957 resultados para 2D cutting and packing
Resumo:
Chromatographic fractionation of the EtOH extract from the leaves of Swartzia langsdorffii afforded the pentacyclic triterpenes oleanolic acid and lupeol, and two saponins: oleanolic acid 3-sophoroside and the new ester 3-O-b-D-(6'-methyl)-glucopyranosyl-28-O-b-D-glucopyranosyl-oleanate. Their structures were elucidated from spectral data, including 2D NMR and HRESIMS experiments. Antifungal activity of all isolated compounds was evaluated, using phytopathogens Cladosporium cladosporioides and C. sphaerospermum, and human pathogens Candida albicans, C. krusei, C. parapsilosis and Cryptococcus neoformans.
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Salix martiana Leyb. is an endemic species from the Amazon river floodplain areas (varzeas), of the State of Amazonas. Stems and leaves were extracted with dichloromethane, methanol and hydro-alcohol and these extracts were fractionated by using conventional chromatographic techniques. The major substances isolated, salicin and trichocarposide (6-0-p-coumaroyl salicin), were determined through analyses of NMR 1D (¹H and 13C) and NMR 2D (gHSQC and gHMBC). These compounds were isolated for the first time in Salix martiana Leyb. (Salicaceae). The percentage of these compounds in S. martiana is very high. The extracts were analyzed for their DPPH antioxidant capacity and the methanolic from the leaves and the hydro-alcoholic from the stems were the more active.
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Twelve novel 4-thiazolidinone derivatives (2a-l) have been synthesized by reacting formilpyridine thiosemicarbazones (1a-l) and anhydride maleic in toluene. Their chemical structures were confirmed by IR, ¹H and 13C NMR. The new compounds were submitted to in vitro evaluation against pathogenic Gram-positive, Gram-negative bacteria and yeasts. The findings obtained showed that the compounds 2a, 2d, 2e and 2g were effective against some of the bacterial strains used, whereas the compounds 2d, 2e and 2i exhibited a moderate antifungal activity against the yeast strains evaluated. An initial structure activity relationship (SAR) was established.
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This paper describes 2D-QSAR and 3D-QSAR studies against Candida albicans and Cryptococcus neofarmans for a set of 20 bisbenzamidines. In the studies of 2D-QSAR with C. albicans it was obtained a correlation between log MIC-1 and lipolo component-Z (r² = 0.68; Q² = 0.51). In the case of C. neofarmans a correlation between log MIC-1 and lipolo component-Z and of Balaban index (r² = 0.85; Q² = 0.6) was obtained. 3D-QSAR studies using CoMFA showed that the steric fields contributed more to the predicted activities for Candida albicans (94.9%) and Cryptococcus neofarmans (97.9%).
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Bioguided fractionation of Agelas cerebrum crude extract resulted in isolation of four bromopyrrole and four bromopyrrole aminoimidazole alkaloids, identified as 5-bromopyrrole-2-carboxylic acid (1), 4-bromopyrrole-2-carboxylic acid (2), 3,4-bromopyrrole-2-carboxylic acid (3), 4,5-bromopyrrole-2-carboxylic acid (4), oroidin (5), bromoageliferin (6), dibromoageliferin (7) and dibromosceptrin (8) on the basis of spectroscopic data analyses (UV, IR, HRMS, 1D and 2D NMR) and comparison with literature data. This is the first report of compounds 2 and 3 in a marine sponge belonging to the Agelas genus and the first evidence of the presence of 1 from a natural source.
Resumo:
Phytochemical investigations of the stem bark, leaves and twigs of Guatteria citriodora resulted in the isolation of eight alkaloids: liriodenine, lysicamine, O-methylmoschatoline, 3-methoxyoxoputerine, palmatine, 3-methoxyguadiscidine, guattescidine and oxoputerine. The structures of the isolated substances were established by extensive spectroscopic techniques (1D and 2D NMR) and mass spectrometry (MS), as well as by comparison with data reported in the literature. The in vitro antimalarial activity of the alkaloidal fractions of the leaves and twigs against Plasmodium falciparum FCR3 showed significant results, with IC50 = 1.07 and 0.33 mg mL-1, respectively. The alkaloidal fraction of the leaves showed moderate activity against Enterococcus faecalis, with IC50 = 125.0 mg mL-1. Antiplasmodial and antibacterial activities are attributed to alkaloidal constituents.
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The correct utilization of non-wood raw material allows reducing tree cutting and reduces emissions of carbon dioxide from burning of non-wood plants on farmers fields. Also it allows increasing economical situation in regions that non-wood plants are grown and where they are converted into pulp and paper. Also it gives positive effect on population pressure of work by addition of working place. In the literature survey included an overview of the historical meaning of non-wood pulp on developing paper production and structure of non-wood pulps. Moreover, anatomical and chemical composition of straw, reed and bamboo were studied more detailed. Also, an overview of the utilization of non-wood pulp in papermaking was made. Especially tissue, tree-free and release papers were reviewed. In the experimental part the goal was to investigate suitability of non-wood pulp like wheat straw pulp and bamboo pulp for different fiber products. Finally release and tree-free paper products were selected for experimental studies. It was discovered that wheat straw, especially screened wheat straw, showed good results for release paper. Also utilization of wheat straw and bamboo pulp in tree-free paper showed good results and suitability of these non-wood pulps for tree-free paper production. Also it was noticed that addition of wheat straw pulp gave positive effect on initial wet strength for release and tree-free paper.
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The objective of the work is to study fluid flow behavior through a pinch valve and to estimate the flow coefficient (KV ) at different opening positions of the valve. The flow inside a compressed valve is more complex than in a straight pipe, and it is one of main topics of interest for engineers in process industry. In the present work, we have numerically simulated compressed valve flow at different opening positions. In order to simulate the flow through pinch valve, several models of the elastomeric valve tube (pinch valve tube) at different opening positions were constructed in 2D-axisymmetric and 3D geometries. The numerical simulations were performed with the CFD packages; ANSYS FLUENT and ANSYS CFX by using parallel computing. The distributions of static pressure, velocity and turbulent kinetic energy have been studied at different opening positions of the valve in both 2D-axisymmetric and 3D experiments. The flow coefficient (KV ) values have been measured at different valve openings and are compared between 2D-axisymmetric and 3D simulation results.
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Diplomityössä tavoitteena oli suunnitella kantava modulaarinen kehikkorakenne, joka soveltuu käytettäväksi erilaisissa tasoratkaisuissa. Suunnittelumetodina käytettiin järjestelmällistä tuotesuunnittelua. Rakenteen tuli olla modulaarinen, valmistettavissa laserleikkaamalla ja toteutettu ruuviliitoksilla. Lisäksi kehikkorakenteen suunnittelussa pyrittiin optimaalisimpaan ratkaisuun niin teknisen kuin taloudellisenkin toteutuksen kannalta. Premekon Oy investoi vuonna 2009 laserleikkuukeskukseen, jossa pystytään leikkaamaan levyjä ja palkkeja. Yhdessä oikeanlaisen tuotesuunnittelun kanssa laserleikkuukeskuksella pystytään valmistamaan tuotteita suurella tuotantotehokkuudella. Kantavan modulaarisen kehikkorakenteen kehittäminen mahdollisti laserleikkuun aiempaa tehokkaamman hyödyntämisen. Työssä tarkasteltiin yksityiskohtaisemmin erilaisten profiilien soveltuvuutta laserleikattavaksi, osien muotoilua, liitosten yhteensopivuutta ja lujuutta.
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Advancements in IC processing technology has led to the innovation and growth happening in the consumer electronics sector and the evolution of the IT infrastructure supporting this exponential growth. One of the most difficult obstacles to this growth is the removal of large amount of heatgenerated by the processing and communicating nodes on the system. The scaling down of technology and the increase in power density is posing a direct and consequential effect on the rise in temperature. This has resulted in the increase in cooling budgets, and affects both the life-time reliability and performance of the system. Hence, reducing on-chip temperatures has become a major design concern for modern microprocessors. This dissertation addresses the thermal challenges at different levels for both 2D planer and 3D stacked systems. It proposes a self-timed thermal monitoring strategy based on the liberal use of on-chip thermal sensors. This makes use of noise variation tolerant and leakage current based thermal sensing for monitoring purposes. In order to study thermal management issues from early design stages, accurate thermal modeling and analysis at design time is essential. In this regard, spatial temperature profile of the global Cu nanowire for on-chip interconnects has been analyzed. It presents a 3D thermal model of a multicore system in order to investigate the effects of hotspots and the placement of silicon die layers, on the thermal performance of a modern ip-chip package. For a 3D stacked system, the primary design goal is to maximise the performance within the given power and thermal envelopes. Hence, a thermally efficient routing strategy for 3D NoC-Bus hybrid architectures has been proposed to mitigate on-chip temperatures by herding most of the switching activity to the die which is closer to heat sink. Finally, an exploration of various thermal-aware placement approaches for both the 2D and 3D stacked systems has been presented. Various thermal models have been developed and thermal control metrics have been extracted. An efficient thermal-aware application mapping algorithm for a 2D NoC has been presented. It has been shown that the proposed mapping algorithm reduces the effective area reeling under high temperatures when compared to the state of the art.
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The aim of this work was to make tofu from soybean cultivar BRS 267 under different processing conditions in order to evaluate the influence of each treatment on the product quality. A fractional factorial 2(5-1) design was used, in which independent variables (thermal treatment, coagulant concentration, coagulation time, curd cutting, and draining time) were tested at two different levels. The response variables studied were hardness, yield, total solids, and protein content of tofu. Polynomial models were generated for each response. To obtain tofu with desirable characteristics (hardness ~4 N, yield 306 g tofu.100 g-1 soybeans, 12 g proteins.100 g-1 tofu and 22 g solids.100 g-1 tofu), the following processing conditions were selected: heating until boiling plus 10 minutes in water bath, 2% dihydrated CaSO4 w/w, 10 minutes coagulation, curd cutting, and 30 minutes draining time.
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In the industry of the case company, transportation and warehousing costs account for more than 10% of the total cost which is more than on average. A Finnish company has an understanding that by sending larger shipments in parcels, they could save tens of thousands of euros annually in freight costs in Finland’s domestic shipments. To achieve these savings and optimize total logistics cost, company’s interest is to find out which is the cost efficient way of shipping road shipments of certain volumes; in parcel boxes or on pallets, and what should be the split volume determining the shipment type. Distribution center (DC) costs affect this decision and therefore they need to be also evaluated to determine the total logistics cost savings. Main results were achieved by executing activity-based costing-calculations including DC and road freight costs to determine the ideal split volume with which the total logistics cost is optimal. Calculations were done for Finland’s DC, separately for two main road freight destinations, Finland and Sweden, which cover 50% of road shipment spend. Data for calculations was collected both manually and automatically from various internal and external sources, such as the company ERP system and logistics service providers’ (LSP) reporting. DC processes were studied in practice and compared to model processes. Currently used freight rates were compared to existing pricing models and freight service tendering process was evaluated by participating in the process and comparing it to the models based on literature. The results show that the potential savings are not as significant as the company hoped for, mainly because of packing work increasing DC labor cost. Annual savings by setting ideal split volume per country would account for 0,4 % of the warehousing and transportation costs of shipments in scope of this thesis. Split volume should be set separately for each route, mainly because the pricing model for road freight is different in each country. For some routes bigger parcels should be sent but for some routes pallets should be used more. Next step is to do these calculations for remaining routes to determine total savings potential. Other findings show that the processes in the DC are designed well and the company could achieve savings by executing tenders more efficiently. Company should also pay more attention to parcel pricing and packing the shipments accordingly.
Resumo:
This letter remarks on the arrival of spring and Eleanore Celeste soon reuniting with Arthur. She describes some pain concerning a wisdom tooth cutting and stepping on a tack and then stubbing her foot on her bed. This letter is labelled number 135.
Resumo:
La scoliose idiopathique (SI) est une déformation tridimensionnelle (3D) de la colonne vertébrale et de la cage thoracique à potentiel évolutif pendant la croissance. Cette déformation 3D entraîne des asymétries de la posture. La correction de la posture est un des objectifs du traitement en physiothérapie chez les jeunes atteints d’une SI afin d’éviter la progression de la scoliose, de réduire les déformations morphologiques et leurs impacts sur la qualité de vie. Les outils cliniques actuels ne permettent pas de quantifier globalement les changements de la posture attribuables à la progression de la scoliose ou à l’efficacité des interventions thérapeutiques. L’objectif de cette thèse consiste donc au développement et à la validation d’un nouvel outil clinique permettant l’analyse quantitative de la posture auprès de personnes atteintes d’une SI. Ce projet vise plus spécifiquement à déterminer la fidélité et la validité des indices de posture (IP) de ce nouvel outil clinique et à vérifier leur capacité à détecter des changements entre les positions debout et assise. Suite à une recension de la littérature, 34 IP représentant l’alignement frontal et sagittal des différents segments corporels ont été sélectionnés. L’outil quantitatif clinique d’évaluation de la posture (outil 2D) construit dans ce projet consiste en un logiciel qui permet de calculer les différents IP (mesures angulaires et linéaires). L’interface graphique de cet outil est conviviale et permet de sélectionner interactivement des marqueurs sur les photographies digitales. Afin de vérifier la fidélité et la validité des IP de cet outil, la posture debout de 70 participants âgés entre 10 et 20 ans atteints d'une SI (angle de Cobb: 15º à 60º) a été évaluée à deux occasions par deux physiothérapeutes. Des marqueurs placés sur plusieurs repères anatomiques, ainsi que des points de référence anatomique (yeux, lobes des oreilles, etc.), ont permis de mesurer les IP 2D en utilisant des photographies. Ces mêmes marqueurs et points de référence ont également servi au calcul d’IP 3D obtenus par des reconstructions du tronc avec un système de topographie de surface. Les angles de Cobb frontaux et sagittaux et le déjettement C7-S1 ont été mesurés sur des radiographies. La théorie de la généralisabilité a été utilisée pour déterminer la fidélité et l’erreur standard de la mesure (ESM) des IP de l’outil 2D. Des coefficients de Pearson ont servi à déterminer la validité concomitante des IP du tronc de l’outil 2D avec les IP 3D et les mesures radiographiques correspondantes. Cinquante participants ont été également évalués en position assise « membres inférieurs allongés » pour l’étude comparative de la posture debout et assise. Des tests de t pour échantillons appariés ont été utilisés pour détecter les différences entre les positions debout et assise. Nos résultats indiquent un bon niveau de fidélité pour la majorité des IP de l’outil 2D. La corrélation entre les IP 2D et 3D est bonne pour les épaules, les omoplates, le déjettement C7-S1, les angles de taille, la scoliose thoracique et le bassin. Elle est faible à modérée pour la cyphose thoracique, la lordose lombaire et la scoliose thoraco-lombaire ou lombaire. La corrélation entre les IP 2D et les mesures radiographiques est bonne pour le déjettement C7-S1, la scoliose et la cyphose thoracique. L’outil est suffisamment discriminant pour détecter des différences entre la posture debout et assise pour dix des treize IP. Certaines recommandations spécifiques résultents de ce projet : la hauteur de la caméra devrait être ajustée en fonction de la taille des personnes; la formation des juges est importante pour maximiser la précision de la pose des marqueurs; et des marqueurs montés sur des tiges devraient faciliter l’évaluation des courbures vertébrales sagittales. En conclusion, l’outil développé dans le cadre de cette thèse possède de bonnes propriétés psychométriques et permet une évaluation globale de la posture. Cet outil devrait contribuer à l’amélioration de la pratique clinique en facilitant l’analyse de la posture debout et assise. Cet outil s’avère une alternative clinique pour suivre l’évolution de la scoliose thoracique et diminuer la fréquence des radiographies au cours du suivi de jeunes atteints d’une SI thoracique. Cet outil pourrait aussi être utile pour vérifier l’efficacité des interventions thérapeutiques sur la posture.
Resumo:
Ce travail est consacré à l’étude de la coalescence de gouttelettes liquides à l’échelle du nanomètre. Nous nous sommes intéressés principalement à l’évolution du changement topologique des gouttelettes à partir de la rupture des surfaces au moment du contact initial jusqu’à la coalescence complète. Nous utilisons la dynamique moléculaire afin de simuler plusieurs types de gouttelettes soit en utilisant le potentiel empirique de type Stillinger-Weber pour des gouttelettes de silicium (l-Si) en 3 dimensions et le modèle Embedded Atom Method pour des gouttelettes de cuivre liquide (l-Cu) en 2d, quasi-2d (disques) et 3 dimensions. Qualitativement, toutes les simulations démontrent une coalescence similaire indépendamment de la dimension de calcul (2d à 3d), de la taille et de la température initiale des gouttelettes. La coalescence évolue par une déformation rapide des surfaces sans mixage important entre les atomes des deux gouttelettes initiales. De plus, nous étudions l’évolution du col de coalescence formé lors du contact initial entre les gouttelettes et, pour les systèmes en 3d, nous observons une transition claire d’un régime visqueux vers un régime inertiel du rayon de ce col, tel que suggéré par des modèles théoriques. Pour les gouttelettes de cuivre nous observons exactement le comportement des prédictions analytiques et confirmons que le premier régime suit un comportement visqueux sans aplatissement local des gouttelettes. La situation est différente pour les gouttelettes de l-Si où nous observons un effet plus grand, par rapport aux prédictions analytiques, du rayon et de la température initiale des gouttelettes sur l’évolution du col de coalescence. Nous suggérons que les paramètres décrivant l’évolution de la coalescence dépendent des propriétés des matériaux utilisés contrairement à la théorie universelle couramment utilisée.
