1933, Serial No.
672,734. In Austria May 30, 1932 m.
8 Claims.
The invention relates to a heat carrier for high temperatures for indirectly heated plants. While I prefer the illustrative salt melt embodiments disclosed herein, which are particularly desirable because of their cheapness and efiectiveness, my invention contemplates, and my preferred embodiments are illustrative of, such like substances as will be suggested to the skilled chemist by my present specification. A salt melt consisting of zinc chloride and several other metal chlorides which form double salts with zinc chloride, was found to suit very well the aforesaid purpose.
Chiefiy a melt is used which contains approximately zinc chloride, 10% sodium chloride, and 15% potassium chloride. This melt has all properties which are required from such a heat carrier, e. g. low melting point, high boiling point, good heat transfer, low viscosity, high specific heat, low specific weight; and last but not least it is very cheap. Besides it does not attack iron, is not combustible, not explosive, and does not form any explosive mixtures with other substances. The composition being as stated above, the melting point ranges approximately at 180 centigrade. If the melting point is desired to be lower, it can be reduced to approximately 140 centigrade by adding other salts such as lithium chloride and ferric chloride. Compared to other heat carriers known so far, the above heat carrier offers the following advantages.
It is much cheaper than any metal melt. Metals with low melting point, such as mercury or bismuth alloys, cost approximately from ten to twenty Reichsmarks per kilogram. Their specific weight amounts approximately from 10 to 13. The chloride melt can be supplied at a price of one half Reichsmark per kilogram and has a specific weight of approximately 2. The metallic filling of an apparatus would cost approximately -260 times as much. Even if comparatively cheap metals, such as lead and zinc, are used, the filling'still would cost approximatly fouftimes as much. Now, the melting point of these metals ranges above 300 centigrade, and this 'fact renders operation conditions so difiicult that these metals can not be used. Also the high coefficient of expansion and the good conduction of heat of the metals in the solid state are of disadvantage. When the solid metals are heated they expand very much before getting liquid; consequently, the apparatuses are stressed to such an extent that they are liable to burst. Furthermore, the high specific weight of the metals has the disadvantage that if a high apparatus is used the lower parts of it are subjected to a considerably high hydrostatic pressure. Finally, several metal melts, e. g. molten zinc, attack iron very much.
Oils having high boiling points, and other organic liquids, e. g. diphenyl oxide, can not be 5 used at temperatures over 400 centigrade. Up to the present no organic liquids are known which are stable above this temperature. They decompose, incrust the heating surface, especially in the highly loaded tubes, and then these tubes 10 burn through.
Compared to other salt melts, the above heat carrier has the special advantage that it is very cheap. Zinc chloride, sodium chloride, and potassium chloride are by-products of very low price. Further the above heat carrier has such a low melting point that it can be melted by heating it by steam of customary pressure, e. g. 15 atmospheres. Besides it contains neither water nor oxygen; therefore it does not attack iron 20 even at high temperatures and cannot form any explosive mixtures with other substances, e. g. with coal, as is the case with nitrate melts.
The above heat carrier can be used especially in the chemical industry and in the oil industry, 25 in other words everywhere where heating at high temperatures is involved, and where the products,
e. g. oil or other substances very sensitive to high temperatures, have to be treated as gently as possible. 30
In the field of generation of high pressure steam, indirect heating by means of the above heat carrier offers great advantages. Under" these conditions, the feed water treatment is not such an important factor because scale incrustations can only result in reducing the heat transfer, in other words in a decrease of efliciency; but never can they result in boiler explosions.
I claim:
1. An indirect heating system employing as the heat carrying medium a molten mixture of metal chlorides, predominantly consisting of chloride of zinc, and including substantial quantities of metal chlorides of the class consisting of alkali metal chlorides and chlorides having sim- "ilar effect in the molten mixture, the medium thus constituted having a melting point substantially below that of chloride of zinc.
2. An indirect heating system employing as the heat carrying medium a molten mixture of chloa ride of zinc and other metal chlorides forming with chloride of zinc double salts existing in the molten mixture, the medium thus constituted having a melting point substantially below that of chloride of zinc. 55
3. An indirect heating system employing as the heat carrying medium a molten mixture approximately '75% chloride of zinc, 15% chloride of potassium and 10% chloride of sodium.
5 4. An indirect heating system employing as the heat carrying medium a molten mixture of approximately '75% chloride of zinc, 12% chloride of potassium, 8% chloride of sodium, 5% chloride of lithium and 5% chloride of iron,
5. An indirect heating system employing as the heat carrying medium a molten mixture preponderantly chloride of zinc, and containing sufficient alkali metal chloride to impart to the mixture a melting point materi allynbglc w that of chloride of zinc. F m
\- 6:"An'indirectheating system employing as the heat carrying medium a molten mixture comprising preponderantly chloride of zinc, and containing sufficient metal halide of the class consisting of potassium-, sodium-, lithium-, and
iron-chloride to impart to the mixture a melting point materially below that of the preponderant metal halide.
'7. An indirect heating system employing as the heat carrying medium a molten mixture comprising preponderantly chloride of zinc, which is a halide of a weak negative, acid forming metal, and sufiicient halides of the class consisting of NaCl, KCl and LiCl, which are halides of strong positive, base forming metals, to impart to the mixture a melting point materially below that of the preponderant metal halide.
8. An indirect heating system employing as the heat carrying medium a molten mixture comprising preponderantly chloride of zinc, which is a halide of a weak negative, acid forming metal, having incorporated therewith at least one of the halides of the class consisting of NaCl, KCl or LiCl, which are halides of strong positive base forming metals, characterized in that one or more of the incorporated latter halides forms with the preponderant halide a double salt existing in the molten state, and further characterized in that the quantity of these latter halides present is sufiicient to impart to the mixture a melting point materially below that of the preponderant metal halide.
KARL GEN'SCH.
US672734A 1932-05-30 1933-05-24 Heat carrier for high temperatures Expired - Lifetime US1984369A (en)

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
AT1984369X 1932-05-30

Publications (1)

Publication Number Publication Date
US1984369A true US1984369A (en) 1934-12-18

Family

ID=3689530

Family Applications (1)

Application Number Title Priority Date Filing Date
US672734A Expired - Lifetime US1984369A (en) 1932-05-30 1933-05-24 Heat carrier for high temperatures

Country Status (1)

Country Link
US (1) US1984369A (en)

Cited By (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2448255A (en) * 1943-12-07 1948-08-31 Shell Dev Catalysts for use in the production of chlorine
US2537830A (en) * 1944-09-14 1951-01-09 Artemas F Holden Self-agitating metallurgical salt bath
US2692234A (en) * 1949-11-05 1954-10-19 Koppers Co Inc Heat transfer media
US4119556A (en) * 1977-06-01 1978-10-10 Chubb Talbot A Thermal energy storage material comprising mixtures of sodium, potassium and magnesium chlorides
US20140084205A1 (en) * 2012-09-26 2014-03-27 Dileep Singh Nanoparticles for heat transfer and thermal energy storage

Cited By (6)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2448255A (en) * 1943-12-07 1948-08-31 Shell Dev Catalysts for use in the production of chlorine
US2537830A (en) * 1944-09-14 1951-01-09 Artemas F Holden Self-agitating metallurgical salt bath
US2692234A (en) * 1949-11-05 1954-10-19 Koppers Co Inc Heat transfer media
US4119556A (en) * 1977-06-01 1978-10-10 Chubb Talbot A Thermal energy storage material comprising mixtures of sodium, potassium and magnesium chlorides
US20140084205A1 (en) * 2012-09-26 2014-03-27 Dileep Singh Nanoparticles for heat transfer and thermal energy storage
US9080089B2 (en) * 2012-09-26 2015-07-14 Uchicago Argonne, Llc Nanoparticles for heat transfer and thermal energy storage

Similar Documents

Publication Publication Date Title
US3400249A (en) Heating system
US1984369A (en) Heat carrier for high temperatures
US1097145A (en) Fire-extinguishing compound.
US2649368A (en) Indium-bismuth-tin alloy
GB452656A (en) Process for the manufacture of organic compounds containing fluorine
US2148664A (en) Heat treatment of metals
US1882809A (en) Composition of matter
US3195304A (en) Process for producing power
US2034292A (en) Production of carbon chlorides
US2680071A (en) Low-melting alloy
US2158854A (en) Salt mixture for use as a thermophore
US2625559A (en) Preparation of methyl tin chlorides
US1891673A (en) Fire extinguishing compound
US2452914A (en) Process and composition for producing magnesium-zirconium alloys
US1966881A (en) Industrial liquid
US2066454A (en) Process for the thermal treatment of light metals and light metal alloys
US2009764A (en) Fining heat absorbing reduced glasses
US1934943A (en) Manufacture of antimony trifluorodichloride
US2211047A (en) Salt melts as heat transfer media
US4068706A (en) Thermal stabilization of chlorobenzenes
US2278297A (en) Handling thermophore mixtures
ES418431A1 (en) Chemical processing plant or equipment in which the surfaces of iron-containing components thereof have been protected against carburization
US1993490A (en) Aluminum solder
US2317979A (en) Manganese-base alloy
US2108085A (en) Method of making aluminum base alloys