Concentrating evaporators – Processes – Film
Reexamination Certificate
2001-05-03
2004-12-14
Manoharan, Virginia (Department: 1764)
Concentrating evaporators
Processes
Film
C159S013200, C159S027100, C159S043100, C159S048100, C159SDIG002, C095S241000, C096S188000
Reexamination Certificate
active
06830654
ABSTRACT:
FIELD OF THE INVENTION
The invention relates to the production of clean vapour. In particular, the invention relates to the removal of dissolved gases from the feed-water when using a falling film evaporator.
BACKGROUND OF THE INVENTION
When producing especially clean water vapour, particularly for sterilisation purposes, the feed-water to be evaporated has to be purified of the gases dissolved therein, among other things, to maximise the concentration of the vapour that is generated and, consequently, the condensation heat, and to minimise the corrosive effect. The gases dissolved in the feed-water are mainly atmospheric gases nitrogen, oxygen, carbon dioxide and argon. The solubility of the gases in the water is at the lowest near the boiling point of the liquid.
According to a commonly used standard, for example, the vapour may not contain more than 3.5% non-condensable gases. To remove the dissolved gases, pre-degassing chambers where the heated water has stayed in the gas space for such a long time that the gases have had time to bubble out, as is described in Finnish patent 77 380, have been used in the water feed line.
A falling film evaporator comprises usually a vertical tube bundle, the heating medium, like vapour, a heat transfer fluid or a flue gas being located on the outside. The liquid to be evaporated is fed from above and it flows as a film along the inner walls of the tubes, partly evaporating. The vapour that was generated flows downwards together with the liquid film and is separated from the non-evaporated liquid in the lower part of the evaporator.
Usually, the main problem with the falling film evaporator is the spreading of the liquid into an even film into the tubes. Often a perforated plate arrangement disposed above the smoothed tube end plane is employed. Other solutions are individual distributors or nozzles at the tube ends.
For the degassing of liquids, solutions are known wherein the hot liquid is broken into a fine spray to make the gas bubbles that are generated separate effectively from the liquid phase as a result of a large liquid-gas interface and a short way of travel. The method is used for the degassing of steam boiler water, as disclosed in U.S. Pat. No. 5,201,366, for example, and for the stripping of volatile substances from a liquid phase, as disclosed in publication EP-A 167 647. Besides, negative pressure is often used in the space into which the liquid phase is sprayed.
An apparatus for the removal of gases from water to be used as surgical rinse water is known from U.S. Pat. No. 4,816,044. The apparatus comprises a degassing chamber and the feed-water is sprayed into the upper part thereof. The gases are removed through a pump arrangement generating a slightly negative pressure in the gas space of the degassing chamber.
Methods and apparatuses for distributing feed-water evenly to the inlet of the evaporator channel assembly of an evaporator by using spray nozzles are known from U.S. Pat. Nos. 3,332,469 and 4,683,025.
DISCLOSURE OF THE INVENTION
The method according to claim
1
has now been invented for distributing feed-water effectively to the beginning of the heat-transfer surfaces of a falling film evaporator by removing the gases dissolved in the water and preventing them from re-dissolving at the same time. Another object of the invention is the device according to claim
2
which makes it possible, in a falling film evaporator, in the same operation, to remove the gases from the feed-water and to distribute it evenly into the tube bundle of the evaporator. The apparatus comprises an evaporator top and at least one spraying device arranged therein. In this case, the spraying device is a nozzle, a mist sprayer or a similar device for creating a spray of liquid of a given shape.
The hit pattern of the spraying device or devices is dimensioned in such a way that when water is fed through the device, the water is evenly distributed as droplets over the entire tube end plane under the top. Besides, the spray of droplets results in a large gas-liquid interface. Owing to the fact that the liquid discharged from the spraying device is heated, the gases dissolved in the liquid separate very quickly from the liquid phase at the same time as part of the liquid evaporates. Because the liquid phase distributed as droplets reaches the evaporator channel assembly in a very short time, no gases re-dissolve in the phase before the evaporation starts, as could happen in devices according to the state of the art, wherein the separation of gases was carried out, for example, in a separate chamber.
In addition to the spraying device, the evaporator top comprises an outlet or outlets for removal of the gases. Part of the vapour that was generated in the discharging phase acts as to a carrier in the outflow.
The distribution of the liquid into the evaporator channel assembly can also be affected by arranging a perforated trough above the ends of the evaporator tubes, wherein the water remains as a thin layer before flowing into the evaporator tubes. Dissolved gases can also separate from the thin layer.
REFERENCES:
patent: 3332469 (1967-07-01), Rosenblad
patent: 3849232 (1974-11-01), Kebbler et al.
patent: 4683025 (1987-07-01), Flores
patent: 4698136 (1987-10-01), El-Allawy
patent: 4816044 (1989-03-01), Weisert et al.
patent: 4946559 (1990-08-01), Kroneld et al.
patent: 4981555 (1991-01-01), Hohmann et al.
patent: 5201366 (1993-04-01), Blangetti et al.
patent: 5232085 (1993-08-01), Hayashi et al.
patent: 5246541 (1993-09-01), Ryham
patent: 5770020 (1998-06-01), Koistinen et al.
patent: 5930998 (1999-08-01), Blangetti et al.
patent: 6068730 (2000-05-01), Ramm-Schmidt et al.
patent: 6338774 (2002-01-01), Lehman
patent: 0 167 647 (1996-01-01), None
patent: 77 380 (1967-01-01), None
Fay Sharpe Fagan Minnich & McKee LLP
Manoharan Virginia
Steris Europe Inc Suomen Sivuliike
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