Aqua-ammonia absorption system generator utilizing...

Refrigeration – Refrigeration producer – Sorbent type

Reexamination Certificate

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C062S476000

Reexamination Certificate

active

06487875

ABSTRACT:

BACKGROUND OF THE INVENTION
Aqua-ammonia absorption systems incorporate, as the major components, an absorber, generator, condenser, and an evaporator. Such systems, well known in the art, are disclosed, for example, in U.S. Pat. Nos. 5,367,884, 5,548,971, 5,367,884, and 5,490,393 the descriptions of which, including system components, features and operation, are incorporated herein by reference. These aqua-ammonia absorption systems may be designed and operated as heat pumps, refrigeration equipment, chillers, heating appliances, and chiller-heaters.
The generator of an aqua-ammonia absorption system operates as a distillation column and includes, as components, a boiler, a stripping section or stripper, and a rectifying section. The composition feed to the generator comprising an ammonia rich liquor from the system absorber, is introduced to the generator at one or more feed or inlet points. The boiler is designed to produce liquid and vapor counter-flow coincident with heat input. Prime heat is introduced over a finite length or height of the boiler resulting in significant change in ammonia concentration in the area of heat input. In some systems, the boiler is replaced by a reboiler in which heat is input from a prime energy source but with no substantial ammonia separation other than from vapor separating in equilibrium from the liquid near the bottom of the column. Thus, a reboiler simply returns vapor to the generator column.
The stripping section comprises all sections of the generator column which are below the highest (coldest) feed point. In the stripping section, heat is recovered from solution leaving the bottom of the distillation column with the recovered heat returned to the portion of the column above the boiler. The stripping section comprises three portions: a solution-heated-desorber (SHD) and either an adiabatic desorber or a generator-absorber heat exchange (GAX) desorber, and the boiler. The SHD is that portion of the stripping section which extracts heat from weak solution, i.e., solution from the bottom of the generator column, before the weak solution is routed to the absorber. The adiabatic desorber of the stripping section has no heat input and is typically located between the coldest feed point and the SHD. The GAX desorber receives heat from the absorber, either by heat transfer using weak liquor from the bottom of the generator column or a secondary fluid. Typically, a generator in a GAX aqua-ammonia absorption system will have a GAX desorber or an adiabatic desorber, but not both. When the system utilizes strong liquor GAX an adiabatic section is used, whereas a GAX desorber is used for weak liquor GAX or secondary fluid GAX. An additional component of a generator is a rectifier which is the section of the generator above the highest (coldest) feed point. Such generators as described above are illustrated in the drawings and will be described in further detail hereinafter.
The feed to the generator column from the system absorber is a rich liquor comprising a solution having a comparatively high ammonia content. Such rich liquor typically has 40% to 50% ammonia, but under some operating conditions may be as low as about 20%. Such a rich liquor is contrasted to a weak liquor directed from the generator to the absorber, which comprises a water-rich composition having between about 1% and about 15% ammonia at rating conditions, and typically between about 3% and about 5% ammonia. In strong liquor GAX absorption cycles, heat is recovered by splitting the rich liquor feed to the generator, one portion passing through the GAX heat exchanger in the absorber while the other portion is routed directly to the generator. The two portions are introduced into the generator at different locations. One feed stream is introduced at or near the rectifier as a single-phase fluid at or below the bubble-point temperature. The second stream, usually a two-phase composition, is introduced into the column at a lower location than the first single-phase liquid feed. The second feed stream desirably becomes a two-phase mixture by being when heated above its bubble-point temperature. Conventional generators used in the aforesaid aqua-ammonia absorption systems have been designed with plates and attached heat-transfer tubing to transfer heat to the distillation column at the various locations along the column length. Such generator columns are described and illustrated in the aforesaid patents.
SUMMARY OF THE INVENTION
The present invention is directed to an improved aqua-ammonia absorption generator having at least a portion of the interior generator space filled with structured packing material.


REFERENCES:
patent: 4719767 (1988-01-01), Reid, Jr. et al.
patent: 4722193 (1988-02-01), Purvis et al.
patent: 4724679 (1988-02-01), Radermacher
patent: 4902207 (1990-02-01), Hembree et al.
patent: 5024063 (1991-06-01), Erickson
patent: 5097676 (1992-03-01), Erickson
patent: 5255534 (1993-10-01), Ryan
patent: RE34747 (1994-10-01), Pretty et al.
patent: 5725793 (1998-03-01), Keller et al.
patent: 0 895 037 (1999-02-01), None
patent: 7-318191 (1995-12-01), None
patent: 11-207173 (1999-08-01), None
patent: 55498 (2000-02-01), None

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