US3798785A

US3798785A - Device for drying continuous web material

Info

Publication number: US3798785A
Application number: US00180001A
Authority: US
Inventors: D Chamouton
Original assignee: Individual
Current assignee: Individual
Priority date: 1970-09-22
Filing date: 1971-09-13
Publication date: 1974-03-26
Anticipated expiration: 1991-03-26
Also published as: GB1354797A; DE2147021A1; FR2106708A5; SE385031B; CA977960A

Abstract

The improved method according to this invention is characterized essentially in that the water contents of the moist product are rejected in the liquid state by resorting to a thermal cycle which, after having transferred at a predetermined temperature to said moist product the energy necessary for vaporizing the water contained therein, recovers this energy at a considerably lower temperature by condensing the steam thus formed.

Description

United States Patent Chamouton DEVICE FOR DRYING CONTINUOUS WEB MATERIAL Daniel Jean Marie Chamouton, 127 Boulevard Malesherbes 75, Paris, France Filed: Sept. 13, 1971 Appl. No.: 180,001

lnventor:

Foreign Application Priority Data Sept. 22, 1970 France 70.34228 US. Cl 34/54, 34/40, 34/41, 34/77, 34/86 Int. Cl. F26b 21/00 Field of Search 34/40, 41, 44, 54, 73, 34/75, 77, .86, 48

References Cited UNITED STATES PATENTS Armstrong 34/41 Mar. 26, 1974 2,933,826 4/1960 Justus 34/75 X Primary Examiner-Carroll B. Dority, Jr. Attorney, Agent, or Firm-Linton & Linton [57] ABSTRACT The improved method according to this invention is characterized essentially in that the water contents of the moist product are rejected in the liquid state by resorting to a thermal cycle which, after having transferred at a predetermined temperature to said moist product the energy necessary for vaporizing the water contained therein, recovers this energy at a considerably lower temperature by condensing the steam thus formed. I

2 Claiins, 2 Drawing Figures DEVICE FOR DRYING CONTINUOUS WEB MATERIAL BACKGROUND OF THE INVENTION The present invention relates in general to the drying of continuous webs of products or materials and has specific reference to an improved installation for the continuous drying of webs of products or materials from which moisture is to be removed.

BRIEF DESCRIPTION OF THE PRIOR ART In many industries it is a frequent requirement to remove the whole or part of the water contained in solutions, mixtures, fibres. More particularly, in the textile industry as well as in the paper-making industry, drying plants are used wherein the moisture-containing product is heated, the vapour thus released being conveyed and removed by a previously heated air stream. Now these known systems are objectionable on account of their high power consumption and it is the chief object of the present invention to provide a method of and an apparatus for reducing considerably the energy necessary for performing such drying operations.

SUMMARY OF THE INVENTION The improved apparatus according to this invention is characterized essentially in that the water contents of the moist product are rejected in the liquid state by resorting to a thermal cycle which, after having transferred at a predetermined temperature to said moist product the energy necessary for vaporizing the water contained therein, recovers this energy at a considerably lower temperature by condensing the steam thus formed.

This cycle involves only a very limited power expenditure in proportion to the heat energy necessary for vaporizing purposes only, according to the conventional means utilized in hitherto known drying plants.

Such conventional plants have already been described in the art. Now the apparatus according to the present invention provides a regulation system whereby the product can be subjected to a continuous drying action'in an air-free vapour atmosphere at a pressure close to the atmospheric value, the residual moisture rate of the product being kept at a predetermined value, without any supply of external heat, notably in the form of vapour, except during the starting period of the apparatus operation. Now none of the hitherto known processes can provide a comparable performance.

The apparatus of this invention is further characterized by an original feature in fact, in drying operations it is a frequent occurence that the dryness of the product, for instance a paper web or sheet, varies in a direction perpendicular to its direction of travel. As a rule, the vapour tension of the moist product varies as a function of its dryness now the continuous drying pure vapour atmosphere according to this invention makes this dryness uniform or regular both transversely and longitudinally of the sheet or web.

BRIEF DESCRIPTION OF THE DRAWINGS In order to afford a clearer understanding of this invention a typical form of embodiment thereof will now be described in detail with reference to the accompanying drawing, in which FIG. 1 is a diagrammatic illustration of a drying apparatus according to this invention, as applied to a textile or paper production plant, and

FIG. 2 is a block diagram illustrating the regulation means associated with the plant of FIG. 1.

DESCRIPTION OF THE PREFERRED EMBODIMENT In the example illustrated in the drawing the product to be dried, in the form of a continuous web of textile or paper product 1, is caused to pass over a set of rotary cylinders 2 heated internally by means of steam supplied through a pipe line 3 (shown only in connection with one of such cylinders), this steam condensing in the cylinders while the condensation water is removed via another pipe line 4. As described so far, this section of the plant is well known in all drying plants utilizing rotary heating cylinders, the steam being generated by a boiler to which the condensation water is recycled while the steam extracted from the product proper is usually dissipated in the surrounding atmosphere.

Although this invention does not change the arrangement and mode of operation of these heating cylinders, it provides a completely different steam circuit arrangement.

According to this invention, the heating steam circuit is closed and operates as a heat pump. It comprises a compressor 5 driven from a steam turbine, a thermal engine or an electric motor (not shown) for delivering compressed, steam to the cylinders 2 via pipe lines 3, and a boiler 6 inserted in the closed circuit upstream of the compressor for vaporizing the condensation water from cylinders 2 after its passage through a pressurereducing device 7. A vacuum pump 19 (or a water pump) is provided for eliminating the non-condensable products from cylinders 2.

The closed circuit path followed by the water firstly in the liquid state and then in the vapour state is illustrated by the arrows in FIG. 1.

On the other hand, the set of heating cylinders 2 is housed in a fluid-tight housing 8, provided however with a pair of slits 9 to permit the ingress and egress of the product to be dried. An exhaust chimney l0 directs the steam generated by the heating of the moist product into the boiler 6 where it is condensed. The condensation product is collected by a pipe 11. A vacuum pump or water or steam pump 12 removes air and other non-condensable gases from the housing 8. The air in-' take of this ejector is located at the output of the condenser section of boiler 6. The paths of fluid from 7 to 5 and from 10 to 11 are separate and heat is transferred in a well known manner from the path 10-11 to the path 7-5. Steam is generated in the boiler 6 by the heat of the steam exhausted from the housing 8 and the latter is condensed because temperature T0 of the fluid from the pressure reducer 7 is below the temperature T2 of the steam exhausted from the housing. The steam pump 12 is in communication with pipe 10, whereas the compressor 5 is in communication with the other path from the pressure reducer 7.

The above-described plant operates as follows The closed circuit comprising the compressor 5, boiler 6, pressure-reducing device 7 and heating cylinders 2 is similar to the closed circuit of a refrigerator. It discharges via pipe 3, at a temperature T steam utilized in this case for heating the rotary cylinders 2 and absorbs in the boiler 6 heat at a temperature T lower than T The heat applied to the cylinders causes the water contained in the paper or textile web 1 to evaporate at a temperature T this steam is condensed in boiler 6 to provide the heat necessary for operating the refrigeration cycle. To operate the system, the temperature T should lie within the range from T to T The values of T and T are determined by the pressurereducing device 7 together with the compression rate.

The temperature T is very slightly higher than 100C and the pressure within the housing 8 is slightly above the atmospheric value. The energy supplied by the compressor is such that the drying cylinders vaporize more water than the boiler condenses steam therefore, there is an excess of steam in the housing, one fraction of this excess steam condensing on the walls of the boiler, the other fraction escaping through the slits 9, thus precluding any ingress of air. Under these conditions, there is no air admission and a certain steam leak takes place.

On the other hand, the compressor supplies overheated steam it is advantageous to supply saturating steam to the drying cylinders therefore, water is tapped from the high-pressure circuit via pipe line 14, this water forced by pump 17 being re-injected either directly into compressor 5 or down-stream thereof through an atomiser.

To ensure a rapid starting of the plant operation steam is introduced into the housing 8 via pipe line and valve 16 thus, air is scavenged from the housing. Then steam is introduced via pipe line 13 and valve 18 into pipe line 3. These two steam supplies are discontinued when, during the compressor operation, the steam pressure measured upstream of the compressor has reached the rated value. The additional water brought by the steam into pipe line 3 is tapped off via a conduit 23 controlled by a valve 24.

The regulation system illustrated in FIG. 2 of the drawing is adapted to perform the following two functions 1. keeping the steam pressure in the housing 8 at a value very slightly greater than the surrounding atmospheric value 2. maintaining at a predetermined value the residual moisture rate of the product issuing from the drying plant.

Under these conditions, this regulation system comprises two servo-action loops.

The pressure control loop comprises a temperature detector 25 (such as a resistance, thermocouple or any other means capable of giving an electrical measurement of the temperature) disposed within the housing 8 and inserted in a Wheatstone bridge. A potentiometer 26 displays in said bridge'the control value corre-. sponding to a temperature very close to 100C. The output signal of said bridge is the input signal of an amplifier 27' to which the return servo-signal is also fed. This amplified signal actuates the control relays 28 of an electric servo-motor 29, for example an asynchronous three-phase motor. A tachometric generator 30 measures the rotational speed of servo-motor 29 and the signal delivered by this generator is the servo-return signal fed to amplifier 27. The servo-motor 29 controls either the rotational speed of the compressor driving motor or, as illustrated diagrammatically in FIG. 2, a variable-speed gearing 3] coupling the compressor 5 to a drivingmotor 32 revolving at a substantially constant speed, such as an asynchronous three-phase electric motor. The adjustment of the servo-return signal permits of obtaining a stable regulation under all circumstances.

The servo-loop controlling the residual moisture rate is operatively connected to the pressure-reducing device it is, used for pre-setting the compression rate in the water closed-circuit. It comprises a moisture detector 33 inserted in a bridge, a potentiometer 34 of this bridge setting the rated value of the residual moisture content. The output signal of the bridge is used for monitoring a modulator amplifier 35 delivering squarewave control signals having a time characteristic proportional to the measured discrepancy and a very low frequency in relation to the inherent frequency of the pressure control loop. These signals are adapted to control the opening or closing of control relays 36 of servo-motor 37 monitoring through a reduction gearing 38 the movement of the needle valve of pressurereducing device 7.

The modulator-amplifier 35 is adapted to deliver any other kinds of signals as may prove necessary and the servo-

motors

29 and 37 may be controlled linearly, either electrically or pneumatically or hydraulically. The only requirement to be met is that the time constant of the relative moisture rate control loop be at least five times greater than the time constant of the loop controlling the pressure in housing 8.

Although a specific form of embodiment of this.invention has been described and illustrated herein, it will readily occur to those conversant with the art that various modifications and changes may be brought in the practical embodiment thereof without departing from the basic principles of the invention as set forth in the appended claims.

What I claim as new is:

l. A control system for the continuous drying of wet products such as textiles or paper webs, comprising drums for receiving said products therebetween, a steam compressor connected for supplying steam to one of said drums, a pressure reducing device in a condensate return circuit from said drum, a boiler in said circuit capable of vaporizing low pressure condensate and feeding said one drum through said compressor,

an enclosure for said drums, connected to said boiler for transferring the the heat of the water vapor from said products to said boiler for heating said condensate, a control system capable of maintaining the vapor pressure in said enclosure at a level slightly higher than the atmospheric pressure and comprising a temperature probe in said enclosure, a Wheatstone bridge connected to said probe for receiving the output signal of said probe, an adjustable resistance in said bridge being fixed for a temperature slightly higher than 212F and of which the output is fed to an amplifier and after amplification controls the opening and closing of a control relays of a servomotor piloting the speed of a motor driving said compressor, and a tachometric generator fixed on a shaft of said servomotor and connected to said amplifier to add its feedback signal to the input signal of said amplifier. 2. A control system as claimed in claim 1, comprising a moisture detector positioned at the exit point of said products from said enclosure and connected to a Wheatstone bridge with the signal of said detector being the input of said bridge whose adjustable resistance is fixed at the desired moisture level and of which the output is fed to an amplifier and after amplification is fed to a control relay which controls a servomotor coupled with the pressure reducing device by a gearing having a large reduction ratio.

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Claims

1. A control system for the continuous drying of wet products such as textiles or paper webs, comprising drums for receiving said products therebetween, a steam compressor connected for supplying steam to one of said drums, a pressure reducing device in a condensate return circuit from said drum, a boiler in said circuit capable of vaporizing low pressure condensate and feeding said one drum through said compressor, an enclosure for said drums, connected to said boiler for transferring the the heat of the water vapor from said products to said boiler for heating said condensate, a control system capable of maintaining the vapor pressure in said enclosure at a level slightly higher than the atmospheric pressure and comprising a temperature probe in said enclosure, a Wheatstone bridge connected to said probe for receiving the output signal of said probe, an adjustable resistance in said bridge being fixed for a temperature slightly higher than 212*F and of which the output is fed to an amplifier and after amplification controls the opening and closing of a control relays of a servomotor piloting the speed of a motor driving said compressor, and a tachometric generator fixed on a shaft of said servomotor and connected to said amplifier to add its feedback signal to the input signal of said amplifier.

2. A control system as claimed in claim 1, comprising a moisture detector positioned at the exit point of said products from said enclosure and connected to a Wheatstone bridge with the signal of said detector being the input of said bridge whose adjustable resistance is fixed at the desired moisture level and of which the output is fed to an amplifier and after amplification is fed to a control relay which controls a servomotor coupled with the pressure reducing device by a gearing having a large reduction ratio.