Global ETD Search

51	The Effect of Calcium on Delignification in Kraft Cooking of Eucalyptus / Kalciums inverkan på delignifieringen i sulfatkok av Eucalyptus Senthilkumar, Eashwara Raju January 2019 (has links) Delignifiering under sulfat koket innefattar både kemisk nedbrytning och fysisk upplösning av lignin, för vilket närvaron av oorganiska salter, oorganiska anjoner samt oorganiska katjoner (sammantaget benämnda som "Non-process elements", NPEs på engelska) kan ha inverkan på delignifieringens hastighet. Tidigare studier har funnit att ved med högt kalciuminnehåll är svårdelignifierad och att kalcium har potentiell inverkan på ligninlöslighet och kappatal. Att avlägsna kalcium från ved är svårt, men vissa studier har visat att detta kan motverka ovannämnda2(4)inverkan och öka delignifieringen. Denna studie har studerat effekten av kalcium under delignifieringen på fyra prover av Eucalyptus dunnii tagna från olika marktyper, åldrar, kalciumhalt samt geografisk plats (i Uruguay). Målet har varit att undersöka kalciumets inverkan under delignifieringen och dess effekt på massautbytet. Fyra satser av vardera vedmat erial kokades i stålautoklaver med följande parametrar: 18 % effektiv alkali, 35 % sulfiditet, 1 h impregnering vid 110 °C, 2,75 h, 3 h, 3,25 h respektive 3,5 h koktider (för vardera sats) vid 145 °C. Provet med den högsta kalciumhalten om 4668 mg/kg kunde dock inte delignifieras, vare sig vid dessa kokparametrar eller vid en temperaturökning till 155 °C och en resulterande H-faktor på 735 enheter – motsvarande 7 h koktid vid 145 °C – och analyserades inte vidare i studien. Resultaten visar på en negativ effekt från kalcium avseende både delignifieringshastighet och utbyte: Eucalyptus med en lägre kalciumhalt på 705 mg/kg gav massa med kappatal 13 efter kokning, medan eucalyptus med 1500 mg/kg kalcium efter samma kokning gav massa med kappatal 17. Motsvarande utbyte för dessa massor var 48 % för provet med lägre kalciumhalt och 46 % för provet med högre kalciumhalt. Kvantifiering av modifierat kappa och uronsyror bekräftade att ovannämnda effekter inte berodde på inverkan från hexennuronsyra i massan. / Delignification during sulphate cooking involves both chemical degradation and physical solubilization of lignin where the presence of non-process elements (NPEs), inorganic salts, anions or cations in the process could affect the rate of delignification. Previous studies also indicate that wood with higher calcium content is challenging to delignify which would affect the lignin solubility and increase kappa number. Besides, the removal of calcium from Eucalyptus is difficult. However, some study suggests that removal of calcium before the process increases the rate of delignification. This work studies the effect of calcium in four Eucalyptus dunnii samples of different soil type, age, different calcium content and Uruguayan geographical areas during the delignification process. The aim is to study the influence of calcium during the delignification in kraft cooking and its effects on pulp yield in Eucalyptus dunnii. Four batches of each material were cooked in a steel autoclaves with the following parameters: 18% effective alkali, 35% sulphidity, 1 h impregnation at 110 ° C, 2.75 h, 3 h, 3.25 h and 3.5 h cooking times, respectively (for each batch) at 145 ° C. Besides, sample with Ca-4668 mg/kg were not able to defibrate at common cooking conditions and even after altering the cooking conditions to higher temperature 155℃, H-Factor to be 735 (cooking time of 7 hours) and were not analyzed further in the study. Results suggest that there is a detrimental influence of calcium on delignification during the kraft cooking process, and it also affects the pulp yield in Eucalyptus dunnii. Eucalyptus with a lower calcium content of 705 mg / kg gave pulp with kappa number 13 after cooking, while eucalyptus at 1500 mg / kg calcium after the same cooking time gave pulp with kappa number 17. Corresponding yield for these pulps were 48% for the lower calcium sample and 46% for the higher sample calcium content. A slower rate of delignification with higher kappa number and lower overall pulp yield are the results of higher calcium content in Eucalyptus dunnii. Quantification of modified kappa and uronic acids confirm that the effect of calcium on kappa is due to residual lignin and not by the presence of hexenuronic acids. Delignification Carbohydrates Lignin Yield Calcium Delignifiering Kolhydrater Lignin Utbyte Kalcium Paper, Pulp and Fiber Technology Pappers-, massa- och fiberteknik
52	Characterisation of herbicide behaviour in some innovative growing media : a thesis presented in partial fulfilment of the requirements for the degree of Doctor of Philosophy in Soil Science at Massey University, Palmerston North, New Zealand James, Trevor Kenneth January 2008 (has links) An abundance of waste products from the forestry industry (sawdust and paper pulp) lead to the concept of using them as growing media for high value crops on a field scale. However, management of subsequent weed growth posed a problem as the impact of these novel media on the performance and fate of herbicides was unknown. Three aspects of sawdust and paper pulp waste were examined and compared to two cropping soils, viz. their effect on herbicide behaviour with regard to crop selectivity, weed control efficacy and the environmental fate of selected chemicals. Cropping species such as lettuce and onions were more susceptible to alachlor and chlorpropham in sawdust than in paper pulp. The two cropping soils evaluated (Horotiu sandy loam and Mangateretere silt loam) tended to be intermediate although the former was often close to the sawdust and the latter to the paper pulp in terms of herbicide phytotoxicity to the crop plants. For the less water soluble herbicide pendimethalin, the differences in crop selectivity in the different media were not significant. The effect of the media on the efficacy of weed control was evaluated through plant species with a much lower tolerance to the herbicides evaluated in contrast to the above species. For these plants the efficacy of the herbicides was generally lower in both the sawdust and paper pulp than in the two soils. The effect was more pronounced with the more soluble alachlor, where efficacy was reduced by factors of 5 – 10, compared to pendimethalin where efficacy reduction was by factors of 0 – 3. The two high organic media had contrasting effects on the various environmental behaviour indices evaluated. Herbicide adsorption as quantified by distribution coefficient (Kd) was higher in the two novel media compared to both the Horotiu and Mangateretere soils. However, when the Kd was normalised to organic carbon (Koc), there was less variation amongst the media indicating that organic matter is an important factor in controlling sorption in these media. However, despite the high level of adsorption in the sawdust, herbicides were most prone to leaching in this medium. Conversely the paper pulp tended to be more retentive while the two soils were intermediate. The degradation as quantified by half-lives (t½) of the herbicides was generally slower in the two novel media, probably reflecting the higher sorption in these two media but also due to the lower level of microbial activity in the sawdust and paper pulp. The study shows that herbicide behaviour in these carbon based media differs significantly from that expected from soil organic matter, mainly due to the non-humified nature of the organic matter in the media and its poor biological activity. herbicide phytotoxicity sawdust paper pulp pendimethalin alachlor chlorpropham
53	Cellulose-fiber-based thermal insulation materials with fungal resistance, improved water resistance and reaction-to-fire properties Zheng, Chao January 2017 (has links) Thermal insulation materials made from natural fibrous materials, such as cellulose fibers, have advantages over others from a sustainability point of view. However, cellulosic materials are generally prone to mold and absorb moisture, and these have negative effects on the insulation properties, the durability of insulation materials, and interior air quality. In this thesis, cellulose-fiber-based insulation foams were prepared from bleached chemithermomechanical softwood pulp, and these foams showed promising thermal insulation properties and fungal resistance. Hydrophobic extractives were isolated from birch (Betula verrucosa) outer bark and used to improve the water resistance of the foams, which were impregnated in solutions of extractives and then dried. The modified foams showed greater water resistance, and the modification had no negative effects on the thermal insulation, fungal resistance, and compressive strength of the foams. Another potential problem with low density cellulosic thermal insulation materials is their poor reaction-to-fire properties. Cellulose-fiber-based insulation foams were prepared from formulations containing bleached chemithermomechanical softwood pulp and commercial fire retardants to improve the reaction of the foams to fire. Single-flame source test results showed that the foams containing 20% expandable graphite (20% EG) or 25% synergetic (25% SY) fire retardant had significantly improved reaction-to-fire properties and passed class E, which reflected that they can resist a small flame attack without substantial flame spreading for a short period according to EN 13501-1. Compared with the reference without any fire retardant, the peak heat release rate (Peak-HRR) of the 20% EG and 25% SY decreased by 62% and 39% respectively when the samples were subjected to a radiance heat flow of 25 kW m-2 in a Cone Calorimeter. The thesis demonstrates that it is possible to produce cellulose-fiber-based insulation materials with improved properties in terms of fungal, improved water resistance and reaction-to-fire properties. / <p>QC 20170428</p> / Energy-efficient cellulosic insulation products/panels for green building solutions biorefinery birch bark cellulose reaction-to-fire properties fungal resistance thermal insulation water resistance Wood Science Trävetenskap Paper, Pulp and Fiber Technology Pappers-, massa- och fiberteknik
54	Development of an Image Processing Tool for Fluorescence Microscopy Analysis of Paper Chemistry Nyflött, Åsa January 2010 (has links) Paper making today is, to some extent, based on empirical knowledge. It is wellknown that fines, pH, charge and ion strength affect the manufacture of paper. One way of extending knowledge of the mechanisms of paper chemistry is to follow the trajectories of fines and additives in the paper suspension to gather information as to the manner in which they react. Four tracking algorithms adapted to the needs of this particular problem were implemented in order to track particles effciently. The tracking algorithms include two variants of the well-known "Lucas-Kanade algorithm" and template matching techniques based on cross-correlation and least squares matching. Although these techniques are similar in principle, the actual tracking can nevertheless differ; the Lucas-Kanade algorithms were found to be more invariant to noise, whereas the cross-correlation and least squares methods are more rapid to execute in Matlab. The tracking methods have been evaluated using a simulator to generate image sequences of synthetic particles moving according to Brownian motion. Tracking has also been evaluated on microscope images of real latex particles where the results have been compared to manual tracking. Tracking of both the simulated particles and the latex particles resulted in similar results when compared to known position and manual tracking, respectively. / Tillverkning av papper är till en viss del baserad på empirisk kunskap. Välkänt är att finmaterial, pH värde, laddning och jonstyrka påverkar de papperskemiska mekanismerna och därmed flertalet pappersegenskaper vid tillverkning av papper. En möjlighet att utveckla kunskaperna inom papperskemiska mekanismerar att studera finmaterial och additiv i en pappers suspension for att samla in informationom reaktionsmekanismer. Fyra trackningalgoritmer ar vidareutvecklade i syftet att möjliggöra studier kring papperskemiska mekanismer. Trackningalgoritmerna inkluderar två varianter av den välkända "Lucas-Kanade" algoritm och två template-baserade metoder: korskorrelation och minsta kvadratmetoden. Samtliga metoder bygger på samma princip, men trots detta kan resultaten från trackningen skilja mellan metoderna. Lucas-Kanade algoritmerna är mer oberoende av brus medan korskorrelationen och minsta kvadratmetoden exekveras snabbare i Matlab. Trackning metoderna utvärderades med hjälp av en simulator som genererar bildsekvenser av syntetiska partiklar med en Brownsk rörelse. Trackningen har även använts på mikroskopibilder av rörelsebanor på verkliga suspenderade latex partiklar, varvid trackningresultatet har jämförts med manuell trackning. De genererade bildsekvensernapa de simulerade partiklarna har kända rörelsebanor som är jämförbara med rörelsebanor for latex partiklarna. Other Engineering and Technologies Annan teknik Paper, Pulp and Fiber Technology Pappers-, massa- och fiberteknik Chemical Sciences Kemi
55	Modifications chimiques des hémicelluloses pour une application papetière / Hemicellulose cationisation and application in paper pulp Bigand, Virginie 04 November 2011 (has links) Dans les procédés classiques d'extraction de la cellulose pour la fabrication de la pâte à papier à partir de bois, les hémicelluloses sont dégradées et sont brûlées pour alimenter l'usine en énergie. En incluant une étape préalable d'extraction de ces polysaccharides, ils pourraient alors être réintroduits en aval du procédé, après cationisation, en tant qu'agent de renfort dans la pâte à papier. Dans ce travail, la cationisation de deux hémicelluloses modèles commerciales de type galactomannane et xylane a été effectuée par éthérification avec un époxyde cationique en solution aqueuse basique, avec des degrés de substitution de 0,1 à 1,3. Les paramètres prépondérants de la réaction sont la concentration des espèces et la quantité d'agent éthérifiant, tandis que la température et le temps de réaction influent principalement sur le rendement massique. Un plan d'expérience a permis de modéliser l'interaction entre les quantités de soude et d'époxyde et d'optimiser les conditions en fonction du DS avec une efficacité de réaction de 50%. La cationisation a également été appliquée à deux hémicelluloses extraites au FCBA. La mise en oeuvre de la réaction en absence de solvant a permis d'atteindre une efficacité de réaction de 70 à 90% et de réduire considérablement les quantités de réactif utilisées et d'effluents à traiter. Parmi la gamme de DS, les dérivés cationiques de DS 0,3 ont donné les meilleures propriétés après ajout dans la pâte à papier, le galactomannane étant plus efficace que le xylane. Enfin, la réticulation des chaînes du xylane extrait a permis d'augmenter les propriétés physiques du papier de 15% supplémentaires / With current paper pulp processes, hemicelluloses are decomposed during the extraction of cellulose fibres. By including a previous step of hemicellulose extraction, these compounds could be reused as additives in the paper pulp, instead of cationic starch. In this work, two model galactomannan and xylan hemicelluloses were cationized in aqueous solution under basic conditions by etherification with a cationic epoxide. Degrees of substitution from 0.1 to 1.3 were obtained. Species concentration and epoxide amount appeared as preponderant parameters of the reaction. With an experimental design, the interaction between sodium hydroxide and epoxide amounts was modelized, and reactional conditions were optimized depending on the desired DS with a reaction efficiency of 50%. Then, cationisation was applied to two hemicelluloses extracted in FCBA. The reaction was also carried out in absence of solvent with a reaction efficiency of 70-90%, by minimising reagents consumption and effluents. Cationic derivatives with DS 0.3 gave the best performance to increase the paper resistance when they were added in paper pulp, galactomannan being more efficient than xylan. Chain reticulation allowed increasing mechanical properties of paper of 15% for the extracted xylan Cationisation Hémicellulose Galactomannane Xylane de bouleau Époxyde cationique Procédé papetier Pâte à papier Additif Cationic starch Hemicellulose Galactomannan Xylan Cationic epoxy Paper-making process Paper pulp Additive 541.395
56	Counteracting Ammonia Inhibition in Anaerobic Digestion using Wood Residues : Evaluating Ammonium Adsorption Capacity of Fibres from Pulp and Paper Mills Wrangbert, Marcus January 2021 (has links) One of the main interests in commercial methane production is to maximize the gas yield, and it is thus appealing to use material with relative high methane potential. However, such material often results in process instability whereas ammonia inhibition is common. Removal of ammonia through adsorption is a fairly unexplored method in the field of biogas production, and could prove to be cost-effective.The adsorption capacity of pulp fibres from the paper making industry were investigated through batch adsorption experiments. Additionally, the fibres effect on small scale batch digesters in terms of methane production and cellulase activity was explored. Overall, the adsorption capacity of the pulp fibres was low, whereas Kraft hardwood had the highest adsorption capacity in both an aqueous ammonium solution and digester fluid at 11±3 and 60±20 mg g-1, respectively. The initial total ammonium nitrogen concentration had the highest effect on the adsorption capacity with a positive correlation. The pulp fibres seemingly had no effect on the ammonia inhibited anaerobic digestion systems. However, the cellulase activity was higher after day 5 in the anaerobic digestion systems with a high ammonia concentration.In essence, the overall results showed that the adsorption of the fibres was relatively low and most likely not suitable as a material to prevent ammonia inhibition in an AD. Anaerobic digestion Ammonia inhibition Fibres Biogas Bioenergy Bioenergi Paper, Pulp and Fiber Technology Pappers-, massa- och fiberteknik Chemical Process Engineering Kemiska processer Bioprocess Technology Bioprocessteknik
57	Hemicellulose as barrier material Jonas, Hartman January 2006 (has links) Polysaccharides constitute an important source of raw materials for the packaging industry today. Polysaccharides have good natural barrier properties which are necessary for packaging films. Cellulose is the forerunner among renewable polymers for such applications. Hemicelluloses represent a new interesting breed of barrier materials. We have chosen to work with the hemicellulose O-acetyl-galactoglucomannan (AcGGM). The high water solubility of this particular hemicellulose extracted from process waters is both an advantage and a limiting factor. However, through the right modification, the water sensitivity of AcGGM can be regulated. This thesis presents four ways to modify AcGGM: (i) benzylation, (ii) plasma surface treatment followed by styrene addition, (iii) vapor-phase (VP) surface grafting with styrene, and (iv) lamination of an unmodified film with a benzylated material. The most important methods of analysis of the films produced include contact angle measurement, dynamic mechanical analysis under moisture scan, and oxygen gas permeability measurement. It was found that unmodified AcGGM films have low oxygen permeability at intermediate relative humidity (50 % RH) and good dynamic mechanical properties over a wider humidity range. Films of benzylated material (BnGGM) exhibited a decrease in oxygen permeability at lower humidity but showed better tolerance to higher humidities and indicated better dynamic mechanical behavior than AcGGM films. Lamination proved to be the most promising technique of modification, combining the good gas barrier properties of AcGGM films with the moisture-insensitivity of the BnGGM films. / QC 20101117 Hemicellulose galactoglucomannan plasma surface treatment vaporphase grafting benzylation contact angle oxygen permeability solution casting Paper, Pulp and Fiber Technology Pappers-, massa- och fiberteknik
58	Thermogravimetric analysis and modeling of pyrolysis of macroscopic wood particles / Termogravimetrisk analys och modellering av pyrolys av makroskopiska träpartiklar PERSNIA, YOSRA January 2016 (has links) The knowledge of kinetics of pyrolysis is important. It is also challenging to find parameters for kinetic which can be applied at different sizes of biomass. Many researchers have been investigating the pyrolysis behavior of wood powders due to heat and mass transfer limitations. They have also been focusing on determining the effects of feedstock characterization, residence time, gas environment, heating rate and the final temperature as well as the arrangement of the pyrolysis reactor and modeling of the kinetics. This project presents a qualitative understanding of the pyrolysis process based on data from slow heating rates. Samples of spruce chips at different masses, namely 4 mg, 200 mg, 500 mg and 800 mg and also 4 mg powder have been used in experiments with thermogravimetric analysis to understand the mass loss behavior. Furthermore, kinetic parameters for biomass are taken from literature and have been used in modeling to understand to which extent these parameters are different for different particle sizes. The kinetic model that is chosen to investigate in this project is where each component of biomass shows different characteristics during the thermal decomposition. The experimental results on wood chips at different sample masses show same behavior for all of them and there is no heat and mass transfer limitations. The results from experiments on powders shows different behavior than for chips at the end of the mass loss curve only. This means less char is produced for powders than it is for the chips. The results from modeling show that kinetic parameters such as activation energy and the prefactor are the same for both powders and chips. The only parameter that is different is the pre-determined char yield for hemicellulose second reaction. The kinetic model and the kinetic parameters used in this report are in good agreement to the experimental results. The model used, where each component show different behavior during its thermal decomposition and the final products are volatiles and char is a reliable model to describe the mass loss behavior of biomass. The difference in the experimental results between powders and chips can be explained by the modeling. It can be stated that the difference is in the char yield from thermal decomposition of hemicellulose. / Kunskap om kinetiken för pyrolysprocessen är viktig. Det är även en utmaning att finna parametrar för kinetiken som kan tillämpas till olika massor och storlekar av biomassa. Många forskare har undersökt pyrolys beteenden på bara träpulver på grund av värme- och massöverföring begränsningar. De har också fokuserat på att undersöka effekterna av råvara karakterisering, uppehållstid, gasmiljö, uppvärmningshastighet och den slutliga temperaturen samt arrangemanget av pyrolysreaktorn och modellering av kinetiken. I detta projekt presenteras en kvalitativ förståelse av pyrolysprocessen baserad på data från långsamma uppvärmningshastigheter. Prover av granflis vid olika massor; 4 mg, 200 mg, 500 mg och 800 mg och även 4 mg pulver har använts i experimenten med thermogravimetric analys för att förstå massförlust uppträdandet. Dessutom har kinetiska parametrar för biomassa tagits från litteratur och har använts i modelleringen för att förstå i vilken utsträckning dessa parametrar skiljer sig åt för pulver och flis. Den kinetiska modellen som har valts att undersökas i detta projekt är den där varje komponent av biomassa visar separata och olika egenskaper under termisk nedbrytning. De experimentella resultat på flis vid olika provmassorna uppvisar samma beteende för dem alla och det finns ingen värme- och massöverföringsbegränsningar. Resultaten från experiment på pulver visar annorluna beteende än för träflis endast i slutet av massförlust kurvan. Detta innebär att mindre kol produceras för pulver än vad det gör för flis. Resultaten från modelleringen visar att kinetiska parametrar såsom aktiveringsenergin och prefactor är densamma för båda pulver och flis. Den enda parameter som skiljer sig är den förutbestämda utbytet av kol för hemicellulosa’s andra reaktion. Den kinetiska modellen och kinetiska parametrar som används i denna rapport är i god överensstämmelse med de experimentella resultaten. Denna modell som används, där varje komponent visar enskilt beteende under dess termisk nedbrytning och slutprodukterna är bara gaser och kol, är en pålitlig modell för att beskriva beteendet för massförlust av biomassa. Skillnaden i de experimentella resultaten mellan pulver och flis kan förklaras av modelleringen. Det kan konstateras att skillnaden är i kol utbytet från sönderdelningen av hemicellulosa. Biomass gasification renewable energy thermogravimetric analysis mathematical modeling Chemical Process Engineering Kemiska processer Paper, Pulp and Fiber Technology Pappers-, massa- och fiberteknik Energy Engineering Energiteknik
59	Development of Finite Element Models for 3-D Forming Processes of Paper and Paperboard Linvill, Eric January 2015 (has links) Paper materials have a long history of use in packaging products, although traditional paper-based packaging is limited in its shape and design. In order to enable more advanced paper-based packaging, various 3-D forming processes for paper materials have been studied. Since 3-D forming processes typically include the application of moisture and/or temperature, the effects of moisture and temperature on the mechanical response of paper have also been investigated. In Paper A, an experimental study of the combined effects of moisture and temperature on the uniaxial mechanical properties of paper was conducted. These experiments provided new insights into how moisture and temperature affect both the elastic and plastic properties of paper materials. These experiments also provided the framework from which the effects of moisture and temperature were modelled in Paper C. In Paper B, an explicit finite element model of the paperboard deep-drawing process was developed. An orthotropic material model with in-plane quadrant hardening was developed and verified for paper. The simulation results matched the trends from experimental deep-drawing up to when micro-scale wrinkling occured. Since most experimental failures occur prior to wrinkling, this model provided quantitative understanding of failure in the paperboard deep-drawing process. In Paper C, an explicit finite element model of paper hydroforming, utilizing the same material model for paper materials as in Paper B, was developed and verified. The simulation results matched well with experimental results, and a parametric study with the finite element model produced quantitative understanding of the hydroforming process for paper materials. Additionally, drying was identified as an important phenomenon for determining the extent of formability of paper materials. / Papper har länge använts som förpackningsmaterial men traditionella pappers- och kartongförpackningar är begränsade i form och design. Olika 3-D formnings processor har studerats för att möjliggöra mer avancerade pappersbaserade förpackningar. Effekterna av fukt och temperatur på pappers mekaniska egenskaper har också undersökts eftersom fukt och temperatur har stor betydelse för slutresultatet i 3-D formningsprocesser. I Artikel A har den kombinerade effekten av fukt och temperatur på de uniaxiella mekaniska egenskaperna av papper undersökts experimentellt. Dessa experiment visar hur fukt och temperatur påverkar både elastiska och plastiska egenskaper hos papper samt ligger till grund för modelleringen av inverkan av fukt och temperatur i Artikel C. I Artikel B har en explicit finita element modell för djupdragning av kartong utvecklas. En ortotropisk materialmodell baserad på en rektangulär flytyta har utvecklats och verifierats för kartong. Simuleringen följde trenderna i experimenten fram till den punkt där mikroskopiska rynkor bildas. Resultaten från analyserna med modellen ger kvantitativ förståelse för materialbrott i djupdragningsprocessen eftersom de flesta experimentella materialbrott inträffar innan mikroskopiska rynkor bildas. I Artikel C har ett explicit finita element modell av hydroformning av papper baserad på materialmodellen från Paper B utvecklats och verifierats mot experimentell hydroformning av papper. En parameterstudie med finitaelement-modellen producerade kvantitativ förståelse för hydroformningsprocessen för papper. Dessutom identifieras torkning som ett viktigt fenomen för att fastställa graden av formbarheten för pappersmaterial. / <p>QC 20150907</p> 3-D forming constitutive model moisture temperature hydroforming deep drawing 3-D formning finitaelement konstitutiv modell fukt temperatur hydroformning djup dragning Paper, Pulp and Fiber Technology Pappers-, massa- och fiberteknik
60	The Influence of pH, Temperature and Number of Wash Steps on the Washing Efficiency of CTMP Pulp Monlars, André January 2021 (has links) In this report, the washing efficiency of chemi-thermomechanical pulp (CTMP) from Norway spruce (Picea abies) was investigated when adjusting the temperature and pH during washing as well as implementing different number of wash steps. Concurrent effects of having a high pH and temperature were also examined. CTMP pulp has many uses, one of which is for the manufacturing of packaging board. Lately, this end product has seen a precipitous increase due to the increasing demand of an environmentally friendly alternative within the food packaging sector. A notorious problem associated with all mechanical pulps is how extractives are to a large extent still present after the pulping process, especially unsaturated lipids which are subject to oxidation. This results in the formation of odorous aldehydes that can be easily transferred into the food product, thus contaminating it by altering the perception of taste and odor. This is a frequent problem faced by the status quo liquid board industry. Washing is thus employed late downstream to lower the final wood resin content. Here, available literature has been collated for some basic introductory subjects such as softwood anatomy, wood resin and structures. All of this is described with a focus on softwood, leading up to a thorough breakdown of P. abies. Mechanical pulping and relevant deresination methods for CTMP production are also described, including washing. The objective of this thesis is to evaluate the trends of the final resin concentration as the chosen parameters are altered during washing. The pulp was provided by Rottneros Mill and their industrial process was simulated by using a Büchner funnel for washing. A Soxhlet extractor was used for determining the final extractive contents. It was found that the implementation of additional wash steps reduced the final resin content (1–4 wash steps). The same was found with increasing temperature (60, 70, 80 and 90 °C). The implementation of a fourth wash step seemed to be more efficient at higher temperatures. No conclusions could be drawn from altering the pH due to scattered data points with high uncertainties (pH 7, 8 and 9). The results are limited in terms of significance and are also subject to bias. / I denna rapport undersöktes tvätteffektiviteten av kemitermomekanisk massa (CTMP, chemi-thermomechanical pulp) tillverkad från gran (Picea abies) och hur den påverkas vid justeringar av temperatur, pH och antal tvättsteg. Ytterligare undersöktes förekomsten av eventuella samverkande effekter vid högre temperatur och pH. CTMP-massa har många användningsområden, däribland vid produktion av vätskekartong. På sistone har efterfrågan av vätskekartong ökat markant som ett svar på en allt större strävan efter ett mer miljövänligt alternativ inom matförpackningssektorn. Ett välkänt problem associerat med mekanisk massatillverkning är den stora mängden exktraktivämnen som kvarhålls i den färdiga massan. En viss del av dessa extraktivämnen utgörs av fleromättade fetter vilket är benägna att genomgå oxidation. Detta leder i sin tur till bildandet av flyktiga aldehyder som kan föras vidare till matprodukten och ge dem förändrad smak och lukt; ett problem som dagens vätskekartongproducenter står inför. Tillgänglig litteratur har sammanställts, där en inledande teoridel beskriver koncept såsom anatomi, strukturer och extraktivämnen hos barrved. Teoridelen övergår därefter till att ge en mer detaljerad beskrivning av P. abies och dess extraktivinnehåll. Ytterligare beskrivs mekanisk massatillverkning över lag och metoder för att eliminera extraktivämnen under produktionen av CTMP-massa (inklusive tvättning). Syftet med detta examensarbete är att utvärdera de trender i den slutliga extraktivhalten då de valda parametrarna justeras under tvättning. Massan tillhandahölls av Rottneros Bruk och deras tvättningsprocess simulerades med hjälp av en Büchner-tratt. En Soxhlet-extraktor användes för att utvärdera den slutliga extraktivhalten. Det visade sig att vid varje insättning av ett ytterligare tvättsteg (1–4 tvättsteg) gav en lägre extraktivhalt hos CTMP-massan. Desamma gällde vid ökande temperatur (60, 70, 80 and 90 °C). Implementering av ett fjärde tvättsteg tycks vara mer effektivt vid högre temperaturer. Det kunde dock inte dras några slutsatser huruvida pH påverkade tvättningen då dessa mätvärden fick stor spridning med höga osäkerheter (pH 7, 8 och 9). Resultaten besitter begränsad signifikans och kan även ha blivit utsatta för bias. Mechanical pulp Chemi-thermomechanical pulp Picea abies Extractives Wood resin Deresination Washing Mekanisk massa Kemitermomekanisk massa Picea abies Extraktivämnen Tvättning Paper, Pulp and Fiber Technology Pappers-, massa- och fiberteknik

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