paper > e-book Using Biotechnology to Enhance Performance in Pulp and Paper Production Processes this e-book examines the current and potential future use of biotechnology for enhancement of the various production and manufacturing processes involved in pulp and paper making, including the management of waste streams generated by the pulp and paper industries. www.Pira-intErnational.com Using Biotechnology to Enhance Performance in Pira Business Intelligence Pulp and Paper Production Processes The worldwide authority on the packaging, paper and print Piet Schenkelaars About viewing this ebook industry supply chains this document will attempt to open in Published by Established in 1930, Pira provides strategic and technical consulting, testing, full page viewing mode by default for Pira International Ltd intelligence and events to help clients gain market insights, identify opportunities, a more immersive reading experience cleeve road, evaluate product performance and manage compliance. we offer a wealth of and to maximize screen space. Press leatherhead experience, helping your business plan its strategy with confidence and crystallise the “esc” key at any time to return to Surrey Kt22 7rU business decisions. normal viewing mode and access the UK document viewing and navigation tools Services in your pdf reader. T +44 (0) 1372 802080 Pira Business intelligence provides high quality publications and bespoke F +44 (0) 1372 802079 consulting for clients across the major supply chains. with access to unique, E [email protected] proprietary databases on packaging, printing, paper and security technology W www.pira-international.com markets we can deliver the hard-to-find information you need. Research Pira International Ltd acknowledges product, service and company names referred to in this report, many of which are trade names, service marks, trademarks or registered trademarks. our ongoing research programmes with an established and extensive network the facts set out in this publication are obtained from sources which we believe to be reliable. However, we of worldwide experts, consultants and researchers in over 50 countries give accept no legal liability of any kind for the publication contents, nor any information contained therein nor us a headstart when sourcing technical and market intelligence. Pira Business conclusions drawn by any party from it. no part of this publication may be reproduced, stored in a retrieval intelligence sets the industry standard for establishing market sizes and forecasting system, or transmitted, in any form or by any means, electronic, mechanical, photocopying, recording or future developments. otherwise without the prior permission of the copyright owner. Business Support © copyright Pira international ltd 2011 You get high quality business support which is cost effective and when you need it, with an exceptional client retention record as a testament to our dedicated Publisher rav lally and thorough processes. Pira has a track-record of meeting and exceeding client [email protected] expectations. Head of editorial Pira Membership for Paper adam Page membership includes 3 conference places at each of our Paper events as well as [email protected] extensive access to our wide range of ebooks, journals, webinars and training modules. contact Paul Squires at +44 1372 80 2051 or Head of market research [email protected] for more information. nick waite [email protected] Find out more www.pira-international.com Head of US publishing charles E. Spear, Jr. Contact: Pira International Sales [email protected] Stephen Hill +44 (0)1372 802025 Customer services manager [email protected] Denise Davidson [email protected] t +44 (0)1372 802080 www.Pira-intErnational.com table of contents 3 4 Executive Summary Raw Materials and Production Processes Biotechnology Applications in Papermaking introduction introduction 1Introduction and Methodology Forest Biotechnology Enzymes in Fibre recycling objective and Scope 4 Propagation 4 refining and Drainage methodology 4 molecular markers, maS and ‘omics’ 4 De-inking Definitions 4 Genetic Engineering 4 Stickies control non-wood Feedstock for the Pulp and Paper industry Fibre modification 2 Biotechnology Developments for 4 Grass Fibres Biopolymer coatings Papermaking 4 Bast Fibres 4 Protein-based coatings introduction 4 leaf Fibres 4 Polysaccharide-based coatings overview of Biotechnology 4 Fruit Fibres 4 lipid and composite coatings 4 Platform Biotechnologies Enzymes in Pulping and Paper making Biotechnology Demand Drivers 4 Biotechnology in Primary Production 4 traditional Pulping Processes 5 4 Biotechnology in industrial Production 4 Biocatalysts for Pulping Future Trends 4 Bio-based Economy 4 Bio-pulping introduction overview of Biotechnology in Pulp and Papermaking 4 Pitch control Pulp and Paper mills and the Environment 4 Production of woody Biomass Feedstock for Pulp and 4 Bio-bleaching Pulp and Paper mills as Bio-refineries Papermaking control of microbial Fouling non-woody Biomass as Feedstock 4 Fibre, Pulp and Paper Processing the outlook for Biotechnology in Pulp and Paper 4 Bio-based materials 6 4 wastewater treatment References 4 Bio-refining List of Tables and Figures www.Pira-intErnational.com paper > e-book > using biotechnology to enhance performance in pulp and paper production processes Executive Summary the convention on Biological Diversity (1992) defines processing. notably, environmental and energy concerns are often ...biotechnological biotechnology as ‘any technological application that uses biological driving the use of white biotechnology across many industrial production processes systems, living organisms, or derivatives thereof, to make or to sectors, to not only remove pollutants from the environment but are inherently modify products or processes for specific use.’ this broad definition prevent pollution in the first place. Biocatalyst-based processes attractive because ensures that virtually all applications that might impact biological already play a major role in this context, as they generally operate they use the basic diversity are covered by the convention. it also allows a broad at lower temperatures, and produce less toxic waste and fewer renewable resources perspective on its present and future applications in the various emissions and by-products compared to conventional (physical-) production steps and manufacturing processes involved in pulp chemical processes. new biocatalysts with improved selectivity and of sunlight, water and papermaking, as this is essentially based on the production of enhanced performance for use in diverse manufacturing and waste and carbon dioxide woody and non-woody biomass-based fibres and their conversion degrading processes are steadily becoming available. moreover, to produce a wide into pulp and subsequently paper. biotechnological production processes are inherently attractive range of molecules because they use the basic renewable resources of sunlight, water using low-energy Since biotechnology can be applied in many different sectors and carbon dioxide to produce a wide range of molecules using processes. and for many different purposes, it can be useful to differentiate low-energy processes. between ‘green’ biotechnology for agriculture and forestry, ‘white’ biotechnology for industrial processes, waste management and soil at almost every step in current pulp and papermaking processes, remediation, ‘blue’ biotechnology for fishery and aquaculture and there are opportunities to apply biotechnology, starting with ‘red’ biotechnology for health-care applications. with respect to the production of woody and non-woody biomass feedstock for pulp and papermaking, a green biotechnologist’s perspective allows pulp and paper making, through fibre, pulp and (recycled) paper him to examine the use of biotechnology in forestry and agriculture processing and papermaking. for the production of woody and non-woody biomass fibres, while the lenses of a white biotechnologist help to focus on the use of through biotechnology and improved silviculture, trees and biotechnology in conversion of these biomass-derived fibres into other biomass-resources can be specifically tailored to match pulp and paper, as well as in management of (toxic) waste streams. the properties required in cellulose fibres for different product applications. this can increase useful paper yield from trees, in principle, green biotechnology provides novel opportunities for enhance product quality and decrease requirements for energy the breeding and growing of trees and crops that are more suitable and chemicals used in papermaking. Producing optimal fibres for for processing in food, feed, chemical, textile, pulp and paper and papermaking through genetic engineering of trees and certain other industries. and white biotechnology offers new tools for this plant species is one of the objectives. Significant advances have 4 CHAPTER ES 1 2 3 4 5 6 TOC www.pira-international.com paper > e-book > using biotechnology to enhance performance in pulp and paper production processes Executive Summary been made with genetic engineering of several tree species such the penetration of enzymatic processes in the pulp and paper as poplar, birch, larch, pine and spruce. traits included herbicide- industry is still modest, as is the empirical evidence from studies tolerance, insect-resistance and modified lignin and cellulose that compare recent enzymatic processes versus chemical processes. content. a second wave of traits being researched now includes Based on available quantitative and qualitative data, a recent secondary cell wall characteristics (improved pulpability, increased study suggested: 1) large relative environmental improvement cellulose content, better stability). potentials of enzyme use in bleaching and refining of pulp; 2) moderate relative improvement potentials in de-inking and control overall, hemp, flax, jute, sisal and abaca are among the most of pitch and stickies, and; 3) a considerable potential for the commonly used non-wood fibre sources used for manufacturing application of enzymes for peroxide removal, fibre modification, of high-quality pulps for specialty papers. other non-wood plant anionic trash control, starch removal, drainage improvement, starch species, like for example alfalfa in north america, hemp and flax in preparation for paper coating and slime control. Europe and acacia in Southeast asia, might also be promising as feedstock for papermaking. However, the processing procedures for in recent years, biopolymers have been the focus of much research these non-wood species have to be improved further, in particular because of the interest in their use as edible and biodegradable the knowledge of lignin composition in non-wood fibres are films and coating for food packaging. Biopolymers, like proteins, important for optimizing the pulping and bleaching processes. polysaccharides, lipids or combinations of those components, offer favorable environmental advantages of recyclability and the use of engineered micro-organisms and enzymes for reutilization compared to conventional, petroleum-based synthetic displacement of many of the environmentally adverse practices polymers. in addition, biopolymer-based films and coatings can act used in pulp processing and papermaking is another biotechnology as efficient vehicles for incorporating various additives, including objective. over the last two decades, numerous applications antimicrobials, antioxidants, colouring agents and nutrients. have been investigated for fungal and enzymatic treatment of pulp. these include modification of pulp properties, such as the pulp and paper industry has suffered from persistent low improved fibre flexibility and fibrillation, decreased vessel picking profitability in north america and Europe for many consecutive from tropical hardwood pulps, improved drainage in recycled years now. one strategy to combat this persistent lag has been fibres, specific removal of xylan for dissolving pulp manufacture, to intensify research & Development (r&D) efforts to identify facilitated bleaching of kraft pulp, enzymatic pulping of new products and entire new businesses, such as biofuels. For herbaceous fibres, enzymatic pitch removal, stickies control and the foreseeable future, the bulk of the industry’s revenues will facilitated contaminant removal from recycled fibres (de-inking). continue to be generated from traditional pulp, paper and board 5 CHAPTER ES 1 2 3 4 5 6 TOC www.pira-international.com paper > e-book > using biotechnology to enhance performance in pulp and paper production processes Executive Summary products. However, further advances of white biotechnology and the adoption of biocatalysts by the pulp and paper industry can help to enhance the economic and environmental performance of several processing steps as well as to develop new paper products. moreover, the bio-refinery concept offers a promising outlook for the pulp and paper industry to make use of fibres from both woody and non-woody biomass and to produce not only paper products but also biofuels and ‘green’ chemicals. TABLE 0.1 Biotechnology transition table, 2011 – 2021 6 CHAPTER ES 1 2 3 4 5 6 TOC www.pira-international.com paper > e-book > using biotechnology to enhance performance in pulp and paper production processes 1 Introduction and Methodology Objective and Scope many purposes, it can be useful to differentiate between ‘green’ in principle, green the objective of this report is to examine the current and potential biotechnology for agriculture and forestry, ‘white’ biotechnology biotechnology future use of biotechnology for enhancement of the various for industrial processes, waste management and soil remediation, provides novel production and manufacturing processes involved in pulp and ‘blue’ biotechnology for fishery and aquaculture and ‘red’ opportunities paper making, including the management of waste streams biotechnology for health-care applications. Yet, the boundaries for breeding and generated by the pulp and paper industries. between green, blue, white and red biotechnologies are not always growing of trees clear or obvious. For instance, the production of ‘red’ (sub-unit) over the years, many definitions have been provided for modern vaccines or ‘white’ molecules, such as enzymes or (monomers for) and crops that are biotechnology. in the broadest sense, biotechnology may be biopolymers, blur the boundaries between these green, red and more suitable for understood to include such traditional biology-based processes white biotechnologies. with respect to pulp and paper making, processing in food, as conventional plant and animal breeding and fermentation a green biotechnologist’s perspective allows him to examine the feed, chemical, for beer brewing, bread baking and cheese production. in the use of biotechnology in forestry and agriculture for the production textile, pulp and narrowest sense, biotechnology may be taken as a term describing of woody and non-woody biomass fibres, while the lenses of a paper and other molecular technologies applied for genetic modification of living white biotechnologist help to focus on the use of biotechnology in organisms. the convention on Biological Diversity (1992) defines conversion of these biomass-derived fibres into pulp and paper, as industries. biotechnology as ‘any technological application that uses biological well as in management of (toxic) waste streams. systems, living organisms, or derivatives thereof, to make or to modify products or processes for specific use.’ this broad definition in principle, green biotechnology provides novel opportunities for ensures that virtually all applications that might impact biological breeding and growing of trees and crops that are more suitable diversity are covered by the convention. for processing in food, feed, chemical, textile, pulp and paper and other industries. and white biotechnology offers new tools for this a broad definition of biotechnology also allows a broad perspective processing. notably, environmental and energy concerns are often on its present and potential future applications in the various driving the use of white biotechnology across many industrial production steps and manufacturing processes involved in pulp sectors, to not only remove pollutants from the environment but and papermaking, as this is essentially based on the production of prevent pollution in the first place. Biocatalyst-based processes woody and non-woody biomass-based fibres and their conversion already play a major role in this context, as they generally operate into pulp and subsequently paper. at lower temperatures, produce less toxic waste and fewer emissions and by-products compared to conventional physical- Since biotechnology can be applied in many sectors and for chemical processes. new biocatalysts with improved selectivity and 7 CHAPTER ES 1 2 3 4 5 6 TOC www.pira-international.com