Global ETD Search

31	Identification and analysis of the molecular components involved in the oil palm (Elaeis guineensis) fruit abscission processhuile (Elaeis guineensis) / Identification et analyse des bases moléculaires du processus d’abscission du fruit chez le palmier à huile (Elaeis guineensis) Fooyontphanich, Kim 16 December 2015 (has links) L’abscission des organes chez les végétaux est hautement régulée au cours du développement. Ce processus physiologique qui consiste à diminuer l’adhésion entre deux cellules adjacentes dépend de l’environnement, du stress, de l’attaque de pathogènes ou encore de l’état physiologique de la plante. L’abscission du fruit et de la graine jouent un rôle déterminant dans le cycle de vie de la plante et en particulier, un rôle central dans la dispersion des graines. C’est également un caractère commun de domestication avec des conséquences économiques pour la plus part des espèces cultivées. Le palmier à huile (Elaeis guineensis) est largement cultivé dans toutes les zones tropicales et l’huile de palme représente aujourd’hui plus d’un tiers des huiles végétales produites dans le monde. La maturation des fruits au sein des régimes est asynchrone. Ainsi, les fruits les plus murs tombent avant le murissement complet du régime, entrainant une baisse du rendement d’une part et rendant leur collecte manuelle fastidieuse et couteuse d’autre part. Dans ce context, le contrôle ou la réduction de la chute des fruits permettrait une meilleure gestion de la récolte à des couts réduits. Dans le cadre de cette étude, un protocole de phénotypage du processus d’abscission du fruit du palmier à huile a été développé et utilisé pour identifier des génotypes à faible ou retard d’abscision des fruits arrivés à maturité. En parallèle, des analyses comparatives de transcriptomes et de protéomes issus de la zone d’abscission (ZA) du fruit ont été conduites tout au long du processus de séparation cellulaire, déclenché au laboratoire par un traitement à l’éthylène ou bien de manière naturelle au champ. Au total 1957 gènes présentent une expression différentielle significative dans la ZA du fruit au cours du processus d’abscission induit par l’éthylène. Parmi ces gènes, 64 sont spécifiquement (ou majoritairement) exprimés dans la ZA des fruits arrivés à maturité par comparaison avec les tissus où le processus de séparation cellulaire n’est pas observé (pédicelle et mésocarpe des fruits murs ; ZA non fonctionnelle des fruits immatures). Le profil d’expression de ces 64 gènes candidats a été également analysé dans la ZA des fruits mûrs prélevés au champ, afin de conforter leur rôle potentiel au cours de l’abscission déclenchée naturellement. Ainsi, en utilisant les nouvelles technologies de séquençage du transcriptome et du protéome, couplées à une analyse biochimique et cellulaire des modifications de la paroi dans la ZA, ce travail a permis de mettre en évidence la conservation de certains processus moléculaires associés à l’abscission des organes chez les monocotylédones par comparaison avec les espèces modèles dicotylédones, telles que la tomate et Arabidopsis. Par exemple, l’identification de gènes codant des polygalacturonases très proches de celles qui sont impliquées dans l’abscission de la fleur chez Arabidopsis suggère la conservation de leur fonction dans l’hydrolyse de la pectine des cellules des ZA, malgré la divergence phylogénétique entre les espèces. Enfin, ce travail a permis également d’identifier de nouveaux régulateurs associés au processus de séparation cellulaire et fournir une liste de gènes associés à des processus biologiques étroitement liés à la fonction de la ZA chez le fruit du palmier à huile. / Plant organ abscission is a complex developmental process that involves cell separation regulated by the environment, stress, pathogens and the physiological status of the plant. In particular, seed and fruit abscission play a central role in seed dispersion and plant reproductive success, and are common domestication traits with important agronomic consequences for many crop species. Oil palm (Elaeis guineensis) is cultivated throughout the tropical regions as one of the most economically important oil crop species in the world. The unsynchronized ripening of the oil palm fruit bunch leads to the abscission of the ripest fruit and consequently high labor cost for harvest and loss of yield. In this context, the control of oil palm ripe fruit abscission is an important agricultural concern for the cultivation of oil palm in a sustainable and cost effective way. In the present study, a protocol to phenotype the oil palm fruit abscission process was developed and used to identify a tree in the field that does not undergo ripe fruit abscission. In parallel, transcriptome and proteome analyses of the oil palm ripe fruit abscission zone (AZ) during abscission induced experimentally by ethylene compared to the AZ undergoing natural abscission in the field was performed. A total of 1,957 candidate genes were identified statistically as differentially expressed in the ripe fruit AZ during ethylene-induced abscission. Furthermore, a total of 64 of these differentially abundant candidates were statistically specific or enriched at least during one time point of the ethylene induced abscission, compared to their profiles in the AZ of immature fruit and the pedicel of ripe fruit, where cell separation is not observed. The profiles of these gene candidates were examined in the ripe fruit AZ undergoing natural abscission in the field to validate their potential role during abscission. Finally, the profiles of selected candidate genes were then examined in the AZ of the tree observed not to undergo fruit abscission in the field. The combined approaches provide evidence of wide scale conservation of the molecular components involved in organ abscission of this monocot compared with the model dicot plants tomato and Arabidopsis. For example, the identification of polygalacturonases very similar to those that function during Arabidopsis floral organ abscission suggests a conservation of the components for pectin disassembly despite the phylogenetic distance between these species. In addition, the data from the global analysis and complementary molecular, cellular and biochemical approaches suggest novel components and provide a robust list of genes and processes important for AZ function during ripe fruit abscission of this important monocot crop species. Abscission des fruits Éthylène Transcriptome Palmier à huile Séparation des cellules Zone d'abscission Fruit abscission Ethylene Transcriptome Oil palm Cell seperation Abscission zone
32	Drömmen om en effektiv inköpsprocess : ett modeföretags eviga kamp / The dream about an efficient buying process : the eternal struggle for a fashion company Larsson, Isabelle, Nilsson, Emma January 2011 (has links) För företag som verkar på den dynamiska och konkurrenskraftiga modemarknaden är den storautmaningen att skapa en hållbar konkurrensfördel för att på ett lönsamt sätt vinna kampen omkunden. Ett viktigt verktyg är en effektiv och flexibel inköpsprocess. Utformningen avinköpsprocessen avgör förmågan att möta den krävande modekundens efterfrågan. Vår studie avseratt undersöka hur inköpsprocessen bör organiseras hos en produktutvecklande modedetaljist för attvara effektiv och kunna möta marknadens förändringar. För att påvisa ämnets praktiska relevans ochförtydliga problematiken används ett fallföretag där kvalitativa empiriska undersökningar har utförts.En inköpsprocess består av olika aktiviteter som tillsammans påverkar processens utfall. Enprocesstyrd verksamhet separerar inte aktiviteterna från varandra utan vill förtydligaberoendeförhållandet mellan dem och skapa ett helhetsperspektiv. En förutsättning för att skapakundvärde är att processens samtliga aktiviteter arbetar med syfte att skapa värde för slutkunden.Inköpsprocessens aktiviteter bör även ha ett tydligt definierat utfall för att överlämningen till nästafas ska ske så effektivt som möjligt. I strävan att säkra kvaliteten på utfallet från varje aktivitet bliransvarsfördelningen inom inköpsprocessen en viktig fråga. En tydlig och balanserad uppdelning avarbetsuppgifter, ansvarsområden och slutgiltig beslutsfattare inom varje aktivitet ökar effektiviteten iprocessen och de interna ledtiderna reduceras.Företag X står inför en omorganisering av deras inköpsprocess då den i dagsläget inte upplevstillräckligt konkurrenskraftig. För att öka processens effektivitet, flexibilitet samt minska de internaledtiderna utförs en omfördelning av arbets‐ och ansvarsuppgifterna. Företagets designers hartidigare ägt allt ansvar över processens beslut, vilket gjort inköpsavdelningens betydelse nästintillobefintlig. Idag arbetar företaget för att öka varje aktivitets‐ och befattningsbetydelse för att säkraprocessens resultat och för att den inte ska, som tidigare, vara beroende av ett fåtal medarbetaresarbete. Genom omorganiseringen ska flera arbetsuppgifter utföras parallellt vilket gjort attöverlämningarna mellan avdelningarna fått en ökad betydelse. Företagets nya inköpsorganisation ärännu i sin uppstartsfas men fördelar och nackdelar kan ändå redan identifieras. Resultatet av denempiriska undersökningen visar på en större andel värdeskapande aktiviteter, en jämnareuppgiftsfördelning och en tydligare gemensam målsättning. Undersökningen påvisar även brister iform av att den tidigare strukturens ansvarsfördelning till mångt och mycket lever sig kvar vilkethämmar effektiviteten. Det saknas, trots identifieringen av överlämningarnas betydelse, tydligariktlinjer om vad överlämningarna ska innefatta och hur dem skall utföras.Vår slutsats är att en processtyrd inköpsprocess är att föredra för en produktutvecklandemodedetaljist. Det faktiska kundvärde som processen har för avsikt att skapa bör styra processensutformning både när det gäller ansvarsfördelning och värdeskapande aktiviteter.For companies that compete in the dynamic and highly compatible fashion market, the greatchallenge is to create a sustainable competitive advantage to be able to win the customer during themost profitable circumstances. An important tool for this ambition is an efficient and flexible buyingprocess. The structure of the buying process determines its requirement and ability to handle thedemanding demands of the fashion customer. Our essay aims to examine how the buying processshould be organized at a product developing fashion retailer to be efficient and able to deal with themarket changes. To make a statement regarding the practical relevance of the chosen theme and toelucidate the complex of problems, we chose to use a company to exemplify in where we carried outqualitative empirical research.A buying process consists of different activities that together have a direct impact at the output ofthe process. A business with a process management doesn’t separate the activities apart, instead itemphasize the interdependence between them and a comprehensive perspective by orientate themin a process. The requirement for creating customer value is for all the activities within the process tobe aware of the customer needs and bear it in mind when performing every single working task. Theactivities of the process should also have a clearly defined output so that the handing over to thenext phase will appear as efficient as possible. With the ambition to secure the output quality foreach activity, the responsibilities within the buying process become an important issue. E clearlydefined and balanced split of working tasks, responsibilities and final decision makers within eachactivity, increases the efficiency of the process and will result in reduced leadtimes.Company X is facing a re‐organisation of their buying process since its current capability doesn’treach a satisfying level of being competitive. To increase the efficiency, flexibility and the internalleadtimes, a redistribution of working tasks and responsibilities are being made. Previously, thedesigners of the firm have had the overall responsibility of the decisions of the process which haveresult in a lack of impact for the buying function. The company is trying to achieve an increasedimportance and impact of each of the activities within the process to secure the result of the outputin which it will not be depending on the work of a few members of the process.In the new structure of the firm’s buying process, the activities within the process are suppose to runparallel which requires hand overs performed with good quality. The new buying process is still in anearly stage but even so, advantages and disadvantages can be identified. The result of the empiricalresearch is showing an increased share of value added activities within the process, a more balancedsplit of working tasks and clearer common objectives from the participating activities and employees.The investigation also shows deficiencies in the new organization regarding the previous structure ofresponsibilities that is still affecting the efficiency in a non‐favorable way. There is also lack of clearguidelines for how the handovers should be performed.Our conclusion is that it’s favourable for a fashion retailer if their buying process has a processmanagement. The process should be designed in both terms of responsibilities and value creationactivities after the real customer value that the process is planning to create. / Program: Textilekonomutbildningen processtyrning buying process process management efficiency seperation of responsibilities customer inköpsprocess effektivitet ansvarsfördelning kundvärde ledtid värdekedja Economics and Business Ekonomi och näringsliv
33	Development and Application of ESI-MS Based Techniques to Study Non-Covalent Protein-Ligand Complexes in Solution and the Gas Phase Deng, Lu Unknown Date No description available. protein metal binding streptavidin biotin cooperativity ion mobility seperation gas phase stability collisional induced dissociation
34	"Jag ville bara försvinna men jag hade barnen att tänka på" : En kvalitativ studie om kvinnors utsatthet för våld Ariz, Susin January 2016 (has links) Denna uppsats ämnar undersöka kvinnors utsatthet i våldsamma relationer och vilka konsekvenser som uppkommit till följd av dessa. Uppsatsen belyser varför en kvinna stannar i en våldsam relation, vad som får henne att lämna den samt hur hennes självidentitet har påverkats efter att hon lämnat mannen och den våldsamma relationen. Metoden som har tillämpats har haft en kvalitativ utgångspunkt med semistrukturerade intervjuer av fem kvinnor som utsatts för våld i en nära relation. Med hjälp av de teoretiska utgångspunkterna, becoming an ex: the process of rote exit, våldets dynamik och normaliseringsprocessen samt social kapital har det varit möjligt att besvara studiens syfte och frågeställningar som nämnts ovan. Resultaten visar att våldets normalisering under relationen är en betydande bidragande faktor till att en kvinna stannar i en relation där hon är utsatt för våld. Uppsatsens resultat visar att en bidragande faktor till varför kvinnan väljer att lämna en våldsam relation är finnandet av en symbolisk mening till att inte kunna stanna kvar. En symbolisk mening kan vara att barnen far illa samt instinkten att mannen inte kommer ändra sitt beteende. Studiens resultat påvisar en tydlig förändring i självidentitet hos samtliga kvinnor som medverkat. Nyckelord: Kvinna, intervjuer, våld i nära relation, våldsutsatt, separation, normalisering / This study aims to investigate how five women have been affected by intimate partner violence and what consequences it has brought upon them. It also clarifies why women stay in violent relationships and what it takes to leave it at the end. The study also explores the effects on women’s self-esteem after leaving a violent relationship. The methodology used for this study has a qualitative approach and is processed through semi-structured interviews with five women who have experienced intimate partner violence. The theoretical theories that have been used and applied to this study are, “Becoming an example: the process of rotating the exit”, “The dynamics of violence and normalization” and “Social capital”. The results of the study show that the normalization of intimate partner violence is a major (contributing) factor to why women stay in violent relationships. The contributing factor to why women choose to leave violent relationships is finding of a purpose and a symbolic meaning to not participate in these types of relationships. Examples of these purposes and meanings are the potential harm to children, if children are involved in the situation, or realization of that there are no signs of behavioral change. All five women who participated in this study show a significant change in regards of identity. Keywords: Woman, interviews, intimate partner violence, victim of violence, separation, normalization. Woman interviews intimate partner violence victim of violence separation normalization Kvinna interrvjuer våld i nära relation våldsutsatt seperation normalisering
35	Signature optique d’effet Stark dans une bicouche de CuPc:C60 Dion-Bertrand, Laura-Isabelle 11 1900 (has links) Les hétérojonctions formées de deux matériaux, un donneur et un accepteur (D/A), sont la base de la majorité des mélanges photovoltaïques organiques. Les mécanismes de séparation des charges dans ces systèmes représentent aujourd'hui l'un des sujets les plus chauds et les plus débattus dans ce domaine. Nous entrons au coeur de ce débat en choisissant un système D/A à base de phtalocyanine de cuivre (CuPc) et de fullerène (C60). Pour sonder les états excités de nos molécules et obtenir de l'information sur les phénomènes à l'interface D/A, nous réalisons une expérience pompe-sonde, appelée absorption photoinduite (PIA). Nous y mesurons le changement fractionnaire de transmission au travers de l'échantillon. Les mesures de PIA sont réalisées à l'état de quasi équilibre, à T=10K. Nous observons une modulation prononcée dans la région du photoblanchiment de l'état fondamental qui nous indique que la pompe induit un décalage du spectre d'absorption de l'état fondamental. Ce décalage peut être expliqué par deux processus : soit l'échantillon est chauffé par la pompe (effet thermique) ou bien des charges sont créées à l'interface entre les deux matériaux (effet Stark). La dépendance en température du spectre d'absorption entre 10K et 290K montre une signature thermique pour un changement de température de 80K. Grâce au ratio des raies Raman anti-Stokes et Stokes, nous démontrons que la pompe chauffe l'échantillon de 34 K, température insuffisante pour attribuer notre signal à un effet thermique. Nous évaporons ensuite la bicouche CuPc/C60 sur de l'ITO et du saphir, substrats qui possèdent des conductivités thermiques différentes et nous observons le même signal de PIA, excluant par le fait même l'hypothèse de l'effet thermique. Puisque notre étude est comparable à la spectroscopie à effet Stark, nous procédons à une analyse similaire en comparant notre signal de PIA au spectre de la transmittance et à ses dérivés première et seconde. Nous observons alors que notre signal reproduit presque parfaitement la dérivée seconde de la transmittance. Ces résultats sont conformes à une signature optique d'effet Stark due à la création de charges à l'interface D/A. / Nowadays, the donor/acceptor (D/A) structure is one of the most popular configuration for organic solar cells. The charge separation mechanisms in this type of systems is now a hot topic of debate in this field of research. To adress this debate, we choose a D/A system made of copper phthalocyanine (CuPc) and fullerene (C60). In this work, we perform quasi-steady-state photoinduced absorption (PIA) measurements which consist of a pump-probe experiment where we measure the fractional change in transmission through the sample. This experiment probes the excited states of our molecules and gives us informations about the photophysics near the interface between the two materials. The measurements were mainly done at T=10K. We observe a strong modulation of the ground state photobleaching that indicates that the laser excitation induces a shift of the ground state absorption spectrum. This shift can be ascribed to two processes: either the pump is heating the sample (heat transfer) or charge are being created at the interface between the two materials (Stark effect). The temperature dependence of the absorption spectrum between T=10K and T=290K shows a thermal signature for a change in temperature of 80K. By calculating the ratio of the Raman Stokes and anti-Stokes peaks, we establish that the pump heat up the sample of 34K, an insufficient temperature to assign the change of transmittance to a thermal effect. We then evaporate our CuPc/C60 bilayer on ITO and sapphire, two substrates with different thermal conductivities and we observe the same signal thereby excluding the assumption of the thermal effect. Since our study bears a resemblance to Stark spectroscopy, we justify the use of a similar analysis by comparing our PIA signal to the transmittance spectrum of our molecules and its first and second derivative. We find that the signal reproduces almost perfectly the second derivative. Thus, we attribute the aforementioned results to an optical signature of Stark effect due to the creation of charges at the heterojunction. Organique photovoltaïque Séparation des charges Hétérojonctions Mélange donneur/accepteur Absorption photoinduite Organic photovoltaic Charges seperation Heterojunction Donor/acceptor system Photoinduced absorption
36	The rheological and structural properties of blends of polyethylene with paraffin wax Winters, Ian Douglas 29 August 2012 (has links) This research addresses and illuminates a little understood region of miscible polymer mixtures and demonstrates a new means of separating wax from such blends. The method, termed Deformation Induced Phase Segregation potentially eliminates need of toxic processing solvents for wax removal or recovery in these types of blends. Previous theories of polymer combinations address them exclusively as solutions or as blends, two independent classes having very different behaviors. This study provides bridge connecting these two classes by identifying crossover points between them and the behaviors exhibited therein. The blends of this form were found to be semi-miscible, forming a homogenous phase in the melt but a two-phase system in the solid, with the rheological behavior influenced by the polymer's molecular weight and architecture. It also demonstrates practical promise of this regime by introducing a mechanical compression process to separate the wax phase from such a type of blend. This process potentially permits production of ultra-high molecular weight polyethylene (UHMwPE) films and fibers by melt processing, thereby obviating need of otherwise essential but expensive and environmentally unfriendly toxic solvents. Melt Mixture Blend Concentrated solution Solution Phase diagram Polyethylene Paraffin Wax Rheology Viscosity Phase seperation Phase segregation Polymers Molecular weights Polymer engineering Polymers Rheology
37	Covariant Weyl quantization, symbolic calculus, and the product formula Gunturk, Kamil Serkan 16 August 2006 (has links) A covariant Wigner-Weyl quantization formalism on the manifold that uses pseudo-differential operators is proposed. The asymptotic product formula that leads to the symbol calculus in the presence of gauge and gravitational fields is presented. The new definition is used to get covariant differential operators from momentum polynomial symbols. A covariant Wigner function is defined and shown to give gauge-invariant results for the Landau problem. An example of the covariant Wigner function on the 2-sphere is also included. Weyl quantization Weyl calculus symbolic calculus pseudo-differential operators differential geometry point seperation method Wigner function world function semi-classical physics Faa di Bruno formula
38	Investigation Of Phase Separation In Bulk Heterojunction Solar Cells Via Self-assembly Approach And Role Of Organic Fluorine In Design Of n-type Molecular Semiconductors Siram, Raja Bhaskar Kanth 10 1900 (has links) (PDF) The present thesis is focused on rational design and synthesis of π-conjugated donoracceptor-donor (D-A-D) type oligomers and D-A type copolymers. Thesis is organized in seven chapters, apart from introduction remaining six chapters are grouped into two parts (A and B). Part A deals with Chapters 2, 3, 4 and Part B contains chapters 5, 6 and 7. A brief discussion on the content of individual chapters is provided below. Chapter 1 discusses the introduction to organic solar cell with operating principles and effect of spinodal decomposition on stability of the devices is presented. The status and literature related to the improvement of life time of the organic solar cells by self-assembly approach has been explored. In addition, design and synthesis of the fluorine substituted π-conjugated organic semiconductors for n-type OFETs and OLED has been discussed. Part A This part of the thesis attempt to address some of the challenges listed below (1) Investigation of miscibility of binary components in bulk heterojunction solar cells through H-bonding approach. (2) Synthesis of new low band gap molecular semiconductors having H-bonding sites. (3) Fabrication of bulk heterojunction solar cell devices using these new molecules and exploring the photovoltaics performance. Chapter 2, donor-acceptor-donor (D-A-D) concept has been employed to design low band gap oligomers named as TTB. Barbiturate functional group has been utilized to explore the concepts of supramolecular chemistry. It is shown that, TTB molecule self-organizes via intermolecular H-bonding between barbituric acid units. Interactions between the oligothiophene subunits were also found to be important, affording nanoribbons that were observed by atomic force and transmission electron microscopy. The applicability of TTB for organic electronic applications was investigated by fabricating organic field-effect transistors (OFETs) and organic photovoltaic device. The crystalline nanoribbons were beneficial in understanding the phase morphology of PCBM and TTB blend. Chapter 3, the self-assemble property of TTB was disrupted by the substitution of methyl group on the nitrogen of the barbituric acid moiety. The optical and electrochemical properties of the new derivative have been investigated by UV-Visible spectroscopy, photoluminescence spectroscopy and cyclic voltammetry. Further investigations on the effect of self-assembly on organic solar cells were carried out by fabricating BHJ and OFET. The results proved that the self-assembly within the donor moieties led to complete phase separation between the donor and acceptor which had an adverse effect on the photovoltaic performance. Chapter 4, the conjugation of TTB was extended by the synthesis of two new copolymers by polymerizing with two oliogothiophene (terthiophene and benzobithiophene) derivatives with different donating strength. The investigation of photophysical and electrochemical properties of copolymers were studied by varying the donating strength. As we increase the donating strength of oligothiophenes, the intramolecular charge transfer band of DA copolymers was red shifted. Further, density functional theory (DFT) calculation of these materials was carried out to get insight into their photophysical properties. Part B This part of the thesis attempt to address some of the challenges listed below (1) Investigation of fluorine substituted organic semiconductos like 2,2’ bithiazole and pheanthroimidazole. (2) Synthesis of pentafluoro phenyl appended derivatives of 2,2’ bithiazole and pheanthroimidazole. (3) Fabrication of OFETs and OLEDs using these new molecules and elucidated the device performance with molecular structure. Chapter 5, pentafluorophenyl appended 2,2’-bithiazole derivatives were synthesized. The single crystal x-ray diffraction studies shows the unusual strong type-II F•••F interactions within the distance of 2.668 Å, at an angle of 89.14° and 174.15°. It also shows the usual type-I F•••F interaction within the distance of 2.825Å, at an angle of 137.38° and 135.93°. Upon bromination type-II Br•••Br interaction was observed and the packing was further stabilized by S•••Br interactions. The conjugation was further extended with different aromatic and heteroaromatic substituents and synthesized the star shaped structure. The band gap as well as the electronic energy levels was tuned by substituting various aromatic and heteroaromatic substituents. These star shaped derivatives shows electron mobilities in the order of 10-4 to 10-3cm2/Vs. Chapter 6, Novel D-A copolymers were synthesized by Stille condensation of electron acceptor fluorinated phenanthroimidazole with electron donors like terthiophene and benzobithiophene. Prior to that insoluble pentafluoro phenyl phenanthroimidazole was Nalkylated in presence of DMF which concurrently resulted in C-F activation of the pentafluoro phenyl moiety. As we increase the donor strength from benzobithiophene to terthiophene the absorbance spectra was red shifted from 446 nm to 482 nm in solution and 455 nm to 484 nm in solid state. The band gap of these copolymers was found to be 2.4 eV for PIBDT and 2.2 eV for PIDHTT from the absorbance spectra. The photoluminescence data shows that these materials are promising for the yellow colour as well as orange colour displays, of narrow wavelength range (FWHM 40 nm for PIBDT and 35 nm for PIDHTT), which can be achieved just by the manipulation of donor moieties in the copolymers. The preliminary electroluminiscence data shows high brightness of 888cd/m2 (orange luminescence) for PIDHTT and 410cd/m2 (yellow luminescence) for PIBDT. Chapter 7, Acenaphtho[1,2-b]quinoxaline based donor–acceptor type low band gap conjugated copolymers were synthesized by Stille coupling reaction with the corresponding oligothiophene derivatives. The optical properties of the copolymers were characterized by ultraviolet-visible spectrometry while the electrochemical properties were determined by cyclic voltammetry. The band gap of these polymers was found to be in the range of 1.8-2.0 eV as calculated from the optical absorption band edge. The intense charge transfer band in absorption spectra shows the significant effect of acceptor in the copolymers. X-ray diffraction measurements show weak π–π stacking interactions between the polymer chains. The OFET devices fabricated using these co-polymers showed dominant p-channel transistor behavior with the highest mobility of 1×10-3cm2/Vs. Semiconductors Heterojunction Solar Cells Solar Cells Organic Semiconductors Oligomers - Synthesis Conjugated Polymers Copolymers - Synthesis Molecular Semiconductors Organic Solar Cells Solar Cells - Phase Seperation Oligothiophenes Barbiturate Copolymers Electrochemistry
39	Glued connection for TCC slabs : Experimental and Numerical investigation Halilovic, Ervin, Lotinac, Seid January 2022 (has links) Timber-concrete composite (TCC) structures are becoming more popular in several industrial applications as an efficient method for optimizing the structural performance and the cost of construction as well as lowering the emissions of carbon dioxide. TCC floors are more sustainable than pure concrete floors and more resistant to vibrations and excessive deflections than pure wooden floors. The effectiveness of a TCC floor is dependent on the connection between the materials. The stiffness and strength of the composite element increases by having a rigid connection. An example of a rigid connection is an adhesive-bonded connection, however obtaining a connection without slip is difficult considering there will always be certain amount of slippage in the connection. In this thesis adhesive connections are investigated with two different types of adhesive, one called Sikasil SG-500 and the other Sika PS. The application of the adhesives for the test specimen differ. Since Sika PS is a more fluid glue, a different approach was necessary than for the Sikasil SG-500. Five test specimen were tested of each adhesive by performing double shear push out tests and comparing the results to a numerical model, which was performed in ABAQUS. In the numerical model, the adhesive was created as a cohesive element. Furthermore the properties of the modeled adhesive was based on the experimental results for respective adhesive. The experimental results showed that both adhesives managed the estimated shear force in the serviceability limit state and the ultimate limit state and yet remained in the elastic region. Sikasil SG-500 turned out to be more flexible while Sika PS specimen resulted in higher shear strength. The short creep tests (30 minutes of a constant load) showed that the deformation increased more for Sika PS than for Sikasil SG-500. However both adhesives had large deformations after only 30 minutes. There was also a difference in the average longitudinal shear strength, where it resulted in 1.06 MPa for Sikasil SG-500 and 2.02 MPa for Sika PS. This study indicates that Sika PS is more preferable in TCC structures than Sikasil SG-500. TCC connection Composite element Adhesive connection Silicone Adhesive Polyurethane Adhesive Slip modulus Shear stress Cohesive elements Traction seperation law Mullins effect Hysteresis Civil Engineering Samhällsbyggnadsteknik
40	Turbulence Modeling for Predicting Flow Separation in Rocket Nozzles Allamaprabhu, Yaravintelimath January 2014 (has links) (PDF) Convergent-Divergent (C-D) nozzles are used in rocket engines to produce thrust as a reaction to the acceleration of hot combustion chamber gases in the opposite direction. To maximize the engine performance at high altitudes, large area ratio, bell-shaped or contoured nozzles are used. At lower altitudes, the exit pressure of these nozzles is lower than the ambient pressure. During this over-expanded condition, the nozzle-internal flow adapts to the ambient pressure through an oblique shock. But the boundary layer inside the divergent portion of the nozzle is unable to withstand the pressure rise associated with the shock, and consequently flow separation is induced. Numerical simulation of separated flows in rocket nozzles is challenging because the existing turbulence models are unable to correctly predict shock-induced flow separation. The present thesis addresses this problem. Axisymmetric, steady-state, Reynolds-Averaged Navier-Stokes (RANS) simulations of a conical nozzle and three sub-scale contoured nozzles were carried out to numerically predict flow separation in over-expanded rocket nozzles at different nozzle pressure ratios (NPR). The conical nozzle is the JPL 45◦-15◦ and the contoured nozzles are the VAC-S1, the DLR-PAR and the VAC-S6-short. The commercial CFD code ANSYS FLUENT 13 was first validated for simulation of separated cold gas flows in the VAC-S1 nozzle. Some modeling issues in the numerical simulations of flow separation in rocket nozzles were determined. It is recognized that compressibility correction, nozzle-lip thickness and upstream-extension of the external domain are the sources of uncertainty, besides turbulence modeling. In high-speed turbulent flows, compressibility is known to affect dissipation rate of turbulence kinetic energy. As a consequence, a reduction in the spreading rate of supersonic mixing layers occurs. Whereas, the standard turbulence models are developed and calibrated for incompressible flows and hence, do not account for this effect. ANSYS FLUENT uses the compressibility correction proposed by Wilcox [1] which modifies the turbulence dissipation terms based on turbulent Mach number. This, as shown in this thesis, may not be appropriate to the prediction of flow separation in rocket nozzles. Simulation results of the standard SST model, with and without the compressibility correction, are compared with the experimental data at NPR=22 for the DLR-PAR nozzle. Compressibility correction is found to cause under-prediction of separation location and hence its use in the prediction of flow separation is not recommended. In the literature, computational domains for the simulation of DLR subscale nozzles have thick nozzle-lips whereas for the VAC subscale nozzles they have no nozzle-lip. Effect of nozzle-lip thickness on flow separation is studied in the DLR-PAR nozzle by varying its nozzle-lip thickness. It is found that nozzle-lip thickness significantly influences both separation location and post-separation pressure recovery by means of the recirculation bubbles formed at the nozzle-lip. Usually, experimental values of free stream turbulence are unknown. So conventionally, to minimize solution dependence on the boundary conditions specified for the ambient flow, the computational domain external to the nozzle is extended in the upstream direction. Its effect on flow separation is studied in the DLR-PAR nozzle through simulations conducted with and without this domain extension. No considerable effect on separation location and pressure recovery is found. The two eddy-viscosity based turbulence models, Spalart-Allmaras (SA) model and Shear Stress Transport (SST) model, are well known to predict separation location better than other eddy-viscosity models, but with moderate success. Their performances, in terms of predicting separation location and post-separation wall pressure distribution, were compared with each other and evaluated against experimental data for the conical and two contoured nozzles. It is found that they fail to predict the separation location correctly, exhibiting sensitivity to the range of NPRs and to the type of nozzle. Depending on NPR, the SST model either under-predicts or over-predicts Free Shock Separation (FSS). Moreover, it also fails to capture Restricted Shock Separation (RSS). With compressibility correction, it under-predicts separation at all NPRs to a greater extent. Even though RSS is captured by using compressibility correction, the transition from FSS to RSS is over-predicted [2]. Early efforts by few researchers to improve predictions of nozzle flow separation by realizability corrections to turbulence models have not been successful, especially in terms of capturing both the separation types. Therefore, causes of turbulence modeling failure in predicting nozzle flow separation correctly were further investigated. It is learnt that limiting of the shear stress inside boundary layer, due to Bradshaw’s assumption, and over-prediction of jet spreading rate are the causes of SST model’s failure in predicting nozzle flow separation correctly. Based on this physical reasoning, values of the a 1 parameter and the two diffusion coefficients σk,2 and σω,2 were empirically modified to match the predicted wall pressure distributions with experimental data of the DLR-PAR and the VAC-S6-short nozzles. The results confirm that accurate prediction of flow separation in rocket nozzles indeed depends on the correct prediction of spreading rate of the supersonic separation-jet. It is demonstrated that accurate RANS simulation of flow separation in rocket nozzles over a wide range of NPRs is feasible by modified values of the diffusion coefficients in turbulence model. Rocket Nozzles Nozzle Flow Seperation Turbulence Modeling Contoured Rocket Nozzles Spalart-Allmaras (SA) Turbulence Model Rocket Nozzle Contours Shear Stress Transport SST Model Aerospace Engineering

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