US1935580A - Processing of cellulose fiber - Google Patents

Processing of cellulose fiber Download PDF

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Publication number
US1935580A
US1935580A US600575A US60057532A US1935580A US 1935580 A US1935580 A US 1935580A US 600575 A US600575 A US 600575A US 60057532 A US60057532 A US 60057532A US 1935580 A US1935580 A US 1935580A
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pulp
cellulose
fiber
refining
preliberated
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US600575A
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George A Richter
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Brown Co
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Brown Co
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Priority claimed from US480198A external-priority patent/US1880046A/en
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    • DTEXTILES; PAPER
    • D21PAPER-MAKING; PRODUCTION OF CELLULOSE
    • D21CPRODUCTION OF CELLULOSE BY REMOVING NON-CELLULOSE SUBSTANCES FROM CELLULOSE-CONTAINING MATERIALS; REGENERATION OF PULPING LIQUORS; APPARATUS THEREFOR
    • D21C9/00After-treatment of cellulose pulp, e.g. of wood pulp, or cotton linters ; Treatment of dilute or dewatered pulp or process improvement taking place after obtaining the raw cellulosic material and not provided for elsewhere
    • D21C9/08Removal of fats, resins, pitch or waxes; Chemical or physical purification, i.e. refining, of crude cellulose by removing non-cellulosic contaminants, optionally combined with bleaching
    • D21C9/083Removal of fats, resins, pitch or waxes; Chemical or physical purification, i.e. refining, of crude cellulose by removing non-cellulosic contaminants, optionally combined with bleaching with inorganic compounds
    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y10TECHNICAL SUBJECTS COVERED BY FORMER USPC
    • Y10STECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y10S162/00Paper making and fiber liberation
    • Y10S162/05Alpha cellulose

Definitions

  • the chemicals hereinbefore mentioned apparently have the common feature of generating a low hydroxyl ion concentration during the entire refining operation in the aqueous liquor in which the pulp fibers are suspended. It is evidently the hydroxyl ion which makes possible the purification of the fiber, for if the fiber is treated with water alone at about 200 C. or at higher temperature, the product is of relatively low alpha cellulose content. Evidently at about 200 C. or at higher temperatures, water hydroliz es the pentosans and less-resistant celluloses 7 present in the fiber to form organic acids, which, if permitted to remain in the sphere of reaction, hydrolize the fiber.
  • a borate, aluminate, or silicate serves as a buffer chemical to furnish progressively hydroxyl ions to neutralize the acids so as to promote the refinement of the fiber to high alpha cellulose content.
  • the borates, aluminates, and silicates which I employ should be comparatively soluble and may conveniently and economically contain sodium as the basic or positive radical. In other words, I may employ the various sodium borates, sodium silicates, sodium aluminates, or other equivalents in the aqueous refining liquor.
  • a raw or unbleached sulphite pulp having an alpha cellulose content of 89%, a lignin content of 2%, a pentosan content of 3.5%, and a solution viscosity of 21.2 may be used as a raw material.
  • the pulp may be digested for about two hours ina- 1% to 2% solution of sodium tetraborate at about 200 C.
  • the digested product when washed free of digesting solution, will have an alpha cellulose content of about 96%, a
  • the washed pulp may then be bleached under conditions to preserve the alpha aluminum hydroxide, which in itself acts as a 110 butter to preclude undesirable action on the fibers.
  • Thereflning chemicals of the present invention, especially the borates, are quite inexpensive. In fact, the borates are far less expensive than the stronger alkalies, such as caustic soda, heretofore used in refining pulps.
  • the pulp to be refined may be in partly or completely bleached condition.
  • the refining liquor dissolves out oxycelluloses as well as other classes of non-alpha cellulose impurities.
  • the digesters employed must be constructed to withstand pressures of about 200 to 230 pounds.
  • the heating of the refining liquor may be accomplished by providing a digester with a circulating system such as is employed in the so-called indirect cook in making pulp, in which case the liquor is drawn from the bottom of the digester through a screen, is passed through a heater, and returned to the top of the digester. Or, if desired, screened liquor may be removed from the top of the digester. passed through a heater, and introduced into the bottom of the digester in order to induce a more positive circulation within the digester. If desired, however, both the pulp and liquor may be passed through a heater so as to dispense with a screening.
  • a process which comprises digesting preliberated cellulose pulp at temperaturesnabove about 150 C. in a solution of a chemical selected from a group consisting of the soluble borates, aluminates, and silicates.
  • a process which comprises digesting preliberated chemical wood pulp of the character of sulphite and kraft at temperatures above about 150 C. in a solution of a chemical selected from a group consisting of sodium borate, sodium aluminate, and sodium silicate.
  • a process which comprises digesting preliberated cellulose pulp at elevated temperature in water containing borates.
  • a process which comprises digesting preliberated but unrefined wood pulp at temperatures above about 150 C. in water containing borates.
  • a process which comprises digesting preliberated chemical wood pulp at temperatures above about 150 C. in a solution of sodium borate. 100
  • a process which comprises digesting preliberated cellulose pulp at elevated temperature in water containing aluminates.
  • a process which comprises digesting preliberated chemical wood pulp at temperatures 105 above about 150 C. in a solution of sodium aluminate.
  • a process which comprises digesting preliberated cellulose pulp at temperatures above about 150 C. in water containing silicates I 9. A process which comprises digesting preliberated chemical wood pulp at temperatures above about 150 C. in a solution of sodium silicate.

Description

Patented Nov. 14, 1933 PROCESSING OF CELLULOSE FIBER George A. Richter, Berlin, N. IL, assignor to Brown Company, Berlin, N. H., a corporation of Maine No Drawing. Original application September 6,
1930, Serial No.
480,198, now Patent No.
1,880,046, dated September 27, 1932. Divided and this'application March 22, 1932. Serial This invention relates to the processing of cellulose fiber more particularly in the form of an aqueous pulp or fiber suspension to improvev its suitability for use in various fields, including 5 the papermaking and cellulose derivative indus- The cellulose fiber comprehended by the 20 cellulose derivative industries, it is necessary to refine or purify the pulp fibers by dissolving out non-alpha cellulose components therefrom.
In my application Serial No. 480,198, filed September 6, 1930, (now Patent No. 1,880,046, dated September 27, 1932), I have described various processes of refining preliberated cellulose pulps involving the use of a wide variety or refining chemicals, including the borates, aluminates, and silicates. The present application is a division of the above-mentioned application and is intended to cover generically, as well as specifically, a refining process wherein any one or a combination of these three chemicals are employed to exert a refining action. As pointed out in my parent application, two important ends are realized when the aqueous pulp suspensions are digested at temperatures above about 150 C,, for instance at 200 C. or at higher temperatures in the presence of such refining chemicals. In the first place, these chemicals bring about a sharp increase in the alpha cellulose content of fibers susceptiblev to refinement without, however, substantially injuring their papermaking or esterification characteristics. In the second place, they cause a lowering of the solution viscosity of the fiber, by which I mean that derivatives, such as nitrocellulose, prepared from the resulting fiber yield solutions of low viscosity in suitable solvent'media. So, too, cuprammonium cellulose solutions or solutions of other cellulose derivatives prepared from the fiber have low viscosity.. The effect of solution viscosity lowering is greater, the higher the temperature brought into play during the refinement of the pulp fibers. Thus, at temperatures of 200 C. or higher, a noteworthy reduc- 9 Claims. (01. 92-9) tion in the solution viscosity of the fibers is attained; and the aluminates are more effective in this respect than the borates or silicates.
The chemicals hereinbefore mentioned apparently have the common feature of generating a low hydroxyl ion concentration during the entire refining operation in the aqueous liquor in which the pulp fibers are suspended. It is evidently the hydroxyl ion which makes possible the purification of the fiber, for if the fiber is treated with water alone at about 200 C. or at higher temperature, the product is of relatively low alpha cellulose content. Evidently at about 200 C. or at higher temperatures, water hydroliz es the pentosans and less-resistant celluloses 7 present in the fiber to form organic acids, which, if permitted to remain in the sphere of reaction, hydrolize the fiber. If, however, there is present in the sphere of reaction a borate, aluminate, or silicate, it serves as a buffer chemical to furnish progressively hydroxyl ions to neutralize the acids so as to promote the refinement of the fiber to high alpha cellulose content. The borates, aluminates, and silicates which I employ should be comparatively soluble and may conveniently and economically contain sodium as the basic or positive radical. In other words, I may employ the various sodium borates, sodium silicates, sodium aluminates, or other equivalents in the aqueous refining liquor.
An example of procedure falling within the purview of the present invention may be practised about as follows. A raw or unbleached sulphite pulp having an alpha cellulose content of 89%, a lignin content of 2%, a pentosan content of 3.5%, and a solution viscosity of 21.2 may be used as a raw material. The pulp may be digested for about two hours ina- 1% to 2% solution of sodium tetraborate at about 200 C. The digested product, when washed free of digesting solution, will have an alpha cellulose content of about 96%, a
lignin content of about 0.7%, a pentosan contentof about 1.4%, and a solution viscosity of about- 1.2. The washed pulp may then be bleached under conditions to preserve the alpha aluminum hydroxide, which in itself acts as a 110 butter to preclude undesirable action on the fibers. Thereflning chemicals of the present invention, especially the borates, are quite inexpensive. In fact, the borates are far less expensive than the stronger alkalies, such as caustic soda, heretofore used in refining pulps.
If desired, the pulp to be refined may be in partly or completely bleached condition. When a completely bleached or whitened pulp containing oxycelluloses is refined in accordance with the present invention, the refining liquor dissolves out oxycelluloses as well as other classes of non-alpha cellulose impurities.
In carrying out the high temperature digestions herein described, the digesters employed must be constructed to withstand pressures of about 200 to 230 pounds. The heating of the refining liquor may be accomplished by providing a digester with a circulating system such as is employed in the so-called indirect cook in making pulp, in which case the liquor is drawn from the bottom of the digester through a screen, is passed through a heater, and returned to the top of the digester. Or, if desired, screened liquor may be removed from the top of the digester. passed through a heater, and introduced into the bottom of the digester in order to induce a more positive circulation within the digester. If desired, however, both the pulp and liquor may be passed through a heater so as to dispense with a screening. When high pressure steam is unavailable for the heater, it may be desirable to bring the digester charge to as high a temperature as is possible with theavailable steam, and then to raise the charge to the highest temperature by a suitable electric heating unit, for instance an electric heater strapped about the digester.
Because of the lack o1. a generic term which embraces the three specific refining chemicals of the present invention, I am forced to adopt an indirect definition, which has been done heretofore in similar situations, to the effect that the refining chemical is one selected from a group consisting of the borates, aluminates, and silicates.
I claim:
l. A process which comprises digesting preliberated cellulose pulp at temperaturesnabove about 150 C. in a solution of a chemical selected from a group consisting of the soluble borates, aluminates, and silicates.
2. A process which comprises digesting preliberated chemical wood pulp of the character of sulphite and kraft at temperatures above about 150 C. in a solution of a chemical selected from a group consisting of sodium borate, sodium aluminate, and sodium silicate.
3. A process which comprises digesting preliberated cellulose pulp at elevated temperature in water containing borates.
4. A process which comprises digesting preliberated but unrefined wood pulp at temperatures above about 150 C. in water containing borates.
5. A process which comprises digesting preliberated chemical wood pulp at temperatures above about 150 C. in a solution of sodium borate. 100
6. A process which comprises digesting preliberated cellulose pulp at elevated temperature in water containing aluminates.
'7. A process which comprises digesting preliberated chemical wood pulp at temperatures 105 above about 150 C. in a solution of sodium aluminate.
8. A process which comprises digesting preliberated cellulose pulp at temperatures above about 150 C. in water containing silicates. I 9. A process which comprises digesting preliberated chemical wood pulp at temperatures above about 150 C. in a solution of sodium silicate.
GEORGE A. RICHTER.
US600575A 1930-09-06 1932-03-22 Processing of cellulose fiber Expired - Lifetime US1935580A (en)

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US480198A US1880046A (en) 1930-09-06 1930-09-06 Processing of cellulose fiber
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Cited By (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3068141A (en) * 1959-09-10 1962-12-11 Eastman Kodak Co Method of refining kraft wood pulp
US3305433A (en) * 1963-02-25 1967-02-21 Rayonier Inc Cold caustic refining of cellulose
US4116759A (en) * 1975-09-02 1978-09-26 Jan Janson Preparation of liquor for delignification or alkali treatment by autocaustization, and the preparation of pulp with this liquor
US4384921A (en) * 1980-05-21 1983-05-24 Osakeyhtio A. Ahlstrom Alkaline sulfite pulping process with sodium aluminate and anthraquinone

Cited By (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3068141A (en) * 1959-09-10 1962-12-11 Eastman Kodak Co Method of refining kraft wood pulp
US3305433A (en) * 1963-02-25 1967-02-21 Rayonier Inc Cold caustic refining of cellulose
US4116759A (en) * 1975-09-02 1978-09-26 Jan Janson Preparation of liquor for delignification or alkali treatment by autocaustization, and the preparation of pulp with this liquor
US4384921A (en) * 1980-05-21 1983-05-24 Osakeyhtio A. Ahlstrom Alkaline sulfite pulping process with sodium aluminate and anthraquinone

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