Global ETD Search

121	Gazéification de charbon de granules de bois : comportement thermochimique et mécanique d’un lit fixe continu / Gasification of wood pellets char : thermochemical and textural properties of a continuous fixed bed Teixeira, Gabriel 16 March 2012 (has links) La gazéification étagée de biomasse permet la production d'un gaz de synthèse propre, facilement valorisable en énergie électrique et/ou thermique. Néanmoins, l'optimisation de ces procédés en termes de rendement de conversion et de souplesse vis-à-vis de la nature de la biomasse constitue un enjeu industriel fort. Dans cette thèse, nous avons étudié spécifiquement une étape clef du procédé : la gazéification du charbon en lit fixe continu. La granulation est la solution proposée pour valoriser des biomasses de faible granulométrie ou densité. Ainsi les comportements de deux charbons de bois - issus de plaquettes forestières et de granulés - ont été étudiés en parallèle à partir d'outils expérimentaux et numériques.Dans un premier temps des expérimentations ont été menées sur un réacteur pilote, très largement instrumenté, reproduisant cette zone du procédé. Les profils mesurés de température, de composition des gaz, de densité du lit et de vitesse des particules constituent une base de données unique, révélatrice du comportement du réacteur. Nous avons ainsi pu localiser en haut du lit une zone très réactive d’épaisseur inférieure à 5 cm, ou encore un tassement significatif du lit entrainant une chute de la vitesse des particules dans un rapport de 8. La gazéification de charbons de granulés conduit aux mêmes taux de conversion finale et compositions du gaz de synthèse que celle de charbons issus de plaquettes forestières. Dans un deuxième temps, nous avons développé un modèle numérique de la zone d'étude, basé sur la résolution des équations de conservation couplées aux cinétiques des réactions, à l'aide du logiciel COMSOL. La prise en compte du tassement du lit, et de la cinétique apparente des réactions hétérogènes à l'échelle particule dans les termes sources réactionnels, sont les deux spécificités du modèle. Ce dernier permet de reproduire de manière satisfaisante les profils des grandeurs physiques mesurés pour diverses conditions opératoires et pour les deux charbons de l'étude. L'exploitation de ce modèle apporte des informations nouvelles et complémentaires de l’expérience ; il permettra à terme d'optimiser le procédé industriel / Multi-stage gasification of biomass leads to the production of a clean synthetic gas that can easily be used for electrical and/or thermal energy. However, optimization of these processes in terms of conversion yield and flexibility regarding the type of biomass is a major industrial challenge. To that end, a key stage of the process was specifically studied in this thesis: char gasification in a continuous fixed bed reactor. Granulation is the solution proposed for making use of low density or small particle-size biomasses. The performance of two wood chars – made from wood chips and pellets – was studied at the same time using experimental and numerical tools. Experiments were first conducted in a very highly instrumented pilot reactor, reproducing this zone of the process. The profiles measured, namely temperature, gas composition, bed density and particle velocity formed a unique database revealing reactor performance. A very reactive zone under 5 cm thick was thus located at the top of the bed, or even significant compaction leading to a drop in particle velocity, in a ratio of 8. Granular char gasification led to the same final conversion rates and synthetic gas compositions as for the chars derived from wood chips. A numerical model of the study zone was then developed, based on solving conversion equations combined with reaction kinetics, using COMSOL software. Taking into account bed compaction and the apparent kinetics of the heterogeneous reactions on a particle scale in the reaction source terms were two specificities of the model. It enabled satisfactory reproduction of the profiles of the physical magnitudes measured, for various operating conditions and for the two charsstudied. Use of this model is already providing new and complementary experimental information; it will eventually make it possible to optimize the industrial process Gazéification Lit fixe continu Tassement du lit Cinétique apparente Bois Charbon Granulé Gasification Continuous fixed bed Bed compaction Apparent kinetics Wood Char Pellet
122	Electrical behaviour of submerged arc furnace’s charge materials Hietava, A. (Anne) 01 June 2018 (has links) Abstract When producing ferrochrome, a submerged arc furnace (SAF) is used. The charge of an SAF consists of chromite pellets, coke, lumpy ore and quartzite as a slag modifier. The charge is pre-heated before it descends into the SAF where the charge eventually reduces and melts. The electrical conductivity of the charge is important because, among other things, it affects the productivity of the furnace. The electrical conductivity of the charge should ideally be low on the higher parts of the furnace and high near the electrode tip. This is to ensure that the electric current path travels through the metal bath via arcing, which provides the most effective heat transfer. Another option for the current path would be through the solid feed material via ohmic conduction, but since this zone is less reactive, the heat energy would be mostly wasted. This work brings forth new information about the electrical behaviour of coke and chromite pellet is produced. The electrical conductivity was measured at room temperature for different simulated process conditions (different coke textures, different reduction degrees of chromite pellets, sulphur in atmosphere and replacing the coke used in chromite pellet production with charcoal). It was found out that unlike gasification with a CO/CO2 mixture, heat treatment at 950°C increased the degree of graphitization and changed the electrical behaviour of coke. Furthermore, it was observed that increasing the chromite pellets’ reduction degree reduced the electrical conductivity measured at room temperature. In the case of chromite pellets and sulphur in the atmosphere it was found that sulphur has an effect on the pellets’ electrical behavior and structure during reduction, which - in turn - has an effect on the SAF performance when raw materials with varying sulphur contents are used. Lastly, it was found that substituting coke with charcoal when producing chromite pellets affects the sintering behaviour, cold compression strength, and electrical conductivity of the chromite pellets. / Tiivistelmä Uppokaariuuni on osa ferrokromin valmistusprosessia. Uppokaariuuniin panostetaan kromiittipellejä, koksia, palarikastetta ja kvartsiittia. Etukuumennusuunista panos laskeutuu uppokaariuuniin, jossa se pelkistyy ja lopulta sulaa. Uppokaariuunin panoksen sähkönjohtavuus on tärkeää uunin toiminnan kannalta, koska se vaikuttaa suoraan esimerkiksi tuottavuuteen. Jotta virran kulku tapahtuisi optimaalisesti sulan metallin kautta, panoksen sähkönjohtavuuden tulee olla pieni uunin yläosissa ja suuri alaosassa lähellä elektrodien päitä. Mikäli virran kulku tapahtuu uunin yläosassa, hukataan lämpöenergiaa ja uunin toiminta hankaloituu. Tässä työssä on selvitetty koksin ja kromiittipellettien sähköisiä ominaisuuksia. Sähkönjohtavuutta on tutkittu useilla simuloiduilla prosessiolosuhteilla (koksin eri tekstuurit, kromiittipellettien eri pelkistysasteet, rikin pitoisuus atmosfäärissä ja kromiittipellettien valmistuksessa on korvattu koksi puuhiilellä). Nämä mittaukset on tehty huonelämpötilassa. Huomattiin, että toisin kuin koksin kaasutus, koksin lämpökäsittely (950°C) nosti grafitoitumisastetta ja vaikutti sähköisiin ominaisuuksiin. Kromiittipelletin pelkistymisasteen noustessa huonelämpötilassa mitattu sähkönjohtavuus laski. Kun kromiittipelletit altistetaan atmosfäärille, jossa on rikkiä, pellettien sähköiset ominaisuudet muuttuvat samoin kuin rakenne pelkistyksen aikana. Tämä vaikuttaa uppokaariuunin toimintaan, kun käytetään raaka-aineita, joissa rikkipitoisuus vaihtelee. Kun kromiittipellettien valmistuksessa käytettävä koksi korvataan puuhiilellä, tämä vaikuttaa sintrausprosessiin, kylmälujuuteen ja sähköisiin ominaisuuksiin. SAF charcoal chromite pellet coke cold compression strength electrical conductivity graphitization relative permittivity sintering sulphur grafitointi koksi kromiittipelletit kylmälujuus puuhiili rikki sintraus suhteellinen permittiivisyys sähkönjohtavuus uppokaariuuni
123	Äter Mellanskarv i Sommen det unika beståndet av röding och öring? / Do the Cormorant eating redbelly and salmon trout in Sommen? Oskarsson, Conny, Yngve, Bengt-Erik January 2003 (has links) <p>Detta är ett naturvetenskapligt arbete som omfattas både av en kvantitativ och en kvalitativ undersökning. Syftet med arbetet är att undersöka mellanskarvens födoval i sjön Sommen, samt att närmare studera huruvida det unika beståndet av röding och öring ingår i mellanskarvens födoval. Sommens Fiskevårdsområde har fått tillstånd till skyddsjakt på mellanskarv av Länsstyrelsen och det främsta skälet skulle vara att fågeln prederar röding och öring. Genom att analysera mellanskarvens spyboll och jämföra innehållet med referensfiskar fångade från samma sjö ska vi se om beslutet från Länsstyrelsen är befogat. Insamling av spybollar och referensfiskar utfördes i fält medan analys av spybollar utfördes på laboratorium. I resultatet av undersökningen konstaterades att mellanskarven i Sommen nästan uteslutande äter abborre. I de analyserade spybollarna som omfattas av denna undersökning återfanns inte röding och öring. Detta skulle innebära att Länsstyrelsens beslut om skyddsjakt på mellanskarv i Sommen p.g.a. predation av röding och öring inte är befogad.</p> Biology Mellanskarv spyboll födoval predation röding öring skyddsjakt populationsökning fisk fiskben Cormorant pellet diet predation redbelly salmon trout hunting population increase fish fishbone Biologi Biology Biologi
124	Preparation of Tablets from Reservoir Pellets with an Emphasis on the Compression Behaviour and Drug Release Tunón, Åsa January 2003 (has links) <p>The preparation of multiple unit tablets was investigated in this thesis with the intention of gaining a deeper understanding of some of the factors that influence the properties of such tablets.</p><p>Initially, three different types of pellets (drug, soft and disintegrant pellets) were combined as a model to investigate the ability of the mixture to form disintegrating tablets. The proportions of the different pellets and the type of disintegrant used were factors that independently influenced the tablet properties. Furthermore, the properties of tablets containing drug pellets barrier-coated with an aqueous polymer dispersion were also found to depend on the coating thickness and the compaction pressure.</p><p>When compacting pellets barrier-coated with a solvent-based polymer solution without incorporating excipient particles in the tablet formulation, a high pellet porosity was advantageous to preserve the original drug release profile, even though highly porous pellets became more densified and deformed than pellets of lower porosity.</p><p>The influence of the properties of excipient particles on the deformation<b> </b>of the reservoir pellets was also studied and, although the amount of flattening of the pellets was only slightly affected, changes in the pellet shape (irregularity) with alterations in the porosity and size of the excipient particles were more substantial. In contrast, the properties of the excipient particles did not affect the pellet densification.</p><p>The solvent-based coating used was able to adapt to the changes in volume and shape that the pellets underwent during compaction. The coating structure appears to be changed by compaction and it is proposed that the final structure of the coating is the net effect of two parallel processes, one reducing and one prolonging the transport time of the drug across the coating. Thus, the drug release could be maintained or even prolonged after compaction, despite extensive structural changes of the reservoir pellets.</p> Pharmaceutics multiple unit tablets extrusion-spheronisation barrier-coating modified drug release pellet types compaction tablet properties deformation densification Galenisk farmaci Pharmaceutics Galenisk farmaci
125	Preparation of Tablets from Reservoir Pellets with an Emphasis on the Compression Behaviour and Drug Release Tunón, Åsa January 2003 (has links) The preparation of multiple unit tablets was investigated in this thesis with the intention of gaining a deeper understanding of some of the factors that influence the properties of such tablets. Initially, three different types of pellets (drug, soft and disintegrant pellets) were combined as a model to investigate the ability of the mixture to form disintegrating tablets. The proportions of the different pellets and the type of disintegrant used were factors that independently influenced the tablet properties. Furthermore, the properties of tablets containing drug pellets barrier-coated with an aqueous polymer dispersion were also found to depend on the coating thickness and the compaction pressure. When compacting pellets barrier-coated with a solvent-based polymer solution without incorporating excipient particles in the tablet formulation, a high pellet porosity was advantageous to preserve the original drug release profile, even though highly porous pellets became more densified and deformed than pellets of lower porosity. The influence of the properties of excipient particles on the deformation<b> </b>of the reservoir pellets was also studied and, although the amount of flattening of the pellets was only slightly affected, changes in the pellet shape (irregularity) with alterations in the porosity and size of the excipient particles were more substantial. In contrast, the properties of the excipient particles did not affect the pellet densification. The solvent-based coating used was able to adapt to the changes in volume and shape that the pellets underwent during compaction. The coating structure appears to be changed by compaction and it is proposed that the final structure of the coating is the net effect of two parallel processes, one reducing and one prolonging the transport time of the drug across the coating. Thus, the drug release could be maintained or even prolonged after compaction, despite extensive structural changes of the reservoir pellets. Pharmaceutics multiple unit tablets extrusion-spheronisation barrier-coating modified drug release pellet types compaction tablet properties deformation densification Galenisk farmaci Pharmaceutics Galenisk farmaci
126	Äter Mellanskarv i Sommen det unika beståndet av röding och öring? / Do the Cormorant eating redbelly and salmon trout in Sommen? Oskarsson, Conny, Yngve, Bengt-Erik January 2003 (has links) Detta är ett naturvetenskapligt arbete som omfattas både av en kvantitativ och en kvalitativ undersökning. Syftet med arbetet är att undersöka mellanskarvens födoval i sjön Sommen, samt att närmare studera huruvida det unika beståndet av röding och öring ingår i mellanskarvens födoval. Sommens Fiskevårdsområde har fått tillstånd till skyddsjakt på mellanskarv av Länsstyrelsen och det främsta skälet skulle vara att fågeln prederar röding och öring. Genom att analysera mellanskarvens spyboll och jämföra innehållet med referensfiskar fångade från samma sjö ska vi se om beslutet från Länsstyrelsen är befogat. Insamling av spybollar och referensfiskar utfördes i fält medan analys av spybollar utfördes på laboratorium. I resultatet av undersökningen konstaterades att mellanskarven i Sommen nästan uteslutande äter abborre. I de analyserade spybollarna som omfattas av denna undersökning återfanns inte röding och öring. Detta skulle innebära att Länsstyrelsens beslut om skyddsjakt på mellanskarv i Sommen p.g.a. predation av röding och öring inte är befogad. Biology Mellanskarv spyboll födoval predation röding öring skyddsjakt populationsökning fisk fiskben Cormorant pellet diet predation redbelly salmon trout hunting population increase fish fishbone Biologi Biology Biologi
127	Population Status and Evaluation of Landscape Change for the Lower Keys Marsh Rabbit Schmidt, Jason Alan 2009 December 1900 (has links) Wildlife biologists and land managers tasked with the recovery of the endangered Lower Keys marsh rabbit (LKMR; Sylvilagus palustris hefneri) were in need of a current population estimate as well as a method to estimate the LKMR population annually. Habitat loss and fragmentation from population growth and development have threatened the existence of the LKMR. Establishing and understanding long-term habitat availability for the LKMR is important for determining causes of historical population declines as well as designing and implementing successful recovery plans. I conducted a range-wide pellet survey and a mark-recapture study to estimate the LKMR population. I evaluated the fit of 5 models and considered the variation in behavioral response model the best model. I correlated (r2 = 0.913) this model's rabbit abundance estimates to pellet density in 11 patches and generated a range-wide population estimate of 317, a western clade population of 257, an eastern clade population of 25, and translocated LKMR populations of 35 and 0 on Little Pine and Water keys, respectively. This prediction equation provides managers a quick, efficient, and non-invasive method to estimate LKMR abundance from pellet counts. To quantify the amount of habitat loss and fragmentation that occurred over the last 50 years, I systematically delineated and compared potential LKMR habitat using 1959 and 2006 aerial photographs. Additionally, I investigated if other factors could have reduced the amount of suitable habitat available for the LKMR with a comparison of habitat loss and fragmentation on a developed island and an undeveloped island. Range-wide, I found that number of habitat patches increased by 38, total class area decreased by 49.0%, and mean patch size decreased by 44.3%. Mean shape index increased by 4.2% and mean proximity index decreased by 13%. Both the 1959 and 2006 connectance indices were low while the 2006 set decreased 12.1%. I observed the same patterns of habitat loss and fragmentation on both the developed and undeveloped islands as I did in the range-wide landscape analysis. I found that LKMR habitat has declined in area and become more fragmented over the last 50 years. Habitat loss and fragmentation by development have directly endangered the LKMR; however, sea level rise and woody encroachment also could have historically caused habitat loss and fragmentation. Although development in LKMR habitat was halted, sea-level rise and woody encroachment could continue to alter LKMR habitat. Lower Keys marsh rabbit population estimate mark-recapture pellet counts Florida Keys endangered species Sylvilagus palustris hefneri habitat fragmentation lagomorphs patch metrics
128	Caractérisations expérimentale et numérique du comportement hydro-mécanique d'un matériau hétérogène : mélange de poudre/pellets de bentonite / Experimental and numerical characterizations of the hydro-mechanical behavior of a heterogeneous material : pellet/powder bentonite mixture Molinero Guerra, Agustin 29 June 2018 (has links) Cette thèse porte sur le comportement hydromécanique d’un mélange de poudre et pellets de bentonite MX80 avec une proportion 80/20 en masse sèche. Il s’agit d’un matériau étudié par l’Institut de Radioprotection et de Sûreté Nucléaire (IRSN) dans le cadre du projet SEALEX qui a pour objectif principal la vérification de l’efficacité des dispositifs de scellement ou des barrières ouvragées dans le system du stockage géologique des déchets radioactifs. Le comportement hydromécanique du matériau à différentes échelles a été étudié par différents essais en laboratoire. Premièrement, les changements à l’échelle microstructurale d’un seul pellet de bentonite durant l’hydratation a été abordée à l’aide de deux techniques : la porosimétrie au mercure et la tomographie aux rayons-X. Les résultats ont montré que le gonflement d’un pellet peut être expliqué par deux mécanismes : la création des fissures surtout à des succions entre 38 et 9 MPa, et le gonflement des grains de bentonite, correspondant à l’hydratation des smectites à l’échelle nano. A des succions inférieures à 9 MPa, une diminution de l’épaisseur des feuillets d’argile et une augmentation du désordre des ceux-ci sont observées. Des essais de rétention d’eau, de pression de gonflement et de compression à l’odomètre à succion contrôlée ont été effectués sur le mélange de poudre et pellets. Les propriétés de rétention d’eau sous conditions de volume constant et pour un seul pellet sous conditions de gonflement libre apparaissent similaires pour des valeurs de succion supérieures à 4 MPa. Cela implique que la succion physico-chimique est prédominante devant la succion capillaire. Pour des valeurs de succions plus basses, une capacité de rétention plus faible a été observée sous conditions de volume constant, à relier à la disparition des macro-pores par le gonflement des grains de bentonite. Des valeurs de pression de préconsolidation plus petites que celles des mélanges de bentonite pure ont été obtenues pour des succions non-nulles, montrant l’effet granulaire des pellets dans le mélange. Deux colonnes d’infiltration ont été réalisés afin d’étudier deux cas extrêmes avec une densité sèche globale identique (1.49 Mg/m3). Avec la première colonne, un mélange de poudre et pellets relativement homogène, fabriqué en suivant un protocole spécial a été étudié. En revanche, un mélange fortement hétérogène a été fabriqué dans la deuxième colonne d’infiltration. Les résultats montrent que la pression de gonflement radiale dépend fortement de la distribution des pellets et de la poudre ainsi que de l’évolution du front d’hydratation. Une anisotropie de gonflement a été observée dans les deux cas, avec la pression de gonflement axiale inférieure à celle radiale. De plus, la valeur finale de pression de gonflement axiale est différente pour les deux colonnes, bien que les deux échantillons aient fabriquées avec la même densité sèche globale. En parallèle, plusieurs observations à la tomographie aux rayons-X ont été réalisées sur le mélange de pellets et poudre pendant l’hydratation. Un mélange complètement homogène a été observé après 100 jours d’hydratation à l’échelle étudiée (50 μm/voxel). Un nouveau modèle d’endommagement qui prend en compte des fissures observées au sein du pellet pendant hydratation a été développé en adaptant le Barcelona Expansive Model (BExM). L’essai d’infiltration sur l’échantillon relativement homogène a été simulé avec succès en utilisant le modèle développé. L’hétérogénéité initiale de la porosité a été aussi considérée dans la simulation afin de reproduire l’anisotropie de gonflement. Les résultats expérimentaux obtenus dans le cadre de cette étude permettent de mieux comprendre la réponse des ouvrages de scellement avec le mélange de pellets et poudre de bentonite dans le projet SEALEX. De plus, le modèle développé, qui prend en compte des fissures observées au sein du pellet et l’hétérogénéité initiale du matériau, permettra d’améliorer / The present investigation deals with the hydro-mechanical behavior of a mixture composed of pellets and powder of MX80 bentonite with a proportion of 80/20 in dry mass. This is one of the studied materials by the French Institute for Radiation protection and Nuclear Safety (IRSN) within the SEALEX project, which aims at investigating the long-term performance of swelling clay-based sealing systems in the context of geological high-level radioactive waste disposal. This study has been conducted by following an experimental program covering different scales. Firstly, the microstructure changes while wetting of a single pellet was investigated by combining MIP results with μ-CT observations. Results revealed that swelling of a pellet is due to the development of cracks, with significant development between 38 and 9 MPa of suction, combined to swelling of bentonite grains, which is governed by the hydration mechanisms of smectite at nano-scale. The application of suctions below 9 MPa leads to a significant decrease of the platelet thickness and to an increase in the disorder of the platelet assembly. Water retention tests, swelling pressure tests and suction controlled oedometer tests on the pellet/powder mixture were performed. Similar water retention properties were observed for the mixture under constant-volume condition and pellet under free swelling condition under suctions higher than 4 MPa, suggesting that physico-chemical suction prevails on capillary suction. At lower suctions, constant-volume condition defined a lower water retention capacity because of the disappearance of macro-pores. Lower yield stress values than the common pure bentonite mixtures were found for the pellet/powder mixture for non-zero suctions, showing that the volume change behavior is governed by the rearrangement and crushing of pellets, and the loss of the granular structure in the case of zero suction. Two mock-up tests were performed, aiming at studying two extreme cases at a global dry density of 1.49 Mg/m3: a homogeneous pellet/powder mixture fabricated by following a special protocol, and a strong heterogeneous sample. Results revealed that the radial swelling pressure depends strongly on the local pellet/powder distribution combined with the evolution of the hydration front. An anisotropy swelling was found in both cases, being the axial swelling pressure lower than the radial one. Moreover, different values of axial pressure were found between the two tests, even though they have the same global dry density of samples. In parallel, μ-CT observations were carried out on the mixture while wetting, revealing a homogeneous sealed sample after 100 days of hydration. No density gradients were identified at the investigated resolution (50 μm/voxel) after this long time of hydration. A new damage model, which takes into account the development of fissures within a pellet while wetting, was proposed an included to the well-IVknown double porosity Barcelona Expansive Model (BExM) to carry out numerical simulations of one mock-up test. The initial heterogeneous porosity distribution was also considered to reproduce the anisotropy swelling. The experimental results obtained in this study will greatly help well understand the response of seals made up of pellets/powder bentonite mixture in the SEALEX in situ experiment. Moreover, the constitutive model developed taking into account the pellet cracking damage and the initial sample heterogeneity allows significantly improving the prediction of hydomechanical behavior of seals/plugs made up of this mixture, constituting thus an useful tool for the safety assessment of the nuclear waste disposal system Mélange de poudre/pellets de bentonite Observations microstructurales Essais oedométriques Colonnes d'infiltration Modélisation Pellet/powder bentonite mixture Microstructural observations Oedometer tests Mock-Up tests Numerical modelling
129	Utvärdering av potentiell biomassa från Zambia för tillverkning av bränslepellets : Pelletsproduktion i enpetarpress, friktions- och kompressionsstudier samt hårdhetstest och fuktupptag / Evaluation of potential biomass from Zambia for production of fuel pellets : Production in a single pellet press, with associated friction and compression studies with hardness test and moisture uptake Henriksson, Lisa January 2018 (has links) Biomass has been used as a fuel since ancient times. In recent decades the use has increased and the technology has developed considerably in large parts of the world. In Sub Saharan Africa, traditionally used biomass, such as wood or charcoal, is still the main source of energy in households. Zambia consumes charcoal corresponding to 6 089 000 tonnes/year. The use of biomass is very ineffective and with increasing population and energy requirements, this is placing Zambia on the top ten list of highest deforestation rates in the world. Emerging Cooking Solutions Zambia Ltd. [ECS], started in 2012 with a vision to establish a pellet production in Africa. They provide modern cooking stoves and fuel pellets to counteract the unsustainable use of biomass and the health risk with traditional fuels. ECS aims to expand their production and are now striving to find a biomass that can increase hardness of pellets. The purpose of this work is to increase knowledge of the ability of raw materials to be pelletized, to support ECS expansion in a sustainable manner. In this report fourteen different biomasses was evaluated at three different moisture content, 5%, 7,5% and 10%. Peanut shell, Pigeon Pea, Pine and Sicklebush was assumed to be able to be used as a base material. Remaining biomasses as additive; Bamboo, Cassava peel, Cassava stem, Eucalyptus, Gliricidia, Peanut shell, Lantana, Miombo seed capsules, Olive tree and Tephrosia. Pellet production was performed in a single pellet press located at the department of environmental and energy system at Karlstad University, Karlstad. Compression energy, friction energy, hardness and moisture uptake was some of the operating characteriztics and properties that were evaluated. Additionally, four blends were pelletized with the aim to increased hardness. Pigeon Pea resulted in hardest pellets of the base materials, it managed a radial pressure of 46.3 kg, Pine resulted in low hardness, 17.7 kg. For the additives, the following materials were hardest as pellets; Tephrosia, 70.0 kg, Gliricidia 58.7 kg, Cassava peel 48.6 kg och Miombo seed capsules, 48.3 kg. Pine was the material that required relatively more energy pelletizing, 183.0 J. Lowest energy, Cassava stem, 49,1 J. All blends resulted in higher hardness of pellets. Most advantageous were Cassava peel and Tephrosia. Cassava peel in Pigeon Pea increased hardness even at 10% and reduced energy requirements. Pigeon Pea with 50% Tephrosia increased hardness with 21.1 kg to 67.4 kg, slightly increasing energy requirements. Though logistic chain for Cassava peel was evaluated higher than Tephrosia. For ECS to expand their production they are recommended, accordingly to the results in this study, to use Pigeon Pea at about 6% moisture content, as a base material. In order to increase hardness of pellets, they should primarily use Tephrosia, about 7% and Cassava peel at approximately 8% moisture content as an additive. / Biomassa har använts som bränsle sedan urminnes tider. Användningen har ökat och olika tekniker för nyttjande har utvecklats avsevärt i stora delar av världen de senaste decennierna. I Afrika söder om Sahara utgör traditionellt använd biomassa, såsom ved eller träkol fortfarande den huvudsakliga källan till energi i hemmet. Zambia konsumerar träkol motsvarande 6 089 000 ton ved varje år. Användningen av biomassan är mycket ineffektiv och med en ökande befolkning och energibehov sätter detta Zambia på topp tio listan med högsta avskogningshastigheter i världen. Emerging Cooking Solutions Zambia Ltd [ECS], startade 2012 med visionen att etablera en pelletsproduktion i Afrika. De tillhandahåller moderna pelletsbrännare och producerar bränslepellets för att motverka problemet med den ohållbara användningen av biomassa och hälsorisker i samband med detta. ECS har som mål att öka sin produktion och eftersträvar nu främst att hitta en spetsråvara som kan öka hårdheten på pellets. Syftet med denna rapport är att öka kunskapen om råvarors möjlighet att pelleteras för att bidra till att Emerging Cooking Solutions verksamhet ska kunna expandera på ett hållbart sätt. I denna rapport utvärderades fjorton olika biomassor vid tre olika målfukthalter 5%, 7,5% och 10%. Jordnötsskal, Pigeon Pea, Pine och Sicklebush ansågs kunna användas som basdrift, resterande biomassor som spetsråvaror, Bambu, Cassavaskal, Cassavastam, Eucalyptus, Gliricidia, Lantana, Miombo, Olivträd och Tephrosia. Pelletsproduktion gjordes i en enpetare vid Karlstads universitet, avdelningen för miljö-, och energisystem. Kompressions- och friktionsenergi samt hårdhet och fuktupptag är några av de variabler som testades, dessutom pelleterades fyra blandningar av olika biomassor med syfte att öka hårdheten på pellets. De basmaterial som resulterade i hårdast pellets var Pigeon Pea som klarade ett radiellt tryck på 46,3 kg, Pine medförde låg hårdhet, 17,7 kg. Av spetsråvarorna medförde följande högsta hårdhet på pellets, Tephrosia, 70 kg, Gliricidia 58,7 kg, Cassavaskal 48,6 kg och Miombo frökapslar, 48,3 kg. Vid kompressionsstudierna visade sig Pine kräva relativt hög energi vid komprimering, 183,0 J. Lägst Cassavastam 49,1 J. Samtliga blandningar med Tephrosia, Cassavaskal eller Gliricidia som spetsråvaror medförde hårdare pellets. Mest fördelaktigt som spetsråvara var Tephrosia och Cassavaskal. Cassavaskal ökade hårdheten redan vid 10% inblandning i Pigeon Pea och minskade samtidigt energibehovet. Vid inblandning av 50% Tephrosia i Pigeon Pea ökade hårdheten mest av samtliga blandningar med 21,1 kg till 67,4kg. Logistikkedjan bedömdes dock bättre för Cassavaskal än för Tephrosia. ECS skulle enligt resultaten i denna studie kunna använda sig av Pigeon Pea vid cirka 6% fukthalt för att bredda sin råvarubas. För att öka hårdheten på pellets bör de i första hand använda sig av Tephrosia cirka 7% och Cassavaskal cirka 8% fukthalt som spetsråvara. Biomass single pellet press moisture uptake hardness compression friction lignin cellulose hemicellulose Zambia Biomassa enpetare pellets fuktupptag hårdhet kompression friktion lignin cellulosa hemicellulosa Zambia Bioenergy Bioenergi
130	Limiting phenomena related to the use of iron ore pellets in a blast furnace Kemppainen, A. (Antti) 03 November 2015 (has links) Abstract Most of the iron in the world is produced using a blast furnace process, which has iron ore (iron oxides) and coke as its raw materials. When pellets are used in a blast furnace, the iron burden material is charged in the form of pellets and fine, iron-rich by-products are charged typically in the form of cold-bonded briquettes at the top of the blast furnace. Coke is the primary fuel and reductant in the blast furnace. Coke reacts with the oxygen of the blast air and forms carbon monoxide in the up-flowing gas, which reduces the descending iron oxide burden. In addition, carbon and hydrogen bearing reductants are injected from the tuyeres in the lower part of the furnace. Hydrogen partially replaces the carbon monoxide as a reducing agent and changes the composition of the reducing gas. The high temperature properties of the burden have a significant effect on the flow of reducing gas and formation of the cohesive zone which markedly affect the furnace efficiency. The raw materials are commonly stored outdoors and therefore include moisture in varying amounts. In addition, the briquette contains chemically bound water. The rate of injected reductants, the high temperature properties and the water content of the raw materials have significant effects on blast furnace performance. They cause various phenomena in the blast furnace which set limitations on the process. The limiting phenomena related to the use of pellets in the blast furnace were studied in this doctoral thesis with the aim of obtaining additional knowledge about the limiting phenomena. The results show that hydrogen increases the reduction rate of iron oxides at temperatures below 850 °C. High water vapour concentration causes a rapid conversion through a catalysed water-gas shift reaction at above 300 °C in a gas mixture similar to the one in the upper part of the blast furnace. The reduction rate of the cold-bonded briquette is higher than pellets due to a self-reducing effect. The phase transformations occurring in the briquette during reduction follow the path of phase equilibria. The softening of the pellet is caused by the formation of melt which initiates wüstite dissolution in the surrounding slag phase. / Tiivistelmä Suurin osa maailmassa valmistettavasta raudasta tuotetaan masuuniprosessilla, jonka pääraaka-aineita ovat rautarikaste eli raudan oksidit ja koksi. Masuunissa, jossa käytetään pellettiä, rautarikaste panostetaan pelletin muodossa ja hienojakeiset rautapitoiset sivutuotteet tyypillisesti kylmäsidottuna brikettinä masuunin huipulta. Koksi on masuunin pääasiallinen polttoaine ja pelkistin, joka masuunin sisään puhallettavan ilman hapen kanssa reagoidessaan muodostaa ylöspäin virtaavaan kaasuun hiilimonoksidia, joka pelkistää masuunin kuilussa vajoavat rautaoksidit. Lisäksi yleensä käytetään hiiltä ja vetyä sisältäviä pelkistysaineita, jotka injektoidaan masuuniin alaosan hormeilta. Vety korvaa osittain hiilimonoksidia rautaoksidien pelkistimenä ja muuttaa pelkistävän kaasun koostumusta. Panosmateriaalien korkealämpötilaominaisuudet vaikuttavat suuresti kuilun kaasuvirtauksiin ja koheesiovyöhykkeen muodostumiseen masuunissa, mitkä vaikuttavat merkittävästi masuunin tehokkuuteen. Suurista määristä johtuen raaka-aineet varastoidaan usein ulkona, joten ne sisältävät kosteutta vaihtelevissa määrin. Lisäksi briketti sisältää kemiallisesti sitoutunutta vettä. Injektoitavien pelkistysaineiden käyttömäärällä, raaka-aineiden korkealämpötilaominaisuuksilla ja vesipitoisuudella on merkittäviä vaikutuksia masuunin toimintaan. Ne aikaansaavat masuunissa erilaisia ilmiöitä, jotka asettavat prosessille rajoituksia. Tässä väitöskirjassa tutkittiin näitä masuunille rajoituksia asettavia ilmiöitä ja pyrittiin lisäämään tietämystä niistä. Tulokset osoittavat, että vety nopeuttaa rautaoksidien pelkistymistä alle 850 °C lämpötilassa. Suuri vesihöyrymäärä johtaa nopeaan konversioon masuunin yläkuilun aluetta vastaavassa kaasuseoksessa yli 300 °C lämpötilassa katalysoidun vesikaasun siirtoreaktion kautta. Kylmäsidottu briketti pelkistyy pellettiä nopeammin itsepelkistymisen vaikutuksesta. Briketin pelkistyessään läpikäymät faasitransformaatiot seuraavat faasien tasapainotiloja. Pelletin pehmenemisen aiheuttaa sulan muodostuminen, joka laukaisee wüstiitin liukenemisen sitä ympäröivään sulaan kuonafaasiin. blast furnace cold-bonded briquette high temperature properties injected reductant iron ore pellet moisture reduction softening injektoitava pelkistysaine korkealämpötilaominaisuudet kosteus kylmäsidottu briketti masuuni pehmeneminen pelkistyminen rautamalmipelletti

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