DK161549B - METHOD AND APPARATUS FOR EVAPORATION OF LIQUID - Google Patents

Description

in

DK 161549 B

The invention relates to a process for evaporation, in which the evaporation is carried out by means of heating steam using at least two consecutive, in relation to the liquid to be evaporated, in series coupled evaporators, and in which steam is used which is evaporated from the liquid itself. which is to be evaporated, which steam is fed both from the first evaporator in the series connection to a blower or similar device which blows the steam further under higher pressure and back to the evaporators.

The invention further relates to an apparatus for evaporating liquid.

15

Evaporation devices are known in which the liquid to be evaporated is passed through successive evaporation units in such a way that the evaporation temperature and the liquid content of the solids both increase stepwise. Steam heating has been used as a separator from the liquid to be evaporated and whose pressure and temperature are controlled by means of fans, compressors and similar devices.

25 In the case of evaporation processes, the problem arises that the effect of the process tends to weaken over time due to the soiling of the evaporators. Since the solids content of the evaporated product should be constant, one must compensate for the decrease of evaporation effect by increasing the suction height of the blowers. The control means connected to the fans, however, increase the energy consumption of the fans, and in addition, the regulation must be extremely precise, since even a small change in the amount of evaporated liquid results in a relatively large change in the concentration of the evaporated product.

DK 161549B

2 Because of this, it has in practice caused difficulties to keep the concentration constant.

In the description of Danish Patent Specification No. 151182, in order to eliminate this problem, a solution has been shown in which the duct system which conducts heating steam is provided with two successive blowers, so that one blower acts as a main blower, so that the vapor passing through it is partially passed to the first evaporator of the series connection, and partly to a second blower which acts as an auxiliary fan, from which the vapor is directed to the second evaporator of the series connection.

The object of the present invention is to provide a new and deviated solution to the problem mentioned above. This is achieved according to the invention in that the blower to which steam is supplied from both evaporators in the series connection acts as a main blower, using the method auxiliary blower which works with steam 20 from the second evaporator of the series connection before its arrival in the main blower.

In the solution according to the invention, where the main blower can be substantially larger than the auxiliary blower, one does not necessarily need to regulate the main blower during the process, in that all control measures can be directed to the auxiliary blower. It is thus unnecessary to mount expensive re-! yellowing agents on the main blower, just as this does not cause any unnecessary energy consumption for the process. The mounting of aids on the auxiliary fan becomes cheaper due to their smaller size, and as the auxiliary fan's energy consumption is also lower, these do not significantly increase the total energy consumption of the process, although the efficiency should be less. It is also possible to regulate the auxiliary fan with the small size in the right way, so that you now exactly achieve the desired concentration.

. DK 161549 B

3 tration of dry matter in the final evaporated product. A further advantage of the invention in relation to the solution known from the description of Danish Patent Application No. 3182/83 is that the operating temperature in the evaporator of the other connection can be lowered. This circumstance is important when treating materials that are sensitive to heat.

The invention further relates to an apparatus for practicing the above-described evaporation method. In this apparatus, at least two consecutive known, in relation to the liquid to be evaporated, comprise in series connected evaporators together with a duct system through which the vapor evaporated from the liquid in the evaporators is returned to the evaporators. for use as heating steam, which apparatus is provided with fans or similar devices which increase the vapor pressure. The apparatus is characterized in that it comprises a main blower which is connected through channels to both evaporators in the serial connection ice in such a way that steam can be supplied to each main blower from each evaporator, and an additional blower arranged before the main blower , in the channel between the last evaporator and the main blower.

The invention will now be described in more detail with the aid of an exemplary embodiment with reference to the accompanying drawing showing an evaporator according to the invention.

In the apparatus according to the drawing, two successive, series-coupled evaporators 1 and 2 are used, through which the liquid conveyed in lines 3, 4 and 5 flows. The evaporation is carried out by means of steam, the majority of which consists of the vapor evaporated by the liquid to be evaporated in evaporators 1 and 2. This vapor obtained from the liquid to be evaporated is discharged from the evaporator 1 and 2 to DK 161549 B j 4 in channels 6 and 7 and passed through channels 8, 9 and 10, whereby the heating steam is returned to the evaporators. The duct 7 is connected to the duct 11 through which it is possible to introduce the steam into the apparatus from outside 5 to maintain the heat balance. The duct system 6-11 is

provided with two fans 12 and 13 which increase heating J

vapor pressure and temperature. The fan 12 in channel 7 works! as auxiliary blower, which sucks steam from the last evaporator 2 j in the serial connection and blows it in to the input side of j 10 the main blower operating 13. The main blower 13 provides additional steam from the first evaporator 1 of the serial connection, so that all heating steam to be used by evaporation, goes through the main blower. The majority of this steam is advanced to be used as heating steam in the first evaporator 1 of the series connection, and the remainder is passed through the duct 9 to act as heating steam in the second evaporator 2. The condensate formed by the heating steam is removed from the evaporators 1 and 2 through lines 14 and 15.

In the apparatus shown, the power of the auxiliary blower 12 may be on the order of 1 / 10-1 / 5 of the power of the main blower 13. The main blower 13 is arranged to operate under optimum conditions and it is not controlled during the process, which is why it is not necessary to supply it with energy-consuming regulating means. The decrease in the evaporation effect caused by the soiling of the evaporators 1 and 2 during pro-; This is compensated solely by regulating the auxiliary fan 12, and for this purpose the auxiliary fan is provided with an inverter, a guide vane regulator or similar suction height control device. Since most of the evaporation takes place in the first evaporator 1 of the series, and as a small portion of the vapor passes through the auxiliary fan 12, the auxiliary fan control means have no significant influence on the total energy consumption of the process. The auxiliary fan 12 regulation can be based on high evaporation quotients

DK 161549 B

For example, the invention can be used for pre-drying the drying phase of whey for use in the production of whey powder, which may be carried out in the process, for example, in the drying phase of the final product. a spray-drying system. In such a pretreatment, the dry matter content of the whey is increased using, for example, two successive evaporators, the first of which increases the dry matter content from 6 to 20% and the second from 20 to 60%. In a similar process, the main blower may have approx. 3 times as much power as the auxiliary fan, and the process can be sized so that the required amount of heating steam from outside no more than 15 is some percent of the total amount of heating steam. In addition, the working temperature prevailing in the second evaporator can be set lower than the working temperature in the first evaporator by means of suction fan suction.

Claims (4)

A method of evaporation, wherein the evaporation is carried out by means of heating steam using at least 5 consecutive, relative to the liquid to be evaporated, series-connected evaporators (1, 2), and in which steam which is used as a heating steam is used. the vapor from the liquid itself to be evaporated, which vapor is passed both from the first evaporator of the serial connection and from the second evaporator of the serial connection 10 to a blower (13) or similar device which blows the steam back under higher pressure to the evaporator, characterized in that it blows (13), to which steam is supplied from both evaporators (1, 2) of the series connection, acts as a main blower, using the method an auxiliary fan (12) which operates on steam, evaporated from the second evaporator of the series connection before the arrival of this steam to the main blower. Process according to claim 1, characterized in that the dry matter content of the final product of the evaporation is kept constant during the course of the evaporation process by regulating the suction height of the auxiliary fan (12). Apparatus for carrying out a method according to claim 1, 25 or 2, which comprises at least two consecutive, relative to the liquid to be evaporated, series connected evaporators (1, 2) and a duct system (6, 10), through which steam evaporated from the liquid in the evaporators is returned to the evaporators for use as heating steam and provided with fans (12, 13) or similar devices which increase the pressure of the steam, characterized in that the apparatus comprises a a main blower (13) connected by means of ducts (6, 7) to both evaporators (1, 2) of both series connection, so that steam can be supplied to the main blower from both evaporators, and a further blower (12) which is arranged before the main fan in the duct (7) between the second evaporator (2) of the serial connection and the main fan. Apparatus according to claim 3, characterized in that the auxiliary fan (12) is provided with an inverter, a vane regulator or similar control means for the fan suction height.