DOCSLIB.ORG

A Novel Unit Operation to Remove Hydrophobic Contaminants

Total Page:16

File Type:pdf, Size:1020Kb

Download full-text PDF Read full-text

Load more

Energy Efficient Paper Recycling contaminants, form bubbles that float to A Novel Unit the surface, and the foam containing the Operation particles can be selectively removed. to Remove Benefits for Our Industry Hydrophobic and Our Nation Broad use of the BNP in U.S. paper mills Contaminants could significantly improve papermaking machine productivity and product quality. Bubble Nucleation Process separates Key benefits include the following: and removes stickies and pitch in pa- permaking operations • Stickies and pitch-related problems result in paper machine downtime, lost production, and product quality issues. Recovered paper entering paper recycling BNP use could significantly reduce the mills contain hydrophobic contaminants costs of papermaking from recovered called “stickies” that significantly paper. hinder paper making productivity. These • The potential energy savings is contaminants are pressure sensitive estimated to be 7 Trillion Btu per year adhesives (PSA), wax, polyvinyl acetate, if all U.S. recycling mills implement and plastics found in recycled paper. The the BNP. sources of these contaminants include ad- dress labels, postage stamps, envelopes, • BNP could eliminate the use of book bindings, and binders used in inks polluting chemical solvents and high and coatings. pressure showers used to clean deposits from wires and felts in papermaking Hydrophobic contaminants from a brown Stickies and pitch (resins from wood) stock mill water sample floating near the machines. Other environmental benefits accumulate in the pulp white water surface of the Bubble Nucleation Process include a reduction in water consump- and eventually agglomerate and form Tube. Photograph courtesy of Doshi & tion and sludge production. deposits on papermaking machine rolls, Associates, Inc. and the USDA Forest Products Laboratory wires, felts and dryer surfaces. Expensive • An economical means to remove stick- chemicals to coagulate particles, screens, ies could lead to increased recovery of white water and provide a visual online and other processes used today are not paper by U.S. paper mills. It could also very effective at removing particles less warning of the build of hydrophobic reduce the volume of rejected contami- particles. A commercial VAF unit could than 100 microns in size. Periodically, nated paper products. the paper machine has to be shut down to be useful to many paper mills, increasing remove the deposits with toxic cleaning the efficiency and competitiveness of the solvents. In addition, residual stickies Applications in Our U.S. paper industry. cause holes in paper boards and tissue, Nation’s Industry reduced paper quality, and problems in BNP could offer significant advan- Project Description the machines that print on the paper. tages over other methods and flotation Project partners will develop a novel unit processes used commercially today to operation, BNP, to selectively agglomer- This project will develop a new unit remove hydrophobic contaminants (e.g., ate pitch and stickies particles without the operation called Bubble Nucleation dissolved air flotation (DAF), dispersed use of any toxic chemicals (thus reducing Process (BNP) to remove hydrophobic air flotation or froth flotation, cavitation costs and the environmental footprint of contaminants from paper mill process air flotation, electro-flotation, centrifugal this process). Researchers will design streams without the use of expensive flotation). BNP does not have many mov- and build both a batch and a continuous chemicals. When the pressure is reduced ing parts so it should be relatively easy unit for laboratory testing and mill trials. to the slurry containing fibers, water, to install and operate. A small scale unit Diverse parameters will be evaluated to and hydrophobic contaminants, dis- could be used to monitor paper machine calibrate the magnitude and duration of solved gas nucleate on the hydrophobic ADVANCED MANUFACTURING OFFICE ADVANCED MANUFACTURING OFFICE vacuum, retention time in the vessel, and dissolved gases (air, carbon dioxide and Project Partners the flow rate to maximize agglomeration others), and fiber content. Doshi & Associates, Inc. and removal of hydrophobic particles. Appleton, WI Results will be used to design a com- Results will be used to design and Principal Investigator: Mahendra Doshi mercial unit that will be useful for many operate a continuous laboratory-scale Email: [email protected] paper mills as well as other manufactur- unit. Removal efficiency will be tested extensively on standardized synthetic ing processes requiring the removal of USDA Forest Products Laboratory process water samples and mill samples. hydrophobic contaminants. Outcomes Madison, WI will be characterized in terms of stick- A pilot-scale unit with proper process controls will be constructed and installed ies removal efficiency (SRE) and paper For additional information, reject ratio. The removal target is 80% at a mill to automate the unit to the of hydrophobic particles in the synthetic extent possible and verify performance, please contact process water and 60% in the industrial including maximizing agglomeration and David R. Forrest process water. separation of micro stickies and other U.S. Department of Energy hydrophobic contaminants. A commercial Advanced Manufacturing Office Phone: Barriers unit will be designed to demonstrate (202) 586-5725 • Many different types of hydrophobic performance at scale Email: [email protected] contaminants exist and the concentra- Milestones tion in the pulp white water entering the papermaking machine varies. This two-year project began in April 2015. • Dissolved air and carbon dioxide in • Construct a laboratory-scale batch the process water hinders paper quality BNP unit and complete testing of by interfering with good fiber-fiber mill samples at optimized conditions bonding and may also lead to pin holes (Completed). in the finished sheet of paper. • Design, construct, and test a • The presence of fibers in the process laboratory-scale continuous BNP unit water complicates the measurement of (Completed). stickies. • Design, construct, and test a pilot- • Determining the amount of process wa- scale continuous BNP unit achieving ter that needs to be treated to enable the contaminant removal targets (2016). smooth operation of a paper machine. Commercialization • The amount of acceptable stickies The continuous pilot-scale unit will be in the paper depends on the type of built and operated at the USDA Forest product. Products Laboratory in compliance Pathways with U.S. mill regulations and needs. Commercial vendors will be invited to A batch BNP unit will be built to the mill to observe the operating BNP demonstrate the vacuum design, stick- unit. Results will be used to design a ies removal in the float separator, and full-scale commercial unit that is ap- the remaining water. To determine the plicable to many paper mills as well as specifications for optimal performance, other manufacturing processes requiring experiments and statistical analysis will the removal of hydrophobic contaminants be conducted to evaluate the effect and from water streams. interaction of the following parameters: temperature, magnitude of vacuum, time, pH, filler (clay and calcium carbonate), bicarbonate concentration, turbidity, For more information, visit: manufacturing.energy.gov DOE/EE-1264 • April 2016.
Recommended publications
  • Mountain Pine Beetle-Attacked Lodgepole Pine for Pulp and Papermaking

    Mountain Pine Beetle-Attacked Lodgepole Pine for Pulp and Papermaking

    Operational extractives management from- mountain pine beetle-attacked lodgepole pine for pulp and papermaking Larry Allen and Vic Uloth Mountain Pine Beetle Working Paper 2007-15 Natural Resources Canada, Canadian Forest Service, Pacific Forestry Centre, 506 West Burnside Road, Victoria, BC V8Z 1M5 (250) 363-0600 • cfs.nrcan.gc.ca/regions/pfc Natural Resources Ressources naturelles Canada Canada Canadian Forest Service canadien Service des forêts Operational extractives management from mountain pine beetle-attacked lodgepole pine for pulp and papermaking Larry Allen and Vic Uloth Mountain Pine Beetle Initiative W orking Paper 2007œ15 Paprican 3800 W esbrook Mall Vancouver, B.C. V6S 2L9 Mountain Pine Beetle Initiative PO # 8.43 Natural Resources Canada Canadian Forest Service Pacific Forestry Centre 506 W est Burnside Road Victoria, British Columbia V8Z 1M5 Canada 2007 ≤ Her Majesty the Queen in Right of Canada 2007 Printed in Canada Library and Archives Canada Cataloguing in Publication Allen, Larry Operational extractives m anagem ent from m ountain pine beetle-attached lodgepole pine from pulp and paperm aking / Larry Allen and Vic Uloth. (Mountain Pine Beetle Initiative working paper 2007-15) "Mountain Pine Beetle Initiative, Canadian Forest Service". "MPBI Project # 8.43". "Paprican". Includes bibliographical references: p. Includes abstract in French. ISBN 978-0-662-46480-8 Cat. no.: Fo143-3/2007-15E 1. Pulping--British Colum bia--Quality control. 2. Pulping--Alberta--Quality control. 3. Paper m ills-- Econom ic aspects--British Colum bia. 4. Pulp m ills--Econom ic aspects--Alberta. 5. Lodgepole pine--Diseases and pests–Econom ic aspects. 6. Mountain pine beetle--Econom ic aspects.
  • Corrugated Board Structure: a Review M.C

    Corrugated Board Structure: a Review M.C

    ISSN: 2395-3594 IJAET International Journal of Application of Engineering and Technology Vol-2 No.-3 Corrugated Board Structure: A Review M.C. Kaushal1, V.K.Sirohiya2 and R.K.Rathore3 1 2 Assistant Prof. Mechanical Engineering Department, Gwalior Institute of Information Technology,Gwalior, Assistant Prof. Mechanical Engineering 3 Departments, Gwalior Engineering College, Gwalior, M. Tech students Maharanapratap College of Technology, Gwalior, [email protected] [email protected] [email protected] ABSTRACT Corrugated board is widely used in the packing industry. The main advantages are lightness, recyclability and low cost. This makes the material the best choice to produce containers devoted to the shipping of goods. Furthermore examples of structure design based on corrugated boards can be found in different fields. Structural analysis of paperboard components is a crucial topic in the design of containers. It is required to investigate their strength properties because they have to protect the goods contained from lateral crushing and compression loads due to stacking. However in this paper complete and detailed information are presented. Keywords: - corrugated boards, recyclability, compression loads. Smaller flutes offer printability advantages as well as I. INTRODUCTION structural advantages for retail packaging. Corrugated board is essentially a paper sandwich consisting of corrugated medium layered between inside II. HISTORY and outside linerboard. On the production side, corrugated In 1856 the first known corrugated material was patented is a sub-category of the paperboard industry, which is a for sweatband lining in top hats. During the following four sub-category of the paper industry, which is a sub-category decades other forms of corrugated material were used as of the forest products industry.
  • Paper Machine System Diagram

    Paper Machine System Diagram

    TMEIC Corporation Paper Machine System Diagram Paper Machine One-Line Press Section Head Box Forming Section Calender Dryer Size Reel Sections Press Driven roll Mechanical Components of Paper Associated Drive Control Concepts Regenerative Machine Drives Head Box / Fan Pump Fan pump drive control is typical for No The Paper stock at this point in the process is industrial pump loads. Variable 99% water and 1% fiber. The Fan Pump torque is required, increased speed forces the Paper stock through a set of means increased flow. nozzles in the head box onto the “wire” mesh. The fan pump speed is a major factor in the basis weight (caliper) and formation of the sheet of paper. Forming Section Forming section drives have a high No A typical flat former is a continuous rotating friction load due to the suction wire (today this is plastic) mesh that removes (normal forces) of the water through water from the paper by sucking it out of the wire mesh. This results in a high suspension. Multi-layer paper machines and normal running load, but a low paper board machines include additional acceleration load. forming sections (one forming section for each layer of paper). Press Section Press section drives also have a high No Rolls are nipped (pressed) together to load due to the strong forces in the nip squeeze the water out of the sheet of paper. between the rolls deforming the felts Multiple rolls are used with a felt (blanket) and roll. This results in a high normal supporting the sheet and accepting the water running load, but a low acceleration from the sheet.

  • Making Paper from Trees

    Making Paper from Trees Forest Service U.S. Department of Agriculture FS-2 MAKING PAPER FROM TREES Paper has been a key factor in the progress of civilization, especially during the past 100 years. Paper is indispensable in our daily life for many purposes. It conveys a fantastic variety and volume of messages and information of all kinds via its use in printing and writing-personal and business letters, newspapers, pamphlets, posters, magazines, mail order catalogs, telephone directories, comic books, school books, novels, etc. It is difficult to imagine the modern world without paper. Paper is used to wrap packages. It is also used to make containers for shipping goods ranging from food and drugs to clothing and machinery. We use it as wrappers or containers for milk, ice cream, bread, butter, meat, fruits, cereals, vegetables, potato chips, and candy; to carry our food and department store purchases home in; for paper towels, cellophane, paper handkerchiefs and sanitary tissues; for our notebooks, coloring books, blotting paper, memo pads, holiday greeting and other “special occasion’’ cards, playing cards, library index cards; for the toy hats, crepe paper decorations, paper napkins, paper cups, plates, spoons, and forks for our parties. Paper is used in building our homes and schools-in the form of roofing paper, and as paperboard- heavy, compressed product made from wood pulp-which is used for walls and partitions, and in such products as furniture. Paper is also used in linerboard, “cardboard,” and similar containers. Wood pulp is the principal fibrous raw material from which paper is made, and over half of the wood cut in this country winds up in some form of paper products.
  • Make Your Own Paper Students Investigate the Papermaking Process by Trying It Themselves

    Make Your Own Paper Students Investigate the Papermaking Process by Trying It Themselves

    Make Your Own Paper Students investigate the papermaking process by trying it themselves. Students are Activity thrilled to find that they can make paper and that their product is practical, as well as beautiful. See the PLT website, www.plt.org, to watch a video of the paper-making 51 process used in this activity. Levels OBJECTIVE ASSESSMENT OPPORTUNITIES Grades 1-8 Subjects n Students will describe the steps of the paper- n Ask younger students to write the directions Science, Social Studies, making process and identify the elements and for making paper on the piece of recycled paper Language Arts, Visual Arts outputs of the process. that they made. n Concepts Have students use concept mapping, graphics software, or write a script for a n By reducing waste and recy- video that explains the papermaking process. cling materials, individuals and societies can extend the value and utility of resources and can promote environ- mental quality. (2.7) The process begins when trees, grown BACKGROUND Skills especially for papermaking, are harvested Observing, Organizing and transported to a paper mill. At the Information, Comparing and Paper is a simple material. It is essentially mill, large machines strip away bark and Contrasting a mat held together by a fiber’s rough- shred the logs into millions of chips the ness, and can be made from almost any size of breakfast cereal. The wood chips fibrous material such as cotton, hemp, travel on conveyors to gigantic “pulp Higher Order Thinking, Paired/ flax, wood or recycled paper. And yet, this Cooperative Learning, Realia/ cookers,” where chemicals and steam are Hands-on Learning simple product has a tremendous effect added.
  • Pulp & Paper News

    Pulp & Paper News

    Pulp & Paper 21 Perspectives in Liquid Process Analytics News INGOLD Leading Process Analytics Streamline Your Processes with the New iSense Software Intelligent Sensor Management (ISM®) technology is helping pulp and paper mills the world over to increase process reliability, reduce sensor lifecycle costs, and simplify sensor handling. With the new iSense software for ISM sensors, realizing the benefits of digital sensor technology is easier than ever. Significant benefits lytical equipment the more efficient will Analytical measurements are going digi- be your processes. tal. The advantages offered by the latest, cutting-edge in-line sensors and transmit- iSense, the accompanying software for ters, such as greater process quality and ISM, streamlines all your sensor activities. yield, reduced sensor maintenance, and It provides highly valuable features such simplified sensor handling, are hard to as sensor calibration away from the pro- ignore. cess, electronic documentation, instant evaluation of a sensorʼs “health”, and ISM, METTLER TOLEDOʼs digital sensor predictive information on when mainte- technology, has transformed the way ana- nance will be required. The latest version lytical sensors are handled and main- of iSense enables seamless management tained from first installation to end of life. of ISM sensors and delivers exceptional ISM offers a level of performance and usability. convenience that is not available with other systems. It is easier with iSense Spending hours learning new software is Convenience is the key a costly use of operator time, so we have Whether in production or in the lab, the made iSense extremely intuitive to greater the convenience provided by ana- operate. For a new sensor, just connect the Blue- tooth® communicator supplied with the software.
  • Paper History

    Paper History

    Volume 14, Year 2010, Issue 1 PAPER HISTORY Journal of the International Association of Paper Historians Zeitschrift der Internationalen Arbeitsgemeinschaft der Papierhistoriker Revue de l’Association Internationale des Historiens du Papier ISSN 0250-8338 www.paperhistory.org PAPER HISTORY, Volume 14, Year 2010, Issue 1 International Association of Paper Historians Contents / Inhalt / Contenu Internationale Arbeitsgemeinschaft der Papierhistoriker Letter from the President May 2010 3 Lettre de la présidente de l’IPH – may 2010 3 Association Internationale des Historiens du Papier Brief der IPH-Präsidentin, Mai 2010 4 Important plan for the reco-very of several papermills on the Amalfi Coast 5 Pulp and Paper on Stamps 8 Le congrès à Angoulême 16 IPH Assemblée générale, Angoulême (France), 9 octobre, 2010 17 Information from delegates 20 General information 23 Orbituaries 24 Guidelines for authors 26 Editor Anna-Grethe Rischel Complete your paper historical library now! Denmark Ergänzen Sie jetzt Ihre papierhistorische Co-editors IPH-Delegates Bibliothek! Maria Del Carmen Hidalgo Brinquis Completez aujourd’hui votre bibliothèque de Spain l’Histoire du papier! 27 Dr. Claire Bustarret France Prof. Dr. Alan Crocker United Kingdom Dr. Józef Dąbrowski Poland Jos De Gelas Belgium Deadline for contributions each year 15. March and 15. September Elaine Koretsky USA Paola Munafò Italy President Anna-Grethe Rischel Dr. Henk J. Porck Präsident Stenhøjgaardsvej 57 The Netherlands President DK - 3460 Birkerød Prof. Dr. Gottfried Schweizer Denmark Austria tel + 45 45 816803 [email protected] Prof. Dr. Tomas Stohr Venezuela Secretary Dr. Sabine Schachtner Göran Wohlfahrt Sekretariat LVR-Industriemuseum Sweden Secrétaire Papiermühle Alte Dombach Lay-out Karen Borchersen D- 51465 Bergisch Gladbach The School of Conservation Germany Esplanaden 34 tel + 49 2202 936880 DK – 1263 Copenhagen K [email protected] Denmark [email protected] Treasurer Alphonse Radermecker Printer Prinfo Paritas Printcenter Kassier Hochstr.
  • Changes in Print Paper During the 19Th Century

    Changes in Print Paper During the 19Th Century

    Purdue University Purdue e-Pubs Charleston Library Conference Changes in Print Paper During the 19th Century AJ Valente Paper Antiquities, [email protected] Follow this and additional works at: https://docs.lib.purdue.edu/charleston An indexed, print copy of the Proceedings is also available for purchase at: http://www.thepress.purdue.edu/series/charleston. You may also be interested in the new series, Charleston Insights in Library, Archival, and Information Sciences. Find out more at: http://www.thepress.purdue.edu/series/charleston-insights-library-archival- and-information-sciences. AJ Valente, "Changes in Print Paper During the 19th Century" (2010). Proceedings of the Charleston Library Conference. http://dx.doi.org/10.5703/1288284314836 This document has been made available through Purdue e-Pubs, a service of the Purdue University Libraries. Please contact [email protected] for additional information. CHANGES IN PRINT PAPER DURING THE 19TH CENTURY AJ Valente, ([email protected]), President, Paper Antiquities When the first paper mill in America, the Rittenhouse Mill, was built, Western European nations and city-states had been making paper from linen rags for nearly five hundred years. In a poem written about the Rittenhouse Mill in 1696 by John Holme it is said, “Kind friend, when they old shift is rent, Let it to the paper mill be sent.” Today we look back and can’t remember a time when paper wasn’t made from wood-pulp. Seems that somewhere along the way everything changed, and in that respect the 19th Century holds a unique place in history. The basic kinds of paper made during the 1800s were rag, straw, manila, and wood pulp.
  • Tall Oil Soap Recovery TAPPI Kraft Recovery Short Course

    Tall Oil Soap Recovery TAPPI Kraft Recovery Short Course

    Tall Oil Soap Recovery TAPPI Kraft Recovery Short Course C.D. Foran, Arizona Chemical Co., Savannah GA Slide 1 Tall oil soap is a mixture of the sodium salts of rosin acids, fatty acids and neutrals that separates from kraft black liquor. Composition of Crude Tall Oil Northern New Southern USA & Zealand & USA Canada Scandinavia Chile Acid Number 165 135 132 158 Resin Acids % 41 30 23 43 Fatty Acids % 51 55 57 40 Neutrals % 8 15 20 14 1 Slide 2 How Much Tall Oil Can Be Recovered ? Soap Recovery Tall Oil Tall Oil 52 26 51 25.5 kg/1000 kg lb/ ODT Region 50 25 OD Wood Wood 49 24.5 Piedmont 24 48 48 24 47 23.5 kg CTO/ODt Pine Wood Pine CTO/ODt kg Coastal 26 52 Lb. CTO/ODT Pine Wood46 23 45 22.5 Canada 11.5 23 Jan Feb Mar Apr May Jun Jul Aug Sep Oct Nov Dec Average Southwestern 31.5 63 Impact of Storage Time on West of 7.5 15 Tall Oil Loss 100% Cascades 80% 60% NZ & Chile 12 24 40% Tall Oil Loss Tall Finland 18.5 37 20% 0% 0 2 4 6 8 10 12 14 16 18 20 22 24 26 28 Sweden 25 50 Storage Time (weeks) Outside Chips Roundwood Chips Slide 3 Why Should Tall Oil Soap Be Recovered ? •To improve pulp and paper mill operations •To reduce the toxicity of pulp mill effluents, •To reduce accidents due to slips and falls. •To increase mill revenue 2 Slide 4 Tall Oil Soap Should Be Recovered To Improve Pulp and Paper Mill Operations : Impact of Improved Soap Removal on Evaporator Overall Heat Transfer 1.
  • Paper Technology Journal

    Paper Technology Journal

    Paper Technology Journal News from the Divisions: CompactPulper – the new generation of Voith broke pulpers. The success story of Shandong Huatai Paper and Voith Paper keeps on rolling. Adolf Jass, Germany – complete production line for packaging papers. PrintFlex P – development of a new press fabric concept. Paper Culture: 17 Japanese Paper Blossoms Anew. Contents EDITORIAL Title page: Foreword 1 Traditional production Mixed Tropical Hardwood – of Japanese Paper. a minor and declining source of fibre for paper 2 NEWS FROM THE DIVISIONS Fiber Systems: CompactPulper – the new generation of Voith broke pulpers 7 Fiber Systems: Rejects and residue disposal from recycled fiber plants – Europe as the pioneer in rejects handling systems 10 Paper Machines: The success story of Shandong Huatai Paper and Voith Paper keeps on rolling 15 Finishing: China’s first Twister – automated paper roll wrapping par excellence 20 Trade fair and more... Voith Paper demonstrates its technological competence and close relationship with customers 23 Paper Machines: Kimberly PM 96 – position for lang-term competitiveness 26 Paper Machines: NipcoFlex and TissueFlex – Shoe press technology for the dewatering of all paper grades 28 Paper Machines: Hengfeng PM 12 – new quality benchmark for cigarette paper 32 Paper Machines: Adolf Jass Paper Mill, Schwarza, Germany – another complete production line for packaging papers 36 Paper Machines: Zülpich PM 6 – still one of the most productive paper machines for Testliner and Corrugating Medium 39 Finishing: Excellent threading
  • Recycling Evaluation of Newly Developed Environmentally Benign Pressure Sensitive Adhesive for Postage Applications

    Recycling Evaluation of Newly Developed Environmentally Benign Pressure Sensitive Adhesive for Postage Applications

    Recycling Evaluation of Newly Developed Environmentally Benign Pressure Sensitive Adhesive for Postage Applications Said Abubakr USDA Forest Service Forest Products Laboratory Madison, Wisconsin, USA Joe Peng United States Postal Service Washington, DC, USA Abstract The main objective of the United States Postal Service’s (USPS) program for environmentally benign pressure sensitive adhesive (PSA) is to develop postage stamp adhesives that do not adversely affect the environment. The goal is to develop PSA stamp products that can be successfully recycled into fine paper products in a typical recycling facility. This paper describes the development of the final specification and approved product list for PSA stamp production. Environmentally benign PSAs are a form of adhesive that places no significant additional burden on plants that are using recycled fiber. As a result of an initiative by the USPS, a team has been working cooperatively to help solve the problem of PSAs not being recyclable in recovered paper. The team consists of the USPS; the USDA Forest Service, Forest Products Laboratory (FPL); Springborn Testing and Research (STR); and industry representatives. Industry members include papermakers, paper recyclers, paper collectors, equipment manufacturers, and adhesive and chemical suppliers. The team’s goal is to work with industry to develop environmentally benign PSAs for postal applications that will fulfill both USPS specifications and be compatible with the USPS environmental strategic plan and will place no additional burdens on plants that use recycled fiber. In 1995, the USPS sponsored a conference to which the adhesive industry was invited to participate in the USPS Environmentally Benign Pressure Sensitive Adhesives for Postage Stamp Applications Program.
  • Resin Profile in a Bleached Kraft Pulp Process

    Resin Profile in a Bleached Kraft Pulp Process

    Resin Profile in a Bleached Kraft Pulp Process Jennie Berglund May 2012 Degree Project in Polymeric Materials, First Level Department of Fibre and Polymer Technology Royal Institute of Technology Stockholm, Sweden Abstract The aim with this project was to investigate how the amount and composition of resins varied during the process producing bleached birch pulp at the mill SCA Packaging Munksund. A literature study about how the resin removal can be improved has also been included. Problems with resins in the process are common at pulp and paper mills, especially when birch is used as a raw material. The resin can cause deposits on the equipment leading to process stops, but also lowered mechanical properties and spots on the paper products. The addition of tall oil to the digester is one way of improving the removal of resins, seasoning of wood, and a good debarking are other ones. Also the different washing and bleaching steps can affect the amount of resin remaining in the pulp. In this study pulp samples from eight different positions in the process were analyzed. To extract the samples a Soxtec device was used. Results showed that the most effective resin removal happened during the washing in their first washing step after the digester, a DD-washer. Here 77 % of the resin was removed, of totally 88 % during the whole process. Another step which was effective was the final washing step, the PO-press. About 36 % of the remaining resins in the pulp which entered the PO-press were washed out here. The extracts were analyzed with GC-FID and GC-MS to identify and quantify the substances, and determine how the composition varied over the manufacturing process.