Compositions – Vaporization – or expansion – refrigeration or heat or energy... – With low-volatile solvent or absorbent
Reexamination Certificate
1994-04-26
2002-03-26
Einsmann, Margaret (Department: 1751)
Compositions
Vaporization, or expansion, refrigeration or heat or energy...
With low-volatile solvent or absorbent
C252S067000, C062S112000
Reexamination Certificate
active
06361710
ABSTRACT:
FIELD OF THE INVENTION
This invention relates to absorbent compositions for use with absorption heat exchange apparatus and, particularly, to absorbent compositions which can be used in the high temperature circuit of a dual circuit triple effect heat exchange apparatus.
BACKGROUND OF THE INVENTION
Absorption refrigeration, chilling, heat pump, and related apparatus employing a single refrigeration loop and absorbent refrigerant compositions are well known. The refrigeration loop typically includes a generator, a condenser, an evaporator, and an absorber. Conventional absorbent refrigerant compositions which use water as the refrigerant and lithium bromide as the absorbent can be used in the refrigeration loop.
The principal operation of a single refrigeration loop involves adding heat from an external energy source to the absorbent refrigerant composition in the generator. The generator heats the composition sufficiently to distill out a vapor of the refrigerant, leaving an aqueous composition having a higher concentration of absorbent. The aqueous composition is removed to the absorber and the vapor phase is removed to the condenser. In the condenser, the vapor phase is condensed to form a liquid refrigerant and shed heat. The liquid refrigerant is then re-evaporated in the evaporator using heat from a heat load in direct or indirect contact with the refrigerant. The re-evaporated refrigerant is removed to the absorber where it is absorbed by the aqueous absorbent composition to reform the original absorbent refrigerant composition and shed heat.
Dual loop absorption cycles employing separate but interacting refrigeration circuits of the type described above are also known. One example of a dual loop cycle is disclosed in U.S. Pat. No. 4,732,008.
With the dual loop concept, one circuit, known as the high-temperature loop or circuit, has the condenser and absorber operating at relatively high temperatures so that all of the heat of condensation and absorption from that circuit is transferred to the generator of the second, or low-temperature circuit. The evaporators of both circuits provide cooling to an external heat load. The low temperature circuit operates at conventional water chiller temperature conditions, and lithium bromide/water is the preferred working fluid. However, the single salt lithium bromide is not soluble enough in water to provide a desirably low vapor pressure of the working fluid (about 10 mm Hg) at the high absorber temperatures, e.g. about 190-240° F., (87-115° C.) required in the high temperature circuit.
U.S. Pat. No. 4,732,008 suggests some possible absorption solutions for use as the working fluid in the high temperature circuit. One such absorption solution mixture is a mixture of lithium bromide, water, an anti-crystallization additive (e.g., ethylene glycol), a heat transfer additive and a corrosion inhibitor. Although this absorption solution can function as the working fluid in the high temperature circuit, the ethylene glycol anti-crystallization additive is not stable enough at the high generator temperatures required, e.g. 400° F. (200° C.) or higher, to withstand continuous and repeated cycling through the high temperature circuit. Moreover, the absorption solution exceeds the preferred low vapor pressure of about 10 mm Hg absolute at a temperature of 190-240° F. (87-115° C.).
In order to obtain maximum efficiency of the dual loop absorption circuit, the working fluid for the high temperature circuit should preferably be a liquid in the temperature range of about 190-240° F. (87-115° C.), have a vapor pressure of about 10 mm Hg absolute at the working temperature, and be capable of withstanding temperatures as high as 480-500° F. (249-260° C.). Absorption compositions that can meet these temperature, pressure and solubility requirements include aqueous solutions of lithium, zinc, and calcium bromides and chlorides disclosed generally in U.S. Pat. No. 3,478,530. These salt solutions, however, are unacceptable as working fluids for the high temperature circuit because they are extremely corrosive to the metals from which the high temperature circuit components are manufactured. Typically, such metals include stainless steels that are susceptible to pitting and stress corrosion.
Accordingly, an object of the present invention is to provide an absorption composition that has improved solubility properties that permit use of the composition in the high temperature circuit of a dual loop, absorption refrigeration system.
Another object of the present invention is to provide an absorption composition which does not corrode the high-temperature circuit components.
Another object of the invention is to provide an absorption composition which has a relatively low vapor pressure and is capable of withstanding the high temperatures in the high temperature circuit of a dual loop absorption refrigeration system.
Other objects of the invention will become apparent to one of ordinary skill in the art from consideration of the present disclosure.
SUMMARY OF THE INVENTION
The invention is an absorption composition which is a solution of water, zinc and lithium bromides, and a source of hydroxide ions. The composition contains from about 50 to 60 grams of zinc bromide, and from about 25 to 35 grams of lithium bromide per one hundred grams of the solution, and has a weight ratio of zinc bromide to lithium bromide of about 1.6 to about 1.9. Preferably, the source of hydroxide ions is lithium hydroxide, and the amount of hydroxide (expressed as lithium hydroxide) included in the solution ranges from about 0.0015 to about 0.015 gram per gram of total contained salt. A preferred composition has a weight ratio of zinc bromide to lithium bromide of about 1.75, contains about 0.003 gram of lithium hydroxide per gram of contained salt, and operates in the concentration range of about 80-91 weight percent total salt.
DESCRIPTION OF THE PREFERRED EMBODIMENT
The absorbent refrigerant composition of the present invention employs water as the refrigerant and lithium and zinc bromides and hydroxides as the absorbent. The composition contains from about 50 to about 60 grams of zinc bromide and from about 25 to about 35 grams of lithium bromide per one hundred grams of the composition. The weight ratio of zinc bromide to lithium bromide in the composition is in the range of 1.6 to 1.9, with 1.75 being the preferred weight ratio. Compositions containing zinc bromide to lithium bromide in weight ratios of less than 1.6 are not soluble enough to provide the vapor pressure requirement of 10 mm Hg absolute for the evaporator and absorber sections of the high temperature circuit at the high temperatures required in the absorber section, and solubility is adversely affected by the addition of hydroxide. Compositions containing zinc bromide to lithium bromide in weight ratios of greater than 1.9 are too viscous to be suitable for practical use.
A small amount of hydroxide is included in the absorbent refrigerant composition to reduce the corrosivity of the composition. Without the addition of hydroxide, the zinc and lithium bromide solution exhibits acidity and a strong corrosive action on stainless steels, which is undesirable since it reduces the life of the absorption refrigeration equipment. When hydroxide is added to the composition, the pH of the composition is raised to an acceptable level (i.e. well above the methyl orange end point of about 4.3) and the corrosion rate is reduced, making the absorbent refrigerant composition desirable for use in the high temperature circuit of a dual loop, triple effect system.
The preferred hydroxide for use in the absorbent refrigerant composition is lithium hydroxide, although zinc hydroxide or a combination of zinc and lithium hydroxides can also be used as the hydroxide. The amount of the hydroxide added is from 0.0015 to 0.015 gram (expressed as lithium hydroxide) per gram of total salt contained in the composition. The term “total salt” refers to the combined amount, in grams, of zinc bromide and lithium bromide present in the compo
Einsmann Margaret
Fejer Mark E.
Gas Research Institute
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