Global ETD Search

361	Schwingungstechnische Auslegung von Betonrohrfertigern Schwabe, Jörg-Henry 06 May 2002 (has links) (PDF) Die Arbeit ist der Weiterentwicklung der Formgebungs- und Verdichtungsausrüstungen zur Herstellung von Beton- und Stahlbetonrohren gewidmet. Es werden die Grundlagen für eine schwingungstechnische Auslegung von Betonrohrfertigern mit stehendem und steigendem Kern geschaffen. Den Ausgangspunkt bildet die Untersuchung des Verdichtungsprozesses in Rohrfertigern und der Einflußgrößen auf die Vibrationsverdichtung des Betongemenges. Es werden experimentelle Untersuchungen an einem Versuchsstand und praktische industrielle Erfahrungen dargestellt. Für die schwingungstechnische Auslegung der Verdichtungseinrichtung von Rohrfertigern werden diskrete Modelle mit analytischen Lösungen sowie Modelle zur numerischen Simulation auf der Basis der Mehrkörperdynamik und der Finite-Elemente-Methode gebildet. Es erfolgen Empfehlungen zur Auslegung und Ansätze zur Weiterentwicklung von Rohrfertiger. Rohrfertiger Schwingungstechnik Selbstsynchronisation Vibrationserreger concrete pipe pipe-making machine self-synchronization vibration technology vibrator vibratory compaction ddc:620 Betonrohr Vibrationsverdichtung
362	Ground displacements and pipe response during pulled-in-place pipe installation. Cholewa, Johnathan 02 April 2009 (has links) Polymer pipes, typically high density polyethylene (HDPE), can be pulled-into-place, avoiding traditional cut-and-cover construction, using pipe bursting and horizontal directional drilling (HDD) pipe installation techniques. Of particular interest, are the ground displacements, induced by cavity expansion, associated with these techniques and the strains that develop in existing pipes in response to these displacements. Further, the axial stress-strain response of the new HDPE pipe during and after the cyclic pulling force history required to pull the pipe into place is of interest. Surface displacements and strains in an adjacent polyvinyl chloride (PVC) pipe induced by static pipe bursting were measured during the replacement of a new unreinforced concrete pipe. For the pipe bursting geometry tested, the maximum vertical surface displacement measured at the ground surface was 6 mm, while the distribution of vertical surface displacements extended no more than 2 m on either side of the centreline. The maximum longitudinal strain measured in the PVC pipe was less than 0.1% and its vertical diameter decreased by only 0.5%, suggesting that pipe bursting did not jeopardize the long-term performance of the water pipe tested. In addition, results from identical stress relaxation and creep tests performed on whole pipe samples and coupons trimmed from a pipe wall were compared, and these demonstrated that the coupons exhibited higher modulus than the pipe samples. Therefore, isolated pipe samples, as opposed to coupons, were tested to quantify the stress-strain response of HDPE pipe during the simulated installation, strain recovery, and axial restraint stages of HDD. Axial strains were found to progressively accumulate when an HDPE pipe sample was subjected to the cyclic stress history used to simulate an HDD installation. It was shown that existing linear and nonlinear viscoelastic models can serve as predictive design tools for estimating the cyclic strain history of HDPE pipe during installation. For the specific conditions examined, the tensile axial stresses redeveloped in the pipe samples, once restrained, were not large enough to lead to long-term stress conditions conducive to slow crack growth even when the short-term performance limits were exceeded by a factor of 1.5. / Thesis (Ph.D, Civil Engineering) -- Queen's University, 2009-04-01 18:19:24.434 Trenchless technology Pipe bursting Horiznontal directional drilling High density polyethylene Ground displacement Pipe Adjacent utility Strain Stress Long-term performance
363	Energy Losses in Cross Junctions Sharp, Zachary B., Rahmeyer, William J. 01 May 2009 (has links) Solving for energy losses in pipe junctions has been a focus of study for many years. Although pipe junctions and fittings are at times considered "minor losses" in relation to other energy losses in a pipe network, there are cases where disregarding such losses in flow calculations will lead to errors. To facilitate these calculations, energy loss coefficients (K-factors) are commonly used to obtain energy losses for elbows, tees, crosses, valves, and other pipe fittings. When accurate K-factors are used, the flow rate and corresponding energy at any location in a pipe network can be calculated. K-factors are well defined for most pipe junctions and fittings; however, the literature documents no complete listings of K-factors for crosses. This study was commissioned to determine the K-factors for a wide range of flow combinations in a single pipe cross and the results provide information previously unavailable to compute energy losses associated with crosses. To obtain the loss coefficients, experimental data were collected in which the flow distribution in each of the four cross legs was varied to quantify the influence of velocity and flow distribution on head loss. For each data point the appropriate K-factors were calculated, resulting in over one thousand experimental K-factors that can be used in the design and analysis of piping systems containing crosses. Cross junctions Energy loss coefficients Head loss coefficients Local loss coefficients Pipe fittings Pipe networks Civil and Environmental Engineering
364	Researching and Developing Universal Gas Purging Solutions / Undersökning och utveckling av rotgasplugg för flera rördimensioner Briheim, Ludvig, Ståhl, Dennis January 2020 (has links) In the welding of more sensitive metals such as stainless steel, titanium and some specific nickel alloys, the presence and application of a protective gas is essential. Without the use of a nonreactive shielding gas, defects occur in or adjacent to the weld joint, which vary from light discoloration of the weld bead to the direct onset and propagation of cracks. The supply of shielding gas is usually via the welding tool. Unfortunately, when it comes to welding pipes, the problem arises when the root bead comes into contact with the oxygen present within the pipe. Since the shielding gas supplied from the welding tool has no possibility of penetrating into the pipe and protecting the melt from the oxygen, the result consequence will be defects in the weld bead. To prevent this from happening, the pipes are sealed before welding and the oxygen in the pipe is purged and replaced with protective gas. Due to the fact that pipe welding operations concern a vast spectrum of pipe dimensions, complications arise for the welding operator as the solutions available have a low degree of adaptability. Thus, the purpose of this project is to investigate the possibility of designing and developing a new method of supplying root gas protection that can be adapted to several pipe diameters. Field studies at welding companies resulted in the clarification of which diameter spans the root gas protection solution should comply with, the pipe diameter span to cater for was identified as 25-100 mm in diameter. Requests were also made regarding the robustness of the product, with expressed desire for the product to withstand the strenuous working environment often encountered during welding operations. Solution proposals were produced which later developed into six separate concepts. From these six concepts, one was selected as the foremost solution and further developed for construction. The concept was sketched out and reproduced using CAD and a model was made using 3D printers. The model showed a need for modifications as it was not of a sufficiently adaptable nature. A modified model was thus developed and manufactured using a 3D printer, this modified model showed better results of adaptation to different pipe diameters. Furthermore, a flow analysis of the gas as it enters via the root gas plug and into the pipe was conducted, to verify total distribution of the gas within the pipe. The material with which to construct the concept with will be silicone infused with additives to make it more heat resistant and more resistant to wear. However, the exact mixture of silicone and additives in question was not available for this project but is something that is intended for future work. The concept meets the specified requirements of being applicable to multiple pipe diameters, more specifically so meeting the wishes of those active within the industry, covering a pipe span of 25- 100 mm. / Vid svetsning av mer känsliga metaller såsom rostfritt stål, titan och vissa specifika nickellegeringar är närvaron och tillämpningen av en skyddsgas väsentligt. Utan nyttjandet av en icke reaktiv skyddsgas uppkommer defekter i eller intill svetsfogen, vilka varierar från lätta missfärgningar av svetssträngen till den direkta uppkomsten och propageringen av sprickor. Tillförseln av skyddsgas sker vanligtvis via svetsverktyget. När det kommer till svetsning av rör uppstår dessvärre problemet att rotsträngen kommer i kontakt med syret som finns på insidan av röret. Eftersom att den skyddsgas som tillförs från svetsverktyget inte har någon möjlighet att tränga sig in i röret och skydda smältan från syret kommer det resultera i en svetssträng med defekter. För att förhindra detta från att ske tätas rören innan svetsning och syret i röret ersätts med skyddsgas. Eftersom att de rör som skall sammanfogas förekommer i flera dimensioner uppstår komplikationer för svetsoperatören ty de lösningar som finns tillgängliga har låg anpassningsgrad. Därmed är syftet med detta projekt att undersöka möjligheten att designa och utveckla ett nytt rotgasskydd som kan anpassas till flera diametrar. Fältstudier hos svetsföretag resulterade i ett tydligt spann för vilka diametrar som bör tillgodoses med sagda rotgasskydd, detta spann av rördiametrar var 25-100 mm. Det uppgavs även önskemål om säkerställning av att produkterna är robusta nog att klara den påfrestande arbetsmiljö som ofta förekommer vid svetsning. Lösningsförslag lades fram vilket senare utvecklades till sex separata koncept. Från dessa sex koncept utsågs en som den främsta lösningen och togs vidare till konstruktion. Konceptet skissades upp i CAD och en modell gjordes i 3D-skrivare. Modellen visade upp behov på modifieringar då den inte var av tillräckligt anpassningsbar karaktär. En modifierad modell togs därmed fram och tillverkades i en 3D-skrivare, denna modifierade modell visade bättre prov på anpassning till olika rördiametrar. Vidare gjordes en flödesanalys av gasen då den färdas in via rotgaspluggen, vilket visade att gasen fyller röret som önskat. Materialet som konceptet kommer tillverkas i är silikon med tillförda additiv för att göra det mer värmebeständigt och mer resistent mot slitage. Den exakta blandningen av silikon och additiv i fråga var dock inte tillgängliga till detta projekt utan är något som får gå till vidare arbete. Konceptet uppfyller kraven på anpassning till flera rördiametrar och möter mer specifikt även önskemålet från branschaktiva med dess spann på 25-100 mm. Gas Purging Plug Pipe Purging Root Shielding Shielding Gas Pipe Welding Rotgasplugg Rotgasskydd Skyddsgas Rörsvetsning Rörrengöring Mechanical Engineering Maskinteknik
365	Comparison between field and analytical results on the structural performance of deeply buried 42&60-inch diameter high density polyethylene pipes AL Tarawneh, Bashar K. January 2002 (has links) No description available. Engineering, Civil Structural Performance Deeply Buried Pipes 42-inch Diameter Pipe 60-inch Diameter Pipe High Density Pipes Polyethylene Pipes
366	Experimental investigation into the effects of voids on the response of buried flexible pipes subjected to incrementally increasing cyclic loading Aljaberi, Mohammad, Elshesheny, A., mohamed, mostafa, Mostafa, Mohamed, Sheehan, Therese 07 August 2024 (has links) Yes / In this study, large-scale fully instrumented laboratory tests were conducted to investigate the behaviour of buried flexible high-density polyethylene (HDPE) pipes, in sand beds with and without voids subjected to incrementally increasing cyclic loading. Voids with a predetermined size were created at one side of the springlines of the pipes, which were buried at variable depths, H, of 1.5, 2.0 and 2.5 times the diameter of the pipe, D. Results showed that increasing the pipe burial depth, H/D, contributed to decreasing the settlement of the footing, deformation of the pipe crown and invert, lateral displacement of the spring-line, and the stress and strain generated along the pipe crown and invert. Void presence led to a significant increase in the footing settlement, which ranged from 3 % up to 18 %, according to H/D. Furthermore, void presence led to a sharp increase in the crown, invert, and spring-line settlements, which ranged from 34 % to 52 %, 10 %–12.5 %, and 13 %–38 %, respectively. Increasing pipe burial depth was found to be highly effective in protecting buried pipes, minimising inevitable consequences of the presence of voids. However, this was combined with an increase in the pressure at the pipe spring-line that led to a positive horizontal support at the pipe’s spring-lines resulting in reducing pipe deformation. Arching mechanism Buried flexible pipe Erosion voids Incremental cyclic loading Large-scale laboratory tests Pipe burial depth Strain gauge
367	Funktion des Wind-Proteins in Drosophila melanogaster bei Faltung und/ oder Transport des sekretorischen Proteins Pipe / Function of Wind in Drosophila melanogaster in folding of the secretory protein Pipe Barnewitz, Kathrin 01 July 2004 (has links) No description available. Mathematics and Computer Science Wind Pipe PDI COS7 Protein Faltung 570 Biowissenschaften Biologie Wind Pipe PDI COS7 protein folding 30 42 W
368	A numerical study of the axial compressive behavior of a hyperelastic annular seal constrained in a pipe Bartel, Alix 12 September 2016 (has links) Elastomer seals are used in a variety of industries that require flow isolation. The characterization of the behavior of these seals remains largely unexplored and hence, this study is focused on simulating and validating the axial-compressive behavior of an annular rubber seal constrained concentrically in a pipe. The elastomer material composing the seal, was experimentally characterized for its mechanical, frictional, and viscoelastic properties and modelled using models developed by Yeoh, Thirion, and Prony respectively. A 2D axisymmetric finite-element model was developed using ANSYS 16 and used alongside the material models to simulate an axial load versus displacement curve, a contact pressure distribution, and a pipe hoop strain gradient. The results for quasi-static loading and viscoelastic effects agreed within 7% and 18% of the experimental results, respectively. It was observed that pipe geometry, rubber chemistry, frictional properties, and viscoelastic effects have significant effect on the compressive behavior of the seal. / October 2016 FEA Rubber Hyperelasticity Pipe Stress Sealing Pressure Rubber Friction Sealing Seal Packer Elastomer Simulation ANSYS Viscoelasticity Yeoh Prony Pipeline Contact Pressure Thirion Finite Element Analysis Pipe
369	Análise experimental sobre a utilização de sensores infravermelhos em provadores de vazão de fluidos claros Barone, Marcelo Aiolfi 29 October 2012 (has links) Made available in DSpace on 2016-12-23T14:08:10Z (GMT). No. of bitstreams: 1 Marcelo Aiolfi Barone - cap 00 - 01 - 02 - 03 - 04.pdf: 1483841 bytes, checksum: f4e05e25d485e179dfceea82acfc06b7 (MD5) Previous issue date: 2012-10-29 / Coordenação de Aperfeiçoamento de Pessoal de Nível Superior / Este trabalho utiliza um protótipo de escala laboratorial do medidor primário pipe prover de modo a avaliar a sua conformidade com os requisitos estabelecidos por normas técnicas e examinar a incerteza da medição da vazão realizados, além de verificar a reprodutibilidade das medições, testes com esferas de diferentes diâmetros, a influência de parâmetros operacionais tais como a variação da pressão de operação e comparação com o teste gravimétrico. O protótipo é feito de tubos plástico com dimensões definidas estatisticamente. Dentro do tubo, uma esfera de elastômero interferente é impulsionada por um escoamento fornecido por uma bomba centrífuga. O sistema de detecção usa sensores de luz infravermelha capaz de detectar a passagem das esferas sem causar interferência ou bloqueio na tubulação. O sistema de aquisição de dados é automático e registra o tempo de trânsito da esfera através de cada pulso de sinal detectado bem como os pulsos gerados por um medidor calibrado tipo turbina, como comparação da avaliação das incertezas de processo utilizando o desempenho da técnica dos sensores infravermelhos / The work uses a laboratory scaled prototype of primary pipe prover flowmeter in order to assess conformity with the requirements established by technical standards and examine the uncertainties of flow measurement performed, besides to check the reproducibility of measurements, tests with spheres of different diameters, the influence of operating parameters such as operating pressure variation and comparison with gravimetric test. The prototype is plastic tubing and considering statically defined dimensions. Inside tubing, an interfering elastomer sphere is driven by flow provided by a centrifugal pump. The detection system uses infrared light sensors able to detect the spheres passage causing pipeline interference or blockage. The acquisition data system is automatic and records the sphere transit time through each pulse signal detected as well as the pulses generated by a calibrated turbine meter, as comparison of the evaluation of process uncertainties using the technique performance with infrared sensors pipe prover Incerteza Medição de vazão Método gravimétrico, Reprodutibilidade Medidor primário Pipe prover Uncertainty Flow measurement Gravimetric method Reproducibility Primary meter CNPQ::ENGENHARIAS::ENGENHARIA MECANICA
370	Analysis of Pipeline Systems Under Harmonic Forces Salahifar, Raydin 10 March 2011 (has links) Starting with tensor calculus and the variational form of the Hamiltonian functional, a generalized theory is formulated for doubly curved thin shells. The formulation avoids geometric approximations commonly adopted in other formulations. The theory is then specialized for cylindrical and toroidal shells as special cases, both of interest in the modeling of straight and elbow segments of pipeline systems. Since the treatment avoids geometric approximations, the cylindrical shell theory is believed to be more accurate than others reported in the literature. By adopting a set of consistent geometric approximations, the present theory is shown to revert to the well known Flugge shell theory. Another set of consistent geometric approximations is shown to lead to the Donnell-Mushtari-Vlasov (DMV) theory. A general closed form solution of the theory is developed for cylinders under general harmonic loads. The solution is then used to formulate a family of exact shape functions which are subsequently used to formulate a super-convergent finite element. The formulation efficiently and accurately captures ovalization, warping, radial expansion, and other shell behavioural modes under general static or harmonic forces either in-phase or out-of-phase. Comparisons with shell solutions available in Abaqus demonstrate the validity of the formulation and the accuracy of its predictions. The generalized thin shell theory is then specialized for toroidal shells. Consistent sets of approximations lead to three simplified theories for toroidal shells. The first set of approximations has lead to a theory comparable to that of Sanders while the second set of approximation has lead to a theory nearly identical to the DMV theory for toroidal shells. A closed form solution is then obtained for the governing equation. Exact shape functions are then developed and subsequently used to formulate a finite element. Comparisons with Abaqus solutions show the validity of the formulation for short elbow segments under a variety of loading conditions. Because of their efficiency, the finite elements developed are particularly suited for the analysis of long pipeline systems. Thin Shells Harmonic Forces Finite Element Closed-form Solution Circular Cylindrical Thin Shell Toroidal Thin Shell Fourier Series Tensor Calculus Pipeline Systems Pipe Pipe Bend Elbow

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