SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2120183898> ?p ?o ?g. }

Showing items 1 to 87 of 87 with 100 items per page.

W2120183898 abstract "This Master Thesis has been carried out by Luis Mora Vallejo and Jacobo Zegri Reiriz. We are both two Spanish students who are studying Engineering in the Universitat Politecnica de Catalunya (UPC) in the engineer‟s school Escola Tecnica Superior d‟Enginyeria Industrial de Barcelona (ETSEIB). This degree has got a common part the first two years and after that it is possible to be specialized in one sector of the industry. Then, we both decided to take part of the nuclear section in order to help our country in the energetics situation and also under the feeling of improvement that we are looking for ourselves.After sharing last three years in the same specialization we decided separately to carry out a Master Thesis abroad in order to obtain the Master Thesis of Science in Nuclear Engineering. However, there are a limited number of universities in the ENEN‟s network so it was necessary to have a good choice of what university would have been chosen. For many reasons we decided to work in the Politecnico di Torino and after knowing that we both were accepted we thought that it could be a good experience not only for us, but also for the Politecnico di Torino and the ETSEIB the possibility of carrying out together a complete thesis in our sector.Concerning the teamwork, it is important to say that this project is the result of the effort and the work of two people. As it will be seen in following lines, this Thesis has got some parts and although we have worked the same one has been more specialized in one than the other. For instance, whereas the theoretical part has been more summarized and searched by Jacobo, the code with Matlab has been more developed by Luis. This fact does not entail that one of the two members has made only one thing as we have been carrying out the Thesis together and both Luis and Jacobo have been working on theoretical part and Matlab respectively. Apart from that, other parts like the experimental analysis and the measurements have been developed by us at the same level and dedication because of the fact that working together it is possible to measure faster and with more precision and also it is easier to study the results and therefore to obtain conclusions as we are sharing our knowledge in this technology.The most important objectives that are pursued in this Thesis are related with the analysis of a horizontal air-water flow. It would be interesting to obtain an experimental and theoretical characterization of a horizontal flow using different evaluations, theories and analysis such as flow pattern analysis, pressure drop evaluations, void fraction evaluation and mass flow rate measurements.In order to achieve our goal the Department of Energetics (DENER) of the Politecnico di Torino has put at our disposal several offices, computers, software and facilities to work at our Thesis. Concerning the experimental system, which we have been working with, it will be accurately explained on next chapters. However, it can be said that it contains the necessary devices to develop our tasks related to the measurements in a correct and safety way.This Thesis is not only an analysis about the data obtained as it is also necessary to carry out a deep research work because of the difficulty of working on two-phase flow and also because of the length of the field.The experimental part consists on taking a large number of data to know, after all measurements with laboratory devices, the properties of the mixture which is flowing through a pipe only with the knowledge of some parameters. So it could be said that the aim of this work is to define an appropriate theoretical and experimental methodology that can be used in experimental apparatus, able to simulate the thermohydraulic of Nuclear Power Plant in steady state and accident (LOCA) conditions, in order to measure two-phase flow quantities as mass flow rates and velocities of water and vapour." @default.
W2120183898 created "2016-06-24" @default.
W2120183898 creator A5081509007 @default.
W2120183898 date "2010-01-01" @default.
W2120183898 modified "2023-09-24" @default.
W2120183898 title "A theoretical and experimental study of horizontal air-water. Two-phase flow with a spool piece" @default.
W2120183898 cites W1504072055 @default.
W2120183898 cites W1545913728 @default.
W2120183898 cites W1980732155 @default.
W2120183898 cites W1990173889 @default.
W2120183898 cites W1995552143 @default.
W2120183898 cites W1999183326 @default.
W2120183898 cites W2007349424 @default.
W2120183898 cites W2019316073 @default.
W2120183898 cites W2020309076 @default.
W2120183898 cites W2031559649 @default.
W2120183898 cites W2038286681 @default.
W2120183898 cites W2043430928 @default.
W2120183898 cites W2052387186 @default.
W2120183898 cites W2067902736 @default.
W2120183898 cites W2074649126 @default.
W2120183898 cites W2076422580 @default.
W2120183898 cites W2085102802 @default.
W2120183898 cites W2132891099 @default.
W2120183898 cites W2138574603 @default.
W2120183898 cites W2158190310 @default.
W2120183898 cites W2243185934 @default.
W2120183898 cites W2256105018 @default.
W2120183898 cites W2283902892 @default.
W2120183898 cites W280669828 @default.
W2120183898 cites W354565195 @default.
W2120183898 cites W1610140446 @default.
W2120183898 cites W2790661584 @default.
W2120183898 hasPublicationYear "2010" @default.
W2120183898 type Work @default.
W2120183898 sameAs 2120183898 @default.
W2120183898 citedByCount "1" @default.
W2120183898 countsByYear W21201838982013 @default.
W2120183898 crossrefType "dissertation" @default.
W2120183898 hasAuthorship W2120183898A5081509007 @default.
W2120183898 hasConcept C10138342 @default.
W2120183898 hasConcept C111226992 @default.
W2120183898 hasConcept C127413603 @default.
W2120183898 hasConcept C144133560 @default.
W2120183898 hasConcept C17744445 @default.
W2120183898 hasConcept C182306322 @default.
W2120183898 hasConcept C18762648 @default.
W2120183898 hasConcept C199539241 @default.
W2120183898 hasConcept C42475967 @default.
W2120183898 hasConcept C78519656 @default.
W2120183898 hasConceptScore W2120183898C10138342 @default.
W2120183898 hasConceptScore W2120183898C111226992 @default.
W2120183898 hasConceptScore W2120183898C127413603 @default.
W2120183898 hasConceptScore W2120183898C144133560 @default.
W2120183898 hasConceptScore W2120183898C17744445 @default.
W2120183898 hasConceptScore W2120183898C182306322 @default.
W2120183898 hasConceptScore W2120183898C18762648 @default.
W2120183898 hasConceptScore W2120183898C199539241 @default.
W2120183898 hasConceptScore W2120183898C42475967 @default.
W2120183898 hasConceptScore W2120183898C78519656 @default.
W2120183898 hasLocation W21201838981 @default.
W2120183898 hasOpenAccess W2120183898 @default.
W2120183898 hasPrimaryLocation W21201838981 @default.
W2120183898 hasRelatedWork W1576251731 @default.
W2120183898 hasRelatedWork W185284916 @default.
W2120183898 hasRelatedWork W2050718646 @default.
W2120183898 hasRelatedWork W2056509669 @default.
W2120183898 hasRelatedWork W2105592965 @default.
W2120183898 hasRelatedWork W2130321195 @default.
W2120183898 hasRelatedWork W2318950121 @default.
W2120183898 hasRelatedWork W2352214092 @default.
W2120183898 hasRelatedWork W2400184785 @default.
W2120183898 hasRelatedWork W2465910875 @default.
W2120183898 hasRelatedWork W2499064640 @default.
W2120183898 hasRelatedWork W2524636273 @default.
W2120183898 hasRelatedWork W259980158 @default.
W2120183898 hasRelatedWork W2607917978 @default.
W2120183898 hasRelatedWork W265994870 @default.
W2120183898 hasRelatedWork W3160209002 @default.
W2120183898 hasRelatedWork W3164433558 @default.
W2120183898 hasRelatedWork W936494083 @default.
W2120183898 hasRelatedWork W999964166 @default.
W2120183898 hasRelatedWork W2187663992 @default.
W2120183898 isParatext "false" @default.
W2120183898 isRetracted "false" @default.
W2120183898 magId "2120183898" @default.
W2120183898 workType "dissertation" @default.