Relevant bibliographies by topics / Piping

Academic literature on the topic 'Piping'

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Published: 4 June 2021
Last updated: 30 July 2024

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Journal articles on the topic "Piping"

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Zheng, San Long, Zeng Liang Gao, Nian Jin Chen, Li Jian Zhuang, Yu Feng Ye, and Xue Feng Yu. "Safety Evaluation of Pressure Piping with Weld Flaw after Long Time Service in a Water Power Plant." Key Engineering Materials 353-358 (September 2007): 2601–5. http://dx.doi.org/10.4028/www.scientific.net/kem.353-358.2601.

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Pressure steel pipings in a water power plant have been in service for over fifty years. In order to assess the safety of the piping, whole check and tests for the piping were carried out. The material for some piping is ST3 from former USSR, the other is A3 made in China. The mechanical properties were investigated by tests and were compared with the original material properties. The result shows the yield strength and tensile strength of serviced steels are less than those of original materials. The surfaces of the piping were checked to investigate the corrosion, surface defects. The flaws in the welds and near the welds of the pipings were detected by UT and MT, and several weld flaws were found. Based on the test and NDT investigation results, the strength, fracture and fatigue life of the pipings are assessed according to Chinese standard GB/T19624-2004 and British standard BS7910-2000. The assessment results show that the strength of the piping is enough, and the pipings with these flaws does not fracture. The piping can be safe in service under the normal operating condition for 104 to 106 cycles.
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Choi, Sun Yeong, and Young Hwan Choi. "Evaluation of Nuclear Piping Failure Frequency in Korean Pressurized Water Reactors." Key Engineering Materials 297-300 (November 2005): 1645–51. http://dx.doi.org/10.4028/www.scientific.net/kem.297-300.1645.

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The purpose of this paper is to evaluate the piping failure frequency based on the piping failure events in Korean pressurized water reactors (PWRs) until the end of 2003. Two types of the piping failure frequencies including the piping damage frequency and the piping rupture frequency are considered in this study. The piping damage frequency for the failed piping system was estimated by using the piping population data such as the weld count or the base metal count. The piping rupture frequency related to the initiating event in a probabilistic safety assessment (PSA) was evaluated by using both the Bayesian approach (Method 1) and the conditional rupture probability approach (Method 2). In the Bayesian approach, two methods using Jeffreys noninformative prior (Method 1-1) and prior distributions based on the results in NUREG/CR-5750 (Method 1-2) were considered. Thirty piping failure events in ASME safety class pipings of Korean PWRs were identified and analyzed in this study. The results showed that the piping damage frequency for the events ranged from 5.42E-3/cr.yr to 2.77E-5/cr.yr. Three kinds of initiating events including the very small LOCA, the feedwater line break, and the flood are evaluated for Korean PWRs. The results for the piping rupture frequency in Korean PWRs were as follows: 1) The mean piping rupture frequency of the very small LOCA event ranged from 3.6E-3/cr.yr to 1.2E-2/cr.yr, the feedwater line break event from 3.6E-3/cr.yr to 2.5E-2/cr.yr, and the flood event from 7.8E-4/cr.yr to 3.6E-3/cr.yr. The mean piping rupture frequencies of the very small LOCA and feedwater line break events were higher than that of the flood event by one order of a magnitude. 2) Method 2 gave conservative results in the very small LOCA and feedwater line break events compared to Method 1-1 or Method 1-2, while Method 1-1 gave conservative results in the flood event. 3) The order of magnitudes in the mean piping rupture frequencies of the very small LOCA, the feedwater line break, and the flood in Korean PWRs were similar to those in the U.S. PWRs.
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Hasanah HM, Fitri Hardiyanti, and Lutfiyah Hidayati. "Penerapan Hiasan Bias Piping pada Busana Pesta Malam dengan Tema Lawang Sewu." BAJU: Journal of Fashion & Textile Design Unesa 1, no. 2 (December 24, 2020): 91–98. http://dx.doi.org/10.26740/baju.v1n2.p91-98.

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Lawang sewu merupakan sebuah bangunan tua yang menyimpan sisi keindahan, sehingga menginspirasi untuk menjadikannya sumber ide rancangan busana pesta malam. Tujuan penelitian ini adalah: 1) mendeskripsikan proses penerapan hiasan bias piping pada busana pesta malam bertema lawang sewu. 2) mendeskripsikan hasil busana pesta malam bertema lawang sewu dengan penerapan hiasan bias piping. Metode penelitian ini menggunakan penciptaan karya, yang terdiri atas empat tahap, yaitu pra-perancangan, perancangan, perwujudan, dan penyajian. Hasil penelitian menyatakan bahwa: 1) proses penerapan hiasan bias piping pada busana pesta malam bertema lawang sewu meliputi pada a) bagian bawah atau rok, terdapat hiasan bias piping berupa garis yang membentuk menyerupai lawang sewu. b) bagian atas atau bustier, terdapat hiasan bias piping berupa garis garis siku atau sudut dari bagian lawang sewu. 2) hasil busana pesta malam bertema lawang sewu dengan penerapan hiasan bias piping jika dijelaskan secara keseluruhan terlihat menonjol pada bagian bawah atau rok. Sedangkan pada bagian atas atau bustier digunakan sebagai pelengkap dengan pengaplikasian hiasan bias piping berupa garis garis siku atau sudut dari bagian lawang sewu. Lawang sewu is a historic old building that holds a side of beauty, thus inspiring it to be a source of ideas for evening party fashion designs. The purpose of this study are: 1) describe the process of applying bias piping decorations on the lawang sewu evening party outfits. 2) describe the results of the lawang sewu night party dressings with the application of bias piping decorations. This research is a work creation study, which consists of four stages, namely pre-design, design, embodiment, and presentation. The results of the study stated that: 1) the process of applying the bias pipng decoration on the lawang sewu evening party dress includes on a) the bottom or skirt, there is a bias piping decoration in the form of a line forming like a lawang sewu gutter. b) the top or bustier, there is a refractive decoration bias piping in the form of elbow lines or angles of the gutter sewu. 2) the results of the lawang sewu evening party clothing with the application of bias piping decoration if explained as a whole stand out on the bottom or skirt. While at the top or bustier is used as a complement to the application of bias decoration bias piping in the form of elbow lines or angles of the gutter sewer. evening party fashion design has a design that consists of many pieces and there are variations in the shape of a rectangular, so it requires the application of bias piping decoration. The purpose of writing this article is to discuss the process of applying bias piping decorations, along with the finished clothing.
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Chiba, T., and H. Kobayashi. "Response Characteristics of Piping System Supported by Visco-Elastic and Elasto-Plastic Dampers." Journal of Pressure Vessel Technology 112, no. 1 (February 1, 1990): 34–38. http://dx.doi.org/10.1115/1.2928583.

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Improving the reliability of the piping systems can be achieved by eliminating the mechanical snubber and by reducing the response of the piping. In the seismic design of piping system, damping is one of the important parameters to reduce the seismic response. It is reported that the energy dissipation at piping supports contributes to increasing the damping ratio of piping system. Visco-elastic damper (VED) and elasto-plastic damper (EPD) were developed as more reliable, high-damping piping supports. The dynamic characteristics of these dampers were studied by the component test and the full-scale piping model test. Damping effect of VED is independent of the piping response and VED can be modeled as a complex spring in the dynamic analysis. On the other hand, damping ratio of piping system supported by EPD increases with the piping response level. So, these dampers are helpful to increase the damping ratio and to reduce the dynamic response of piping system.
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Kotek, Hadas, and Michael Yoshitaka Erlewine. "Covert Pied-Piping in English Multiple Wh-Questions." Linguistic Inquiry 47, no. 4 (October 2016): 669–93. http://dx.doi.org/10.1162/ling_a_00226.

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In this article, we argue for the existence of covert pied-piping in wh-questions through a previously unnoticed pattern of intervention effects in Superiority-obeying English multiple wh-questions. We show that the preference of covert pied-piping, unlike that of overt pied-piping, is for movement of larger constituents. We argue that this discrepancy stems from conflicting requirements of PF and LF: overt pied-piping feeds both LF and PF, but covert pied-piping feeds LF only. The study of covert pied-piping thus reveals the true preference of LF and narrow syntax with regard to pied-piping: larger pied-piping constituents are preferred over smaller ones. This preference can be overridden by certain PF constraints that apply to overt pied-piping.
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Lewis, G. D., and Y. J. Chao. "Flexibility of Trunnion Piping Elbows." Journal of Pressure Vessel Technology 112, no. 2 (May 1, 1990): 184–87. http://dx.doi.org/10.1115/1.2928607.

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Trunnion piping elbows are commonly used in piping systems in power and chemical plants. The flexibility of the trunnion piping elbows is normally less than that of the plain piping elbows. In this paper, the finite element method is used to derive the in-plane and out-of-plane flexibility factors of trunnion piping elbows. The results can be easily adopted into the piping flexibility analysis.
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Chiba, T., and R. Koyanagi. "Dynamic Response Studies of Piping-Support Systems." Journal of Pressure Vessel Technology 112, no. 1 (February 1, 1990): 39–45. http://dx.doi.org/10.1115/1.2928584.

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Considering the effect of the interaction between piping and support systems in the piping design is a more integrated approach to improve the reliability of piping systems. So, it is important to clarify the dynamic characteristics of the piping and the restraint structure during the seismic events. It may be desirable to investigate the effect of the gap on the response and the local stress of the piping systems. The dynamic characteristics of a simplified piping model with gaps was investigated by the tests and the analysis. Three-dimensional piping model test was performed to estimate the effect of the gap on the response of the piping system. It can be found that the local stress and the stiffness of the piping and the restraint structure under the seismic loadings should be considered in the seismic design. The gap size was not so effective on the response of the 3-dimensional piping system in the high-level response.
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Milner, Christopher W., and Jack W. Davidson. "Quick piping." ACM SIGPLAN Notices 37, no. 7 (July 17, 2002): 175–84. http://dx.doi.org/10.1145/566225.513859.

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Williams, Nigel. "Piping hot." Current Biology 16, no. 18 (September 2006): R779—R780. http://dx.doi.org/10.1016/j.cub.2006.08.061.

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ABDUL AZIZ, HANIDA, Lee Jia Chien, Hairunnisa Osman, Tan Lian See, and Norhuda Abdul Manaf. "In-service Piping Inspection Work-aid Tool for Oil & Gas Industries." Current Science and Technology 1, no. 1 (May 12, 2021): 32–43. http://dx.doi.org/10.15282/cst.v1i1.6441.

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Piping systems are important in the oil and gas plant’s operation, but continuous damage is harming the piping system due to extensive usage resulting in the increase of accident cases. API 570 Piping Inspection Code: In-service Inspection, Rating, Repair, and Alteration of Piping Systems has proposed an in-service piping inspection practice to ensure the in-service piping is functionable by identifying the remaining life of the piping system. However, the in-service piping inspection process is numerous and complicated where certain steps may be skipped, and data collected may lost along the process. The in-service piping inspection framework followed by a work-aid tool is developed in this study based on API 570 to guide the user the piping inspection process along with providing a depository database for document storage. Validation test is conducted by collecting feedback from professional piping engineer using System Usability Scale followed by conducting a case study using secondary data and sample attachment to test the functionality of the work-aid tool. The work-aid tool can guide the piping inspection process and provide a systematic documentation method for corresponding inspection documents. Case study in the industry is recommended to test the usability of the tool in the industry.
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Dissertations / Theses on the topic "Piping"

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Park, Jinhyung. "Pipe-routing algorithm development for a ship engine room design." Thesis, online access from Digital Dissertation Consortium access full-text, 2002. http://libweb.cityu.edu.hk/cgi-bin/er/db/ddcdiss.pl?3062999.

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Grass, Amelia. "The genetics and evolution of the critically endangered Trinidad Piping Guan, Pipile pipile, synonym Aburria pipile." Thesis, University of Chester, 2018. http://hdl.handle.net/10034/620870.

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The Trinidad Piping Guan, Pipile pipile synonym Aburria pipile (Jaquin, 1784) is the only endemic Cracid on the island of Trinidad. The species is currently listed as Critically Endangered and is considered to be in ‘on-going decline’ by the IUCN, BirdLife International and Cracid Specialist Group. This study aims to examine aspects of genetic variation and the evolution of the mitochondrial genome in the Trinidad Piping Guan utilising, for the first time, samples collected from individuals in the wild and reference specimens of the genus Pipile sourced from museum collections. In this study the complete mitochondrial genome of the Trinidad Piping Guan was sequenced for the first time. Analysis of intra-specific variation of wild Trinidad Piping Guan individuals using single nucleotide polymorphisms demonstrates extremely limited variation within the genes of the mitochondrial genome and nuclear gene intron sequences. Limited variation within this population is consistent with both historical and contemporary contractions of populations within a restricted island system, which may have serious implications for the future of this species in terms of both genetic diversity and conservation management. Phylogenetic analysis of the complete mitochondrial genome of the Trinidad Piping Guan enabled placement of the genus Pipile within the Galliforme evolutionary tree for the first time, and subsequently places the genus within the broader context of the Aves class. Mito-genomic analysis confirms that the Cracids are one of the basal Galliforme clades, and sister taxa to the Megapodidae. Phylogenetic placement of the Pipile genus is basal to that of the Crax species within the Cracidae family, indicative of an earlier evolutionary origin of the Piping Guans. The inclusion of the Trinidad Piping Guan, in the avian evolutionary tree using the whole mitochondrial genomes expands the current genetic phylogeny of the Cracid family, yielding a better understanding of evolutionary relationships among the Galliforme order and the diversification of modern avian lineages. This study has established novel molecular techniques for the analysis of mitochondrial DNA in historical specimens of the genus Pipile from museum reference collections. The analysis of inter-specific relationships within the genus Pipile has clarified the evolutionary and biogeographic relationships between the Piping Guan species. Additionally, the Trinidad Piping Guan is genetically defined for the first time as an evolutionarily significant unit, which represents a unique evolutionary pathway within this important genus in a closed island system on the island of Trinidad.
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Vilberg, Ingrid Kristine. "Airbag for piping systems." Thesis, Norges teknisk-naturvitenskapelige universitet, Institutt for energi- og prosessteknikk, 2010. http://urn.kb.se/resolve?urn=urn:nbn:no:ntnu:diva-12280.

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Pressure transients are caused by a change in the volumetric flow in a pipeline system, and can have severe consequences for rapid changes of the volumetric flow. A sudden closure of a valve is a common source of a pressure transient, and the pressure increase in front of the valve depends on the flow rate and the wave propagation velocity in the fluid and pipe. A gas-liquid mixture can have a very low wave propagation velocity, even for small air contents, and is effective in terms of damping due to the compressibility effects of the gas bubbles. With these alterations of the fluid properties the pressure transient will be weakened with reduced amplitude and an increased period, which are beneficial effects for the pipeline system.A simple experiment was carried out to investigate the practical solutions for the air injection system, and the results showed that the presence of air was beneficial in terms of a reduction of the amplitude and increased damping of the pressure transient. However, a few aspects should be revised in a refinement of the experiment. The air flow rate and duration were uncertain because of water accumulating in the air hose, and the timing of the gate valve closure was challenging.Simulations of various models of pipe systems were carried out in Flowmaster. The models are sufficient for simulation of ordinary pipes with a rapid closure of a valve, but fall short at modeling an air-water mixture. This is because only the reduced wave propagation is taken into account, and not the effects of the bubbles.
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Zonick, Curtis A. "The winter ecology of piping plovers (Charadrius melodus) along the Texas Gulf Coast /." free to MU campus, to others for purchase, 2000. http://wwwlib.umi.com/cr/mo/fullcit?p9988713.

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Robinson, Louise Anne. "Genetic analysis of the critically endangered Trinidad Piping guan (Pipile pipile) : implications for phylogenetic placement and conservation strategies." Thesis, University of Chester, 2011. http://hdl.handle.net/10034/346901.

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Classified as critically endangered since 1994, the Trinidad Piping guan (Pipile pipile) is an endemic species estimated to number less than 200 individuals. Known to locals of Trinidad as the ‘Pawi’ this bird has been the subject of substantial hunting pressures and much of the species habitat has been destroyed through deforestation. Although officially protected since 1958, occasional recreational hunting of this elusive species still occurs. Due to difficulties locating and capturing the species, no genetic research has previously been performed using samples obtained from Trinidad. All previous research studies have been conducted using biological materials obtained from captive birds outside Trinidad and island data has never been obtained or compared. The genetic diversity of the remaining population was therefore examined through the investigation of mitochondrial haplotypes, pairwise comparison and SNP analysis. With the intention of assisting the protection of this endangered species by the location of remaining areas of habitation, methods of genetic identification were established for the Trinidad Piping guan utilising non-invasive feather samples. Species specific primers were created in the regions of the ND2 and cyt b genes of the mitochondrial genome to identify Pipile pipile. Species detection was further verified with the use of PCR-RFLP of the same gene regions digested with BsaXI, EcoRV and BsrDI. This combined approach allowed the separation of closely related taxa based on single inter-species SNPs. Confirmation of species identification was subsequently performed through the use of forensically informative nucleotide sequencing. The established methodologies were used in the current study to correct the classification of a UK breeding population of Piping guans thought to be Pipile pipile and to identify Trinidad field samples. These detection methods have implications for ecological studies through the location of populations from trace evidence collected in the field. In addition this method could be used to assist Trinidadian police forces in the identification of bushmeats or simply act as a deterrent to hunters. The sequence data obtained in the present study were also used to re-assess the phylogeny of Piping guans. As genetic sequence from a true island bird was previously unstudied, differences between phylogenies created using non-island and island bird data sets were examined. Combined analysis was performed on 1884bp of the ND2 and cyt b genes and placement of Trinidad Piping guan was found to differ from that which has been previously published.
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Engelman, Juan Ezequiel. "Obras edilicias, piping e instrumentación." Universidad Nacional de Cuyo. Facultad de Ingeniería, 2019. http://bdigital.uncu.edu.ar/13352.

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El presente informe, describe la experiencia adquirida durante el desarrollo de las Prácticas Profesionales Supervisadas (PPS), llevadas a cabo en el Departamento de Construcciones de la Dirección de Ingeniería de la Empresa YPF S.A.
Fil: Engelman, Juan Ezequiel. Universidad Nacional de Cuyo. Facultad de Ingeniería.
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Root, Brian G. "Alkaline wetland vegetation dynamics at North Dakota piping plover nesting beaches /." free to MU campus, to others for purchase, 1996. http://wwwlib.umi.com/cr/mo/fullcit?p9737863.

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Howard, D. J. "The piping tradition of South Uist." Thesis, University of Edinburgh, 2001. http://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.652629.

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This is a history of piping in South Uist. Pipe music has formed part of the island's rich musical tradition for centuries, and although it remains just one piece of a much larger whole, South Uist has enjoyed a reputation in particular for its pipers. There are many reasons for this. Traditional Gaelic social culture is fundamentally musical, for instance, and folklorists from Alexander Carmichael to J.L. Campbell often portrayed South Uist as the Highlands' last storehouse of Gaelic tradition. South Uist remained largely untouched by the evangelical asceticism which swept away piping traditions elsewhere in the Hebrides following the Disruption. Clanranald's patronage of pipers survived longer into the nineteenth century than that of most other Highland families, South Uist being home to the bearers of the office. And the world of twentieth-century mainstream competition was enriched when the Piobaireachd Society brought literate instruction to the island's ear-learned pipes in 1909. For these and other reasons, to study the island's piping is to study its religious life, its community life, its history of emigration, its oral tradition of signing and storytelling and its place in the wider framework of Clanranald and Highland custom. The first half of the thesis addresses local piping within the context of these issues. Chapter 1 introduces the methods of research and the musical terms used throughout; Chapter 2 addresses the oral/aural tradition and looks at piping's place in local song, story and ceilidh; Chapter 3 goes back to the seventeenth century and contrasts catholic and Protestant influences on South Uist to explain how piping has been profoundly affected by religious considerations, both in Uist and throughout the Hebrides.
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Dickson, Joshua. "The piping tradition of South Uist." Thesis, University of Edinburgh, 2001. http://hdl.handle.net/1842/22148.

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This is a history of piping in South Uist. Pipe music has formed part of the island's rich musical tradition for centuries, and although it remains just one piece of a much larger whole, South Uist has enjoyed a reputation in particular for its pipers. There are many reasons for this. Traditional Gaelic social culture is fundamentally musical, and folklorists from Alexander Carmichael to J.L. Campbell often portrayed South Uist as the Highlands' last storehouse of Gaelic tradition. South Uist remained largely untouched by the evangelical asceticism which swept away piping traditions elsewhere in the Hebrides following the Disruption. Clanranald's patronage of pipers survived longer into the nineteenth century than that of most other Highland families, South Uist being home to the bearers of the office. And the world of twentiethcentury mainstream competition was enriched when the Piobaireachd Society brought literate instruction to the island's ear-learned pipers in 1909. For these and other reasons, to study the island's piping is to study its religious life, its community life, its history of emigration, its oral tradition of singing and storytelling and its place in the wider framework of Clanranald and Highland custom. The first half of the thesis addresses local piping within the context of these issues: Chapter 1 introduces the overall goals of the work, the research methods used and the musical terms found throughout; Chapter 2 addresses the oral/aural tradition and looks at piping's place in local song, story and ceilidh, Chapter 3 goes back to the seventeenth century and contrasts catholic and protestant influences in South Uist to explain how piping has been profoundly affected by religious considerations, both in Uist and throughout the Hebrides; Chapter 4 traces the island's major emigrations, forced and unforced, to call attention to emigrant pipers from Uist to the New World; and Chapter 5 addresses the place of South Uist pipers in the world of Clanranald and Highland culture: from eighteenth-century patronage and a strong martial tradition to the functions of the village piper and the survival of a pre-Piobaireachd Society style of ceòl mór. The second half takes a broadly chronological look at the piping tradition as it has developed through the twentieth century. Chapter 6 examines the state of piping at the turn of the century and the period of Piobaireachd Society instruction from 1909; Chapter 7 looks at various prominent piping families in Uist; Chapter 8 charts the development of the Askernish games from 1898 to the present day; Chapter 9 addresses the Great War and its effect on local tradition; and Chapter 10 looks at local aesthetics and musical transmission, focussing primarily on the island's aural tradition and how it survived as long as it did the twentieth century's era of mainstream literacy. The thesis concludes with general remarks on the state of piping in Uist today and suggestions for further research. Above all, this is intended to be a record of the history, functions and implications of South Uist piping from the internal Gaelic perspective. Interviews with informants were conducted in Gaelic, lesser-used but important Gaelic manuscripts were consulted, and consideration is given to the context of traditional Gaelic social culture. It therefore fills a gap in Scottish ethnology and piping history often neglected through a lack of impetus among Gaelic-speaking scholars.
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Dirks, Brian J. "Distribution and productivity of least terns and piping plovers along the Missouri and Cheyenne rivers in South Dakota." Connect to this title online, 1990. http://www.fs.fed.us/r2/nebraska/gpng/lt%5Fplover/ltppmissouri/LTPPMissouriDirks1990.pdf.

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Books on the topic "Piping"

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Laver, Norma. Piping. London: Chancellor Press, 1996.

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1, American Society of Mechanical Engineers B31. Power piping. New York: The Society, 1992.

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Service, Canadian Wildlife. Piping plover. [s.l: s.n.], 1989.

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(Firm), Knovel, ed. Piping handbook. 7th ed. New York: McGraw-Hill, 2000.

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American National Standards Institute. B31.1. Power piping. New York: American Society of Mechanical Engineers, 1989.

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L, Nayyar Mohinder, ed. Piping handbook. 6th ed. New York: McGraw-Hill, 1992.

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L, Nayyar Mohinder, ed. Piping handbook. 7th ed. New York: McGraw-Hill, 2000.

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American Society of Mechanical Engineers. Power piping: ASME code for pressure piping, B31. 2nd ed. New York: American Society of Mechanical Engineers, 2001.

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Silowash, Brian. Piping systems manual. New York, N.Y: McGraw-Hill, 2010.

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Riegle, Janet. Piping plover summer. Ely, Minn: Raven Productions, 2008.

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Book chapters on the topic "Piping"

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Weik, Martin H. "piping." In Computer Science and Communications Dictionary, 1281. Boston, MA: Springer US, 2000. http://dx.doi.org/10.1007/1-4020-0613-6_14116.

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Crozier, Michael James, Nick Preston, and Thomas Glade. "Piping Hazard." In Encyclopedia of Natural Hazards, 764–65. Dordrecht: Springer Netherlands, 2013. http://dx.doi.org/10.1007/978-1-4020-4399-4_269.

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Eslami, M. Reza, Richard B. Hetnarski, Jozef Ignaczak, Naotake Noda, Naobumi Sumi, and Yoshinobu Tanigawa. "Piping Systems." In Theory of Elasticity and Thermal Stresses, 677–700. Dordrecht: Springer Netherlands, 2013. http://dx.doi.org/10.1007/978-94-007-6356-2_25.

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Holding, Audrey. "Direct Piping." In The Practice of Royal Icing, 27–32. Dordrecht: Springer Netherlands, 1987. http://dx.doi.org/10.1007/978-94-009-3437-5_7.

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Wang, Ji. "Piping Technology." In Encyclopedia of Ocean Engineering, 1327–34. Singapore: Springer Nature Singapore, 2022. http://dx.doi.org/10.1007/978-981-10-6946-8_182.

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Hague, D. C., E. Oakeshott, and A. Strain. "Tottenham Piping." In Devaluation and Pricing Decisions, 364–72. London: Routledge, 2022. http://dx.doi.org/10.4324/9781003261032-30.

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Wang, Ji. "Piping Technology." In Encyclopedia of Ocean Engineering, 1–8. Singapore: Springer Singapore, 2021. http://dx.doi.org/10.1007/978-981-10-6963-5_182-1.

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Sotoodeh, Karan. "Piping Components." In Equipment and Components in the Oil and Gas Industry Volume 2, 67–123. Boca Raton: CRC Press, 2024. http://dx.doi.org/10.1201/9781003465881-2.

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Das, Malay Kumar, and Pradipta K. Panigrahi. "Piping Flow." In Design and Analysis of Thermal Systems, 189–222. Boca Raton: CRC Press, 2023. http://dx.doi.org/10.1201/9781003049272-6.

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Holding, Audrey. "Runout Figure Piping." In The Practice of Royal Icing, 120–68. Dordrecht: Springer Netherlands, 1987. http://dx.doi.org/10.1007/978-94-009-3437-5_11.

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Conference papers on the topic "Piping"

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Milner, Christopher W., and Jack W. Davidson. "Quick piping." In the joint conference. New York, New York, USA: ACM Press, 2002. http://dx.doi.org/10.1145/513829.513859.

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Frey, Joseph. "High-Energy Piping Systems are Now Covered Piping Systems." In ASME 2010 Pressure Vessels and Piping Division/K-PVP Conference. ASMEDC, 2010. http://dx.doi.org/10.1115/pvp2010-26069.

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The 2007 addendum to the ASME B31.1 Power Piping Code added a new chapter that increased the scope of the Code. Chapter VII, “Operation and Maintenance,” while a brief chapter, introduces a significant change. The operation and maintenance of piping systems that are considered by the Committee to be a significant risk, should they not be adequately maintained, are now included in the scope of Chapter VII. In most cases, these new systems have been highlighted for attention as the result of failures that have caused significant property damage and/or injury to personnel. These piping systems have historically been referred to as “high-energy piping.” The Code has formally named them “covered piping systems” (CPS). CPS is specified in the Code for inclusion with respect to systems and operating conditions. The Operating Company is also encouraged to include other piping systems in the CPS that they deem prudent. Regarding the design of a maintenance program, the Code is not specific. The chapter basically says the following: “You shall have a program and you shall maintain that program.” This paper outlines the requirements of ASME B31.1 Chapter VII, “Operation and Maintenance.”
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Suzuki, Kenichi, Y. Namita, H. Abe, I. Ichihashi, Kohei Suzuki, M. Ishiwata, T. Fujiwaka, and K. Tai. "Seismic Proving Test of Ultimate Piping Strength: Test Results on Piping Component and Simplified Piping System." In ASME 2002 Pressure Vessels and Piping Conference. ASMEDC, 2002. http://dx.doi.org/10.1115/pvp2002-1403.

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In 1998FY, the 6 year program of piping tests was initiated with the following objectives: i) to clarify the elasto-plastic response and ultimate strength of nuclear piping, ii) to ascertain the seismic safety margin of the current seismic design code for piping, and iii) to assess new allowable stress rules. In order to resolve extensive technical issues before proceeding on to the seismic proving test of a large-scale piping system, a series of preliminary tests of materials, piping components and simplified piping systems is intended. In this paper, the current status of the piping component tests and the simplified piping system tests is reported with focus on fatigue damage evaluation under large seismic loading.
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Jadhav, P. A., Rastogi Rohit, Bhasin Vivek, and K. K. Vaze. "Piping reliability analysis of AHWR down-comer piping using PFM." In 2010 2nd International Conference on Reliability, Safety and Hazard - Risk-Based Technologies and Physics-of-Failure Methods (ICRESH). IEEE, 2010. http://dx.doi.org/10.1109/icresh.2010.5779573.

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Liu, Shengyong, Zhongtao Li, Shuai Zhao, Lei Yang, Fu Zhao, and Chuan Ge. "A Complete Piping Identification Solution for Piping and Instrumentation Diagrams." In 2023 IEEE International Conference on High Performance Computing & Communications, Data Science & Systems, Smart City & Dependability in Sensor, Cloud & Big Data Systems & Application (HPCC/DSS/SmartCity/DependSys). IEEE, 2023. http://dx.doi.org/10.1109/hpcc-dss-smartcity-dependsys60770.2023.00011.

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Henon, Barbara K., and Dennis Cobb. "High Purity Process Piping: Addition of Chapter X High Purity Piping to the ASME B31.3 Process Piping Code." In ASME 2012 Pressure Vessels and Piping Conference. American Society of Mechanical Engineers, 2012. http://dx.doi.org/10.1115/pvp2012-78072.

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The 2010 Edition of the American Society of Mechanical Engineers (ASME) B31.3 Procecess Piping Code [1] includes a new chapter: Chapter X High Purity Piping. Chapter X covers industries listed in the scope of ASME B31.3 which use methods of fabrication, examination, inspection and testing different than other industries covered by the Code. Industries which have a need for cleanness and cleanability on a more demanding level, such as the semiconductor industry, which uses Semiconductor Equipment and Materials International (SEMI) Standards [2–4], and the pharmaceutical and bioprocessing industries, which use the ASME Bioprocessing Equipment (BPE) Standard [5], also reference ASME B31.3 for safety requirements. ASME B31.3 now addresses issues common to the semiconductor and biopharmaceutical industries. The new High Purity Fluid Service defined in Chapter X permits weld coupon examination in lieu of the 5% radiography required in Normal Fluid Service when orbital welding is used in fabrication. Industries that may not otherwise be considered as high purity, such as refineries, the chemical processing industry [6–7], solar panel fabrication and nuclear or petrochemical applications that could use tubing rather than pipe, may benefit from the fabrication technology introduced in Chapter X while meeting the safety requirements of the Code.
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Weyer, Robert. "Improving LNG Plant Piping: Or How LNG Plants Are Improving Piping." In ASME 2020 Pressure Vessels & Piping Conference. American Society of Mechanical Engineers, 2020. http://dx.doi.org/10.1115/pvp2020-21179.

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Abstract An LNG plant is essentially a variety of static and rotating mechanical equipment interconnected by piping. LNG plants contain a significant amount of piping that is characterised by one or more of the following: large diameter, high design pressure, cryogenic temperatures, stainless steel, high velocity gas flow, large diameter-to-thickness (D/t) ratios and load cases not explicitly addressed by design codes. One of the most commonly used piping codes in LNG plant construction, ASME B31.3, has its basis in petroleum refining. However, recent editions of ASME B31.3 (as well as other industry standards) include updates addressing issues which are of particular relevance to LNG plant piping. Aside from the benefits to LNG piping, these improvements will benefit all piping falling under the ASME B31.3 code. This paper will discuss some of the engineering challenges inherent to LNG plant piping. Recent changes to relevant codes and standards will be highlighted. The focus will be on ensuring mechanical integrity rather than the process side.
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Namita, Y., K. Suzuki, H. Abe, I. Ichihashi, M. Shiratori, K. Iwata, N. Kojima, and M. Ishiwata. "Seismic Proving Test of Eroded Piping: Program of Eroded Piping Tests." In 10th International Conference on Nuclear Engineering. ASMEDC, 2002. http://dx.doi.org/10.1115/icone10-22233.

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In 2000FY, a 3 year program of eroded piping tests was initiated with the following objectives: 1) to ascertain the seismic safety margins for eroded piping designed under the current seismic design code, 2) to clarify the elasto-plastic response and ultimate strength of eroded nuclear piping. It was intended to carry out a series of tests on eroded piping components and eroded piping systems. This paper is a report on the program of eroded piping tests.
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Klumpp, P. T. "Expander Inlet Piping Design." In ASME/JSME 2004 Pressure Vessels and Piping Conference. ASMEDC, 2004. http://dx.doi.org/10.1115/pvp2004-2615.

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The interruption of electric power is always an extreme inconvenience in every sector of life, as was experienced during the massive Eastern United States blackout of 2003. Power shortages and interruptions in the refining industry are certainly no different, but the industry has responded to the uncertainties by approaching independence from the dominant utility grids through the installation of natural gas fueled co-generation units and/or the addition of flue gas driven expander power generation units, but of course the long term reliability of these systems is a major concern. A large hot gas expander, installed in a refinery, operating at a temperature of 705°C to 760°C, can be used to generate needed electric power [1]. However, these machines are very sensitive to the connected piping loads, and the long term operating reliability is most assuredly determined by the correct detail design of the inlet and outlet piping systems. This paper will only discuss in detail the design of the expander inlet piping system. This system is considered as one of the most complicated piping systems to analyze and design in the entire refinery.
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Porter, Michael A., Dennis Martens, Ramesh Harrylal, and Charles Henley. "Valve-Induced Piping Vibration." In ASME 2011 Pressure Vessels and Piping Conference. ASMEDC, 2011. http://dx.doi.org/10.1115/pvp2011-57391.

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While going through the startup process of a 600MMSCFD Gas Processing Plant, the piping downstream of a gas expander bypass valve and supporting structure was observed to be shaking abnormally. The shaking was significant enough that plant personnel limited the valve flow rate to well under the design capacity and at a level that limited the plant startup. The initial assumption was that the piping or the piping supports had been improperly designed. An investigation revealed no unusual looseness in the piping supports and no significant piping natural frequency at the observed vibration frequency. Further investigation revealed that the root cause of the problem was a flow-generated pulsation in the discharge of the bypass valve that excited the piping and structural supports. Changing the valve flow path and applied valve opening limits provided a temporary work-around that allowed the plant to operate at sufficient flow rates to complete the startup. Subsequent replacement of the valve with one using the same trim but with different gas flow path characteristics proved to be the ultimate solution to the problem.
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Reports on the topic "Piping"

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Wilkowski, G., J. Ahmad, F. Brust, N. Ghadiali, P. Krishnaswamy, M. Landow, C. Marschall, P. Scott, and P. Vieth. Short cracks in piping and piping welds. Office of Scientific and Technical Information (OSTI), May 1991. http://dx.doi.org/10.2172/5895215.

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CORPS OF ENGINEERS WASHINGTON DC. Liquid Process Piping. Fort Belvoir, VA: Defense Technical Information Center, May 1999. http://dx.doi.org/10.21236/ada402339.

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Dixon, K., and R. Rucinski. D0 Piping Components. Office of Scientific and Technical Information (OSTI), May 2000. http://dx.doi.org/10.2172/1031158.

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Heasler, P. G., and S. R. Doctor. Piping inspection round robin. Office of Scientific and Technical Information (OSTI), April 1996. http://dx.doi.org/10.2172/219360.

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AM Girbik and PA Dilorenzo. Promethus Hot Leg Piping Concept. Office of Scientific and Technical Information (OSTI), January 2006. http://dx.doi.org/10.2172/881289.

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V. Munne. Hot Leg Piping Materials Issues. Office of Scientific and Technical Information (OSTI), July 2006. http://dx.doi.org/10.2172/884668.

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Palmer, Mark E., and Kent A. Reed. 3D piping IGES application protocol:. Gaithersburg, MD: National Institute of Standards and Technology, 1990. http://dx.doi.org/10.6028/nist.ir.4420.

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Palmer, Mark E., and Kent A. Reed. 3D piping IGES application protocol:. Gaithersburg, MD: National Institute of Standards and Technology, 1992. http://dx.doi.org/10.6028/nist.ir.4797.

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Rafferty, K. Geothermal district piping - A primer. Office of Scientific and Technical Information (OSTI), November 1989. http://dx.doi.org/10.2172/5389444.

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Wilkowski, G., P. Krishnaswamy, and F. Brust. Key results for the NRC`s Short Cracks in Piping and Piping Welds Research Program. Office of Scientific and Technical Information (OSTI), April 1995. http://dx.doi.org/10.2172/93873.

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