Classifications

• • D—TEXTILES; PAPER
  • D21—PAPER-MAKING; PRODUCTION OF CELLULOSE
  • D21C—PRODUCTION OF CELLULOSE BY REMOVING NON-CELLULOSE SUBSTANCES FROM CELLULOSE-CONTAINING MATERIALS; REGENERATION OF PULPING LIQUORS; APPARATUS THEREFOR
  • D21C3/00—Pulping cellulose-containing materials
  • D21C3/04—Pulping cellulose-containing materials with acids, acid salts or acid anhydrides
  • D21C3/06—Pulping cellulose-containing materials with acids, acid salts or acid anhydrides sulfur dioxide; sulfurous acid; bisulfites sulfites
• • D—TEXTILES; PAPER
  • D21—PAPER-MAKING; PRODUCTION OF CELLULOSE
  • D21C—PRODUCTION OF CELLULOSE BY REMOVING NON-CELLULOSE SUBSTANCES FROM CELLULOSE-CONTAINING MATERIALS; REGENERATION OF PULPING LIQUORS; APPARATUS THEREFOR
  • D21C5/00—Other processes for obtaining cellulose, e.g. cooking cotton linters ; Processes characterised by the choice of cellulose-containing starting materials
  • D21C5/02—Working-up waste paper
• • Y—GENERAL 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
  • Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
  • Y02W—CLIMATE CHANGE MITIGATION TECHNOLOGIES RELATED TO WASTEWATER TREATMENT OR WASTE MANAGEMENT
  • Y02W30/00—Technologies for solid waste management
  • Y02W30/50—Reuse, recycling or recovery technologies
  • Y02W30/64—Paper recycling

Definitions

• the present invention relates to a process for the production of a cellulosic pulp useful for the manufacture of paper and paperboard. More in particular, the invention is concerned with a process which enables the recycling of various waste cellulosic materials, such as used and prin- ted or unprinted newspaper, graphic paper and board, waste packaging and corrugated paperboard materials, for the production of a cellulose fiber pulp suitable as the sole fiber component or in admixture with virgin pulp in the production of paper and paperboard.
• waste cellulosic materials such as used and prin- ted or unprinted newspaper, graphic paper and board, waste packaging and corrugated paperboard materials
• Fibers which are recovered using the techniques de ⁇ scribed above are often, as far as strength and optical properties are concerned, severely inferior to virgin pulp fibers and can generally only be used in admixture with high-quality virgin fibers in the production of paper pro ⁇ ducts. Furthermore, the said recycled deinked fibers can cause serious production failures on the paper/board machine in the form of sticky, thermoplastic residues; insufficient fiber-length; microbiological infection of the paper machine's white-water system; entrapment of foreign materials such as metal shavings, paper clips, etc. Paper products manufactured using a high percentage of the said recycled fibers are generally lower in bright- ness, dirtier in the way of specks and less uniform in formation (see-through) than their virgin fiber-based counterparts. It would therefore be difficult to market such papers as high-quality fine-papers.
• the main object of the invention is to provide a pro- cess for the production of a cellulosic pulp using as a starting material waste cellulosic materials, such as printed or unprinted papers e.g. newspaper, tissue, coated or uncoated paper and paperboard, packaging paper- /paperboard including corrugated paperboard, solid fiber- board, millbroke, chipboard, sawmill waste etc. or blends of any of these cellulosic materials in appropriate pro- portions.
• waste cellulosic materials such as printed or unprinted papers e.g. newspaper, tissue, coated or uncoated paper and paperboard, packaging paper- /paperboard including corrugated paperboard, solid fiber- board, millbroke, chipboard, sawmill waste etc. or blends of any of these cellulosic materials in appropriate pro- portions.
• Another object of the invention is to provide a pro ⁇ cess for the manufacture of bleached or unbleached recyc ⁇ led pulp, which can be used in admixture with or as the sole pulp component in the production of paper and paper- board.
• a pro ⁇ cess for the manufacture of bleached or unbleached recyc ⁇ led pulp which can be used in admixture with or as the sole pulp component in the production of paper and paper- board.
• writings and printings newspaper, tissue, packagings, uncoated graphics, coated graphics, etc.
• a further object of the invention is to provide a process, wherein energy and chemical values can be reco- vered and reused within the process and wherein any sur ⁇ plus energy resulting from the process is converted to heat energy to be used within the said process or e.g. as drying energy in for example an integrated papermill or the like.
• Yet another object of the invention is to provide a process for the production of a cellulosic fiber pulp which is practically void of any foreign organic substan ⁇ ces, such as printing ink carrier-vehicles, polymeric coatings, glues, pastes, etc.
• the present invention provides a process for the production of a cellulosic pulp useful for the manufacture of paper and paperboard, whether used in admixture with virgin pulp or as the sole pulp component.
• the process according to the invention involves the fol ⁇ lowing steps: a) digesting a waste cellulosic material in an aque ⁇ ous cooking liquor having a pH lower than about neutral and containing free and/or bound SO,, and a base; b) carrying out digestion with the exclusion of atmospheric oxygen at an elevated temperature, such as within the range about 120° to 160°C and at a corre- spondingly increased pressure; and c) recovering the resulting cellulosic pulp.
• waste cellulosic materials of any origin and in any blend is digested in a cooking liquor having a pH from acidic up to about neutral containing free and/or bound S0 2 and a base, such as bases involving magnesium, sodium, calcium or ammonium.
• a brownstock fiber pulp and spent liquor are produced.
• the cooking time depends on the com ⁇ position of the waste material and the cooking temperature used, the degree of delignification, retained hemicellu- lose, as well as the desired strength and optical proper- ties of the pulp and the cooking time may vary from be ⁇ tween about 1 and about 10 hours.
• pro ⁇ cess there is used as a star ⁇ ting material an admixture of a waste cellulosic material and raw wood in a suitable digestable form.
• raw wood is preferably of coniferous origin.
• the ratio between waste cellulosic material and raw wood in such admixture is not critical it is pre ⁇ ferred to operate within the range of from about 5 to about 90% by weight of raw wood. It is particularly pre ⁇ ferred that the raw wood constitutes a minor part of said admixture, i.e. constitutes less than about 50% of the ad ⁇ mixture. It is especially preferred that said admixture contains from about 10 to about 30% by weight of raw wood based on the total of raw wood and waste cellulosic mate ⁇ rial.
• raw wood to waste cellulosic material to be used as a starting material results in a cellulosic pulp, which is delignified to a higher degree at given process parameters than the same waste material without the wood chip addition.
• a kappa number of from about 10 to about 30 can be easily reached as compared to kappa numbers of from about 30 to about 60 without the addition of raw wood.
• the raw wood is preferably in the form of wood chips, although other materials are conceivable, such as ground wood or sawmill waste of different types, such as saw dust, shavings etc.
• the cellulosic pulp produced by the process according to the invention is, in a conventional manner, washed with water to produce brownstock pulp and a brownstock washing liquor, which contains organic substances formed during digestion, and inorganic chemicals, derived partly from the digestive raw-materials and partly from the cooking liquor.
• the washed brownstock can be used in the manufac ⁇ ture of paper products directly or is passed on to a bleaching facility, where bleaching with any or a combi- nation of bleaching substances commonly employed within the pulp industry for virgin-fiber pulp can be carried out.
• a major part of the brownstock washing liquor is con ⁇ centrated by evaporation to produce a concentrate contai- ning combustible organic substances and incombustible in ⁇ organic chemical values.
• the organic substances are com ⁇ busted to produce heat energy which is recovered, and the inorganic chemicals are recovered to produce new cooking liquor for the process.
• a minor amount of the cooking liquor or the brownstock washing li ⁇ quor can be recycled in the process instead of or in addi ⁇ tion to the added raw wood.
• This minor amount of liquor is preferably from about 1 to about 10% of the total amount thereof.
• the process according to the invention provides a waste-based cellulosic pulp which has been delignified to a kappa number lower than the mean kappa number of the blend of waste recyclable cellulose materials.
• the kappa number is preferably within the range of about 10 to about 30, which makes the pulp fully bleachable.
• the bleaching of the pulp produced constitutes an optional step.
• the present invention provides the possibility of producing a cellulosic pulp from cellulosic waste mate ⁇ rials, optionally in admixture with raw wood, in a single cooking operation.
• a cellulosic pulp from cellulosic waste mate ⁇ rials, optionally in admixture with raw wood, in a single cooking operation.
• the pulp is possible to use the pulp as the sole fiber- component in a wide variety of paper and paperboard grades ranging from tissue, through unbleached packagings to highly bleached speck-free fine papers.
• the optional step of bleaching the pulp kappa numbers below about 30 will generally result in a brightness of about 65 and substantially higher. It is particularly conceivable to obtain such good results by using an admixture with raw wood.
• the plant outlined in the drawing includes a pulper 1 for waste cellulosic material, further including a clea ⁇ ning unit 5 and a press 7.
• the plant also includes a reac ⁇ tor or digester 11, a pulp vessel 19, and knotscreen appa ⁇ ratus 14,15,17,18, a brownstock washer 20 and a fine screen apparatus 23 to 30.
• the plant also includes a reco ⁇ very system consisting of an evaporation plant 107 and a recovery boiler for a burning thickener liquor to produce steam that can be used in the process.
• a conduit 4 connects the pulper 1 with the cleaning unit 5 which is optional and a conduit 6 further connects to the press 7 wherein the solids content is increased to 25 to 30% depending on the quality of the starting materials.
• a conduit 8 recycles the excess of li ⁇ quor from press 7 to the pulper 1.
• the press 7 is connected with the reactor or digester 11. Wood chips and/or brownstock washing liquor is added to the re- actor or digester 11 through conduits 10 and 64, respec ⁇ tively.
• a conduit 101 connects any of the liquor vessels 94,96,98,100 with the digester or reactor 11 depending on the cooking liquor quality desired in the process and is used for filling up the reactor 11 with acid cooking li- quid before the cooking process is initiated.
• the cooking liquor is heated, preferably by indirect heating over a heat exchanger with steam, to an appropriate temperature, normally between 120 and 160°C, preferably 125 to 135°C.
• a conduit 66 connects the reactor 11 with the primary liquor vessel 67 and is used for dumping the cooking li- quor, thereby completing the digesting process.
• the pulp is slushed out of the reactor 11 to the brownstock vessel 12 with brownstock washing liquor (slush liquor) being taken from the slush liquor vessel 63 using conduit 64.
• a conduit 13 connects the brownstock vessel 12 with the primary and secondary knotscreens 14,15.
• the reject from the primary knotscreen 14 constitutes inject of the secondary knotscreen 15.
• the accept from the secondary screen 15 is collected in a vessel 17 for accept from the secondary screen and is in turn connected via a conduit 18 to the inject of the primary knotscreen 14.
• the conduit 16 carries the accept from the primary knotscreen 14 to the brownstock washer 19.
• the washwater used in the brownstock washer emerges from thickener 33 as an eluate, the connec ⁇ tion being indicated by conduit 71.
• the brownstock washer 19 is connected to a buffer vessel 21 connected to the primary fine screen 23 via conduit 22.
• Conduit 24 connects the primary fine screen 23 with the reject screen 25 from which the accept follows conduit 26 back to buffer vessel 21.
• the reject is taken to a deposit for further transpor- tation to another production unit.
• a conduit 27 carries the accept from the primary fine screen 23 to the buffer vessel 28, which is connected to the secondary fine screen 30 by conduit 29.
• the reject from the secondary fine screen 30 is passed over to the reject screen 25 via a conduit 31. After screening the pulp passes through an ⁇ other set of washing thickeners 33,39,41.
• the number of thickeners depends on how thorough the washing of the pulp need to be with a given amount of water determined by the evaporator capacity which is limiting for the amount of water used for washing.
• After washing and screening the pulp it can, if desi ⁇ red, be bleached in any bleaching sequence such as the se ⁇ quence P/E, P/E.
• Hydrogen peroxide and sodium hydroxide are added to the pulp in a frotapulper 43.
• the pulp and the chemical mix are transported through a steam mixer thereby heated to a temperature in the range of 65 to 90°C, preferably 75-85°C.
• the mixture descends from the steam mixer into a downstream tower 45, and after a re ⁇ tention time of 2 to 4 hours the pulp leaves the tower and is pumped to a filter 47, where it is washed.
• the pulp is diluted in slightly acidified water and pumped to a neutralization tower 49, at the end of which the pH is adjusted once again with S0 2 -water to ap ⁇ proximately pH 7.
• the neutralization tower 49 After the neutralization tower 49 the pulp is washed and dewatered on a filter 51.
• To the dewa ⁇ tered pulp another dose of hydrogen peroxide and sodium hydroxide is added and the pulp is pumped to bleaching tower 54.
• Brownstock washing liquor is pumped through a conduit 62 to a vessel called slush liquor vessel 63. Excess li ⁇ quid from this vessel is mixed with the primary liquor in the primary liquor vessel 67. The mixture of primary li ⁇ quor and brownstock washing liquor is termed thin liquor.
• the thin liquor is neutralized in a vessel 69, wherein it is mixed with magnesium oxide from the chemical recovery system. This neutralization has for an object to prevent volatile organic acids from evaporating in the evaporation plant 107.
• the neutralized thin liquor is concentrated in the evaporation plant to a dry solids content of 50 to 60%, preferably 56 to 60%.
• the concentrated liquor is cal ⁇ led thick liquor and is burned in the recovery boiler 86, thus generating about 2.3 to 2.9 tons of steam per ton of thick liquor.
• the main component is magnesium oxide.
• This magnesium oxide is washed in luke warm water to dissolve salts of sodium and potassium. After washing the magnesium oxide is mixed into hot water, where it reacts to form magnesium hydroxide which in turn is pumped into a gas absorption system wherein the sulfurdioxide-rich fluegases from the thick liquor combustion are washed with the mag- nesium hydroxide slurry thus forming new raw acid.
• This raw acid is pumped from the recovery plant 86 through a sedimentation tank 88, a sandfilter 90 and a heat exchang ⁇ er 92 into the raw acid vessel 94.
• the pressure in the raw acid vessel is close to atmospheric, whereas the pressure in the other vessels is higher than atmospheric. Excess gas from the reactor 11 enters in counterstream versus the acid into the acid vessels.
• Pulp as produced from Example 1 is bleached in a 2- stage P/EP/E bleaching sequence. Hydrogen peroxide dosage is 2% in stage 1 and 1% in stage 2. Bleaching time is 2.5 h in stage 1 and 3 h in stage 2 at a common temperature of 75°C. The bleached and washed pulp has a brightness of 46.9.
• Example 1 Commercial corrugated waste obtained according to Example 1 is cooked with an acidic cooking liquor as in Example 1, but the cooking time is increased to 7 hours at a temperatur of 128°C.
• the pulp has a kappa number of
• Pulp resulting from Example 3 bleached as in Example 2.
• the pulp has a brightness of 47.3.
• the waste used in Examples 1 and 3 is cooked with an acidic cooking liquor containing a total S0 2 of 80 g/1 and a mill combined S0 2 of 22 g/1, resulting in free S0 2 of 58 g/1.
• the pH-value is 1.5 and the cation (base) used is magnesium.
• Cooking is conducted for 4 hours at a tempera ⁇ ture of 128°C.
• the resulting pulp has a kappa number of 33.7, a brightness of 29.1 and a yield of 59.0%.
• Pulp as produced in Example 5 is bleached as in Exam ⁇ ples 2 and 4.
• the bleached pulp has a brightness of 46.2.
• a mixture of 50% commercial corrugated waste as per Example 1 and 50% spruce wood chips is cooked with an aci ⁇ dic cooking liquor according to Example 1. Cooking is con ⁇ ducted for 6 hours at a temperature of 128°C as in Example 1. The resulting pulp has a kappa number of 60.8, a brightness of 38.0 and a yield of 57.8%.
• Pulp produced from Example 7 is bleached as in Exam- pie 2.
• the bleached pulp has a brightness of 43.2.
• Example 7 The blend of 50% waste and 50% spruce wood chips as used in Example 7 is cooked with the cooking liquor de ⁇ scribed in Example 5. Cooking is conducted for 6 hours at a temperature of 128°C. The pulp has a kappa number of 24.3, a brightness of 39.7 and a yield of 48.7%.
• Example 9 The pulp as produced from Example 9 is bleached as in Example 2.
• the bleached pulp acquires a brightness of 73.6.
• Example 7 The blend of waste/wood chips described in Example 7 is cooked according to Example 5. The cooking is conducted for 7 hours at a temperature of 128°C. The pulp has a kap ⁇ pa number of 20.5, a brightness of 34.7 and a yield of 42.3%.
• Example 11 The pulp produced in Example 11 is bleached as de ⁇ scribed in Example 2. The pulp acquires a brightness of 75.7.
• the waste/wood chip mixture is altered from 50/50% as per Example 7 to 67% waste corrugated paperboard and 33% spruce wood chips.
• This mixture is cooked according to Example 11 with a cooking liquor according to Example 5.
• the pulp has a kappa number of 13.1, a brightness of 38.1 and a yield of 53.7%.
• Example 15 The pulp produced in Example 13 is subjected to bleaching according to Example 2. The pulp acquires a brightness of 71.4. EXAMPLE 15
• a mixture of 50% spruce wood chips, 25% waste corru ⁇ gated paperboard and 25% waste unsorted, printed newspaper is cooked according to Example 11 with a cooking liquor as in Example 5.
• the pulp has a kappa number of 13.9, a brightness of 44.7 and a yield of 37.6%.
• Example 15 The pulp produced in Example 15 is subjected to bleaching as per Example 2. The pulp acquires a brightness of 77.2.
• the mixture of raw materials according to Example 15 is supplemented with extra plastic materials (polyethylene and polyvinylchloride) and metal staples and shavings (iron, copper and bronze).
• This composition is cooked according to Example 11 with a cooking liquor according to Example 5.
• the metal contaminants are completely disinte- grated and the plastic materials form more or less large agglomerates, which can be screened away easily in the primary and secondary screening equipment commonly employ ⁇ ed in conventional cleaning technology.
• the kappa number of the pulp is 17.6, the brightness 42.8 and the yield 34.0% on total weighted fibrous material plus contami ⁇ nants.
• a mixture of 25% spruce wood ships, 37.5% waste cor- rugated paperboard and 37.5% waste assorted, printed news ⁇ paper is cooked according to Example 11 with a cooking liquor according to Example 5.
• the pulp has a kappa number of 10.7, a brightness of 70.2 and a yield of 38.1%.
• the pulp produced from Example 18 is bleached accor ⁇ ding to Example 2, 4, 6, 8, 10, 12, 14, 16 and 18.
• the pulp has a brightness of 70.2.
• the bleached pulp from Example 4 is formed into stan ⁇ dard hand-sheets according to SCAN-C 26:76 R and the fol ⁇ lowing strength properties are tested: tensile factor is 75 and tear factor is 6.8.
• the bleached pulp from Example 6 is tested according to Example 20.
• the tensile factor is 51 and the tear fac- tor 3.2.
• Example 12 The bleached pulp from Example 12 is tested according to Example 20.
• the tensile factor is 44 and the tear fac- tor 9.3.
• Example 16 The bleached pulp from Example 16 is tested according to Example 20.
• the tensile factor is 46 and the tear fac- tor 7.3.
• Example 19 The bleached pulp from Example 19 is tested according to Example 20.
• the tensile factor is 61 and the tear fac- tor 6.7.
• a commercial deinked waste-based pulp with a bright ⁇ ness of 54.4 is tested according to Example 20.
• the ten- sile factor is 42 and the tear factor 5.9.

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• 1993
  • 1993-05-28 SE SE9301834A patent/SE501309C2/sv unknown
• 1994
  • 1994-05-26 WO PCT/SE1994/000499 patent/WO1994028236A1/en not_active Application Discontinuation
  • 1994-05-26 CZ CZ953133A patent/CZ313395A3/cs unknown
  • 1994-05-26 AU AU69400/94A patent/AU6940094A/en not_active Abandoned
  • 1994-05-26 EP EP19940917858 patent/EP0704002A1/de not_active Ceased
• 1995
  • 1995-11-27 NO NO954820A patent/NO954820L/no unknown

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