Relevant bibliographies by topics / Commissioning experiments

Contents

  1. Journal articles
  2. Dissertations / Theses
  3. Books
  4. Book chapters
  5. Conference papers
  6. Reports

Academic literature on the topic 'Commissioning experiments'

Author: Grafiati
Published: 4 June 2021
Last updated: 18 February 2022

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Journal articles on the topic "Commissioning experiments"

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Olson, R. E., L. J. Suter, J. L. Kline, et al. "Lasnex simulations of NIF vacuum hohlraum commissioning experiments." Journal of Physics: Conference Series 244, no. 3 (2010): 032057. http://dx.doi.org/10.1088/1742-6596/244/3/032057.

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Bagnoud, V., B. Aurand, A. Blazevic, et al. "Commissioning and early experiments of the PHELIX facility." Applied Physics B 100, no. 1 (2009): 137–50. http://dx.doi.org/10.1007/s00340-009-3855-7.

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А.А., Gaisin. "Commissioning experiment for joint physical and numerical analysis." Ekologiya i stroitelstvo 1 (2015): 4–7. http://dx.doi.org/10.35688/2413-8452-2015-01-001.

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This work is devoted to carrying out commissioning experiments to verify the acceptability of the mathematical model, computational grid and boundary conditions for numerical modeling of fluid flow in the hydrodynamic flow regulators. Verification of a numerical experiment was conducted using laboratory studies. The physical experiment was constructed in a reversed hydraulic tray. Measurements of local velocities in the outlet section of the diffuser was performed in the control points using utrirovannoe tube Prandtl-Pitot. Numerical simulation was performed in STAR-CMM+. The model is based on threedimensional unsteady Reynolds equations. Turbulence was modelled with standard k-ε model. The calculation method is implicit. Modeling free-surface flow was carried out with the use VOF two-phase interaction with the gravitational component. Boundary conditions were taken as the hydrostatic pressure for the input and the output section of the experimental model, the velocity on the inner walls of the model, which was assumed to be zero, and the absolute roughness of all surfaces. The results of the value of local velocities showed good agreement with experimental values. The studies confirmed the effectiveness of joint physical and numerical experiment, which allows to reduce the number of model studies. Analysis of the values obtained in numerical and physical experiments, allowed us to conclude that numerical simulation agrees well with experimental data with an error of less than 5 %. As a result of the physical experiment proved the correctness of the simulation of fluid flow in diffusers at the exit of the flow in the downstream in the software package STAR-CCM+.
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Yabuuchi, Toshinori, Akira Kon, Yuichi Inubushi, et al. "An experimental platform using high-power, high-intensity optical lasers with the hard X-ray free-electron laser at SACLA." Journal of Synchrotron Radiation 26, no. 2 (2019): 585–94. http://dx.doi.org/10.1107/s1600577519000882.

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An experimental platform using X-ray free-electron laser (XFEL) pulses with high-intensity optical laser pulses is open for early users' experiments at the SACLA XFEL facility after completion of the commissioning. The combination of the hard XFEL and the high-intensity laser provides capabilities to open new frontiers of laser-based high-energy-density science. During the commissioning phase, characterization of the XFEL and the laser at the platform has been carried out for the combinative utilization as well as the development of instruments and basic diagnostics for user experiments. An overview of the commissioning and the current capabilities of the experimental platform is presented.
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Robinson, Suzanne, Helen Dickinson, and Learne Durrington. "Something old, something new, something borrowed, something blue? Reviewing the evidence on commissioning and health services." Australian Journal of Primary Health 22, no. 1 (2016): 9. http://dx.doi.org/10.1071/py15037.

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The concept of commissioning is starting to gain traction in the Australian health system. Primary Care Networks began operations in July 2015 with a remit around commissioning health services. Despite the centrality of this concept, we know relatively little about commissioning in Australia. Other systems have experimented with it for some time, and this paper reviews the evidence and lessons inherent within the international literature. The study defines commissioning, and explores experiences of others who have adopted commissioning approaches and the evidence concerning the outcomes of these experiments. Commissioning is a difficult topic in many senses and its application to a complex area such as health reform can make it even more challenging. Ultimately, this evidence suggests that commissioning is more than simply a technical or operational process, but one that is value-based and relational. This is not to downplay the technical aspects, which in many jurisdictions have resulted in explicit and evidenced-based approaches to planning and priority setting. However, if new commissioning organisations, such as Primary Health Networks, are to have an impact, they need to balance the operational and relational elements of commissioning.
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Recchia, Francesco. "Installation of the AGATA Demonstrator and commissioning experiments at LNL." Journal of Physics: Conference Series 205 (January 1, 2010): 012045. http://dx.doi.org/10.1088/1742-6596/205/1/012045.

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Michaelian, K. H., T. E. May, and C. Hyett. "Photoacoustic infrared spectroscopy at the Canadian Light Source: Commissioning experiments." Review of Scientific Instruments 79, no. 1 (2008): 014903. http://dx.doi.org/10.1063/1.2833825.

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Bartmann, Wolfgang, Pavel Belochitskii, Horst Breuker, et al. "The ELENA facility." Philosophical Transactions of the Royal Society A: Mathematical, Physical and Engineering Sciences 376, no. 2116 (2018): 20170266. http://dx.doi.org/10.1098/rsta.2017.0266.

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The CERN Antiproton Decelerator (AD) provides antiproton beams with a kinetic energy of 5.3 MeV to an active user community. The experiments would profit from a lower beam energy, but this extraction energy is the lowest one possible under good conditions with the given circumference of the AD. The Extra Low Energy Antiproton ring (ELENA) is a small synchrotron with a circumference a factor of 6 smaller than the AD to further decelerate antiprotons from the AD from 5.3 MeV to 100 keV. Controlled deceleration in a synchrotron equipped with an electron cooler to reduce emittances in all three planes will allow the existing AD experiments to increase substantially their antiproton capture efficiencies and render new experiments possible. ELENA ring commissioning is taking place at present and first beams to a new experiment installed in a new experimental area are foreseen in 2017. The transfer lines from ELENA to existing experiments in the old experimental area will be installed during CERN Long Shutdown 2 (LS2) in 2019 and 2020. The status of the project and ring commissioning will be reported. This article is part of the Theo Murphy meeting issue ‘Antiproton physics in the ELENA era’.
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Schovancová, Jaroslava, Alessandro Di Girolamo, Aristeidis Fkiaras, and Valentina Mancinelli. "Evolution of HammerCloud to commission CERN Compute resources." EPJ Web of Conferences 214 (2019): 03033. http://dx.doi.org/10.1051/epjconf/201921403033.

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HammerCloud is a testing service and framework to commission, run continuous tests or on-demand large-scale stress tests, and benchmark computing resources and components of various distributed systems with realistic full-chain experiment workflows. HammerCloud, used by the ATLAS and CMS experiments in production, has been a useful service to commission both compute resources and various components of the complex distributed systems of the LHC experiments, as well as integral partof the monitoring suite that is essential for the computing operations of the experiments and their automation. In this contribution we review recent developments of the HammerCloud service that allow use of HammerCloud infrastructure to test Data Centre resources in the early phases of the infrastructure and services commissioning process. One of thebenefits we believe HammerCloud can provide is to be able to tune the commissioning of the new infrastructure, functional and also stress testing, as well as benchmarking with "standard candle" workflows, with experiment realistic workloads, that can be heavy for CPU, or I/O, or IOPS, or everything together. This extension of HammerCloud has been successfully usedin CERN IT during the prototype phase of the "BEER" Batch on EOS (Evaluation of Resources) project, and is being integrated with the continuous integration/continuous deployment suite for Batch service VMs.
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Larsson, Jörgen, Henrik Enquist, Andrius Jurgilaitis, et al. "Commissioning experiments at FemtoMAX – an X-ray beamline for structural dynamics." Acta Crystallographica Section A Foundations and Advances 74, a2 (2018): e136-e136. http://dx.doi.org/10.1107/s2053273318093245.

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Dissertations / Theses on the topic "Commissioning experiments"

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Jansen, Alexander [Verfasser], and G. [Akademischer Betreuer] Drexlin. "The Cryogenic Pumping Section of the KATRIN Experiment - Design Studies and Experiments for the Commissioning / Alexander Jansen. Betreuer: G. Drexlin." Karlsruhe : KIT-Bibliothek, 2015. http://d-nb.info/1070584215/34.

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Farkas, I., A. Aszodi, J. Elter, et al. "The European project FLOMIX-R: Description of the experimental and numerical studies of flow distribution in the reactor primary circuit(Final report on WP 3)." Forschungszentrum Dresden, 2010. http://nbn-resolving.de/urn:nbn:de:bsz:d120-qucosa-28628.

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The flow distribution in the primary circuit of the pressurized water reactor was studied with experiments and Computational Fluid Dynamics (CFD) simulations. The main focus was on the flow field and mixing in the downcomer of the pressure vessel: how the different factors like the orientation of operating loops, the total loop flow rate and the asymmetry of the loop flow rates affect the outcome. In addition to the flow field studies the overall applicability of CFD methods for primary circuit thermal-hydraulic analysis was evaluated based on the CFD simulations of the mixing experiments of the ROCOM (Rossendorf Coolant Mixing Model) test facility and the mixing experiments of the Paks NPP. The experimental part of the work in work package 3 included series of steady state mixing experiments with the ROCOM test facility and the publication of results of Paks VVER-440 NPP thermal mixing experiments. The ROCOM test facility models a 4-loop KONVOI type reactor. In the steady-state mixing experiments the velocity field in the downcomer was measured using laser Doppler anemometry and the concentration of the tracer solution fed from one loop was measured at the downcomer and at the core inlet plane. The varied parameters were the number and orientation of the operating loops, the total flow rate and the (asymmetric) flow rate of individual loops. The Paks NPP thermal mixing experiments took place during commissioning tests of replaced steam generator safety valves in 1987-1989. It was assumed that in the reactor vessels of Paks VVER-440 NPP equipped with six loops the mixing of the coolant is not ideal. For the realistic determination of the active core inlet temperature field for the transients and accidents associated with different level temperature asymmetry a set of mixing factors were determined. Based on data from the online core monitoring system and a separate mathematical model the mixing factors for loop flows at the core inlet were determined. In the numerical simulation part of the work package 3 the detailed measurements of ROCOM tests were used for the validation of CFD methods for primary circuit studies. The selected steady state mixing experiments were simulated with CFD codes CFX-4, CFX-5 and FLUENT. The velocity field in the downcomer and the mixing of the scalar were compared between CFD simulations and experiments. The CFD simulations of full scale PWR included the simulation of Paks VVER-440 mixing experiment and the simulation of Loviisa VVER-440 downcomer flow field. In the simulations of Paks experiments the experimental and simulated concentration field at the core inlet were compared and conclusions made concerning the results overall and the VVER-440 specific geometry modelling aspects like how to model the perforated elliptic bottom plate and what is the effect of the cold leg bends to the flow field entering to the downcomer. With Loviisa simulations the qualitative comparison was made against the original commissioning experiments but the emphasis was on the CFD method validation and testing. The overall conclusion concerning the CFD modelling of the flow field and mixing in the PWR primary circuit could be that the current computation capacity and physical models also in commercial codes is beginning to be sufficient for simulations giving reliable and useful results for many real primary circuit applications. However the misuse of CFD methods is easy, and the general as well as the nuclear power specific modelling guidelines should be followed when the CFD simulations are made.
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Farkas, I., A. Aszodi, J. Elter, et al. "The European project FLOMIX-R: Description of the experimental and numerical studies of flow distribution in the reactor primary circuit(Final report on WP 3)." Forschungszentrum Rossendorf, 2005. https://hzdr.qucosa.de/id/qucosa%3A21689.

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The flow distribution in the primary circuit of the pressurized water reactor was studied with experiments and Computational Fluid Dynamics (CFD) simulations. The main focus was on the flow field and mixing in the downcomer of the pressure vessel: how the different factors like the orientation of operating loops, the total loop flow rate and the asymmetry of the loop flow rates affect the outcome. In addition to the flow field studies the overall applicability of CFD methods for primary circuit thermal-hydraulic analysis was evaluated based on the CFD simulations of the mixing experiments of the ROCOM (Rossendorf Coolant Mixing Model) test facility and the mixing experiments of the Paks NPP. The experimental part of the work in work package 3 included series of steady state mixing experiments with the ROCOM test facility and the publication of results of Paks VVER-440 NPP thermal mixing experiments. The ROCOM test facility models a 4-loop KONVOI type reactor. In the steady-state mixing experiments the velocity field in the downcomer was measured using laser Doppler anemometry and the concentration of the tracer solution fed from one loop was measured at the downcomer and at the core inlet plane. The varied parameters were the number and orientation of the operating loops, the total flow rate and the (asymmetric) flow rate of individual loops. The Paks NPP thermal mixing experiments took place during commissioning tests of replaced steam generator safety valves in 1987-1989. It was assumed that in the reactor vessels of Paks VVER-440 NPP equipped with six loops the mixing of the coolant is not ideal. For the realistic determination of the active core inlet temperature field for the transients and accidents associated with different level temperature asymmetry a set of mixing factors were determined. Based on data from the online core monitoring system and a separate mathematical model the mixing factors for loop flows at the core inlet were determined. In the numerical simulation part of the work package 3 the detailed measurements of ROCOM tests were used for the validation of CFD methods for primary circuit studies. The selected steady state mixing experiments were simulated with CFD codes CFX-4, CFX-5 and FLUENT. The velocity field in the downcomer and the mixing of the scalar were compared between CFD simulations and experiments. The CFD simulations of full scale PWR included the simulation of Paks VVER-440 mixing experiment and the simulation of Loviisa VVER-440 downcomer flow field. In the simulations of Paks experiments the experimental and simulated concentration field at the core inlet were compared and conclusions made concerning the results overall and the VVER-440 specific geometry modelling aspects like how to model the perforated elliptic bottom plate and what is the effect of the cold leg bends to the flow field entering to the downcomer. With Loviisa simulations the qualitative comparison was made against the original commissioning experiments but the emphasis was on the CFD method validation and testing. The overall conclusion concerning the CFD modelling of the flow field and mixing in the PWR primary circuit could be that the current computation capacity and physical models also in commercial codes is beginning to be sufficient for simulations giving reliable and useful results for many real primary circuit applications. However the misuse of CFD methods is easy, and the general as well as the nuclear power specific modelling guidelines should be followed when the CFD simulations are made.
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Ringleb, Stefan [Verfasser], Thomas [Gutachter] Stöhlker, Wilfried [Gutachter] Nörtershäuser, and Richard C. [Gutachter] Thompson. "The HILITE setup for high-intensity-laser experiments with highly charged ions : design and commissioning / Stefan Ringleb ; Gutachter: Thomas Stöhlker, Wilfried Nörtershäuser, Richard C. Thompson." Jena : Friedrich-Schiller-Universität Jena, 2020. http://d-nb.info/1213348722/34.

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Terschlüsen, Joachim A. "Constructing and Commissioning HELIOS – A High Harmonic Generation Source for Pump-Probe Measurements with sub 50 fs Temporal Resolution : The Development of Experimental Equipment for Extreme Ultraviolet Spectroscopy." Doctoral thesis, Uppsala universitet, Molekyl- och kondenserade materiens fysik, 2016. http://urn.kb.se/resolve?urn=urn:nbn:se:uu:diva-281298.

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This thesis presents HELIOS, an in-house laboratory for time-resolved pump-probe spectroscopy with extreme-ultraviolet (XUV) probe radiation. A wide span of pump wavelengths can be generated using commercial laser equipment while XUV probe radiation is generated via a high harmonic generation process in a noble gas delivering probe photons with energies between 20 eV and 72 eV. The XUV beam path features a time-preserving monochromator and was constructed and built in-house. HELIOS features an overall time resolution of about 50 fs when using 800 nm pump and 41 eV probe photons. An energy resolution of 110 meV at 41 eV photon energy can be achieved. HELIOS features two beamlines. One µ-focus beamline with an XUV focal size of about 20 µm can be used with experiments that require such a small XUV focal size as well as with different end stations. The other beamline features a semi-permanently mounted end station for angle-resolved photoelectron spectroscopy under ultra-high vacuum conditions. Experiments demonstrating the usability of HELIOS and the two beamlines are presented. A pump-probe measurement on graphene demonstrates the capability of determining a large part of the k-space in only one measurement due to the use of an ARTOF angle-resolved time-of-flight electron spectrometer. A non-angle-resolved pump-probe measurement on the conducting polymer PCPDTBT demonstrates the high signal-to-noise ratio achievable at this beamline in non-angle-resolved photoelectron-spectroscopy pump-probe measurements. The usability of the µ-focus beamline is demonstrated with time-resolved measurements on magnetic samples employing an in-house-designed spectrometer. These experiments allow the retrieval of element-specific information on the magnetization within a sample employing the transversal magneto-optical Kerr effect (T-MOKE). Additionally, a Fourier transform spectrometer for the XUV is presented, the concept was tested at a synchrotron and it was used to determine the longitudinal coherence of the XUV radiation at HELIOS.
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Sarkamo, J. (Juho). "Design, construction and commissioning of the EMMA experiment." Doctoral thesis, University of Oulu, 2014. http://urn.fi/urn:isbn:9789526205694.

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Abstract The work describes the design, construction and commissioning of the underground cosmic-ray experiment Experiment with MultiMuon Array (EMMA). The experiment is built into the Pyhäsalmi mine, in the town of Pyhäjärvi, Finland. The aim of EMMA is to determine the elemental composition of cosmic rays at an energy region around 4 PeV, the energy region called the ’knee’ region. This is achieved by measuring the lateral density distribution of high-energy muons originating from Extensive Air Showers (EAS). The design calculations for the EMMA experiment, which are based on the use of the parametrization of the lateral density distribution of muons, the method of shower reconstruction, and the energy and composition indicators, are presented. A strategy for reconstructing the composition of the cosmic rays is presented and it demonstrates the potential of applying unfolding techniques to the EMMA data. The effect of an array extension on the performance of EMMA is studied. The hardware used in the EMMA experiment is presented starting with an overview of the array and its detector stations. The EMMA array employs three different particle detectors, for which the main technical properties are given, and their use in the EMMA array is presented. A description of the infrastructure of the experiment is given and the rock overburden at the EMMA site at the depth of 80 metres is documented. The work contains the latest analysis of EAS data recorded by the tracking detectors of the experiment, which demonstrates that the experiment is taking data as planned and that the data are according to EAS physics expectations. Methods for event selection and tracking efficiency correction are presented, after which the analysis results of measured track multiplicity spectra are given. The shape of the recorded multiplicity spectrum indicates that the simplest model of a knee-like spectrum with a pure proton composition can not explain the data and that further analysis of the spectrum is required.
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Battilana, Carlo <1980&gt. "Drift Tubes Trigger System of the CMS Experiment at LHC : Commissioning and Performances." Doctoral thesis, Alma Mater Studiorum - Università di Bologna, 2009. http://amsdottorato.unibo.it/1723/.

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In this thesis the performances of the CMS Drift Tubes Local Trigger System of the CMS detector are studied. CMS is one of the general purpose experiments that will operate at the Large Hadron Collider at CERN. Results from data collected during the Cosmic Run At Four Tesla (CRAFT) commissioning exercise, a globally coordinated run period where the full experiment was involved and configured to detect cosmic rays crossing the CMS cavern, are presented. These include analyses on the precision and accuracy of the trigger reconstruction mechanism and measurement of the trigger efficiency. The description of a method to perform system synchronization is also reported, together with a comparison of the outcomes of trigger electronics and its software emulator code.
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Israel, Norman S. "Commissioning of the Trigger module for the 12 GeV era experiment E12-06-114 at JLab." Ohio University / OhioLINK, 2014. http://rave.ohiolink.edu/etdc/view?acc_num=ohiou1416241441.

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Geis, Christopher Werner [Verfasser]. "The XENON1T water Cherenkov muon veto system and commissioning of the XENON1T Dark Matter experiment / Christopher Werner Geis." Mainz : Universitätsbibliothek Mainz, 2018. http://d-nb.info/116644936X/34.

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Turner, W. "The construction and commissioning of the straw tracking detector in the new muon g-2 experiment at Fermilab." Thesis, University of Liverpool, 2018. http://livrepository.liverpool.ac.uk/3028553/.

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The anomalous magnetic moments of leptons have been a long standing test of the standard model of particle physics as they can be both measured experimentally and predicted theoretically with high precision. In particular the anomalous magnetic moment of the muon, aμ, has been favoured due to its sensitivity to new physics effects. Currently the world's best measurement of aμ was made at Brookhaven National Laboratory (BNL) in 2001 which resulted in a 3σ deviation between the experimental measurement and theoretical prediction. Since this measurement a number of improvements have been made to the theoretical prediction giving a deviation between theoretical prediction and measured value of over 3.5σ. A new experimental effort has been set up at Fermi National Laboratory (FNAL) in order to measure aμ with a factor of four reduction in the experimental uncertainties. If these aims are met and the central measurement value stays the same a discrepancy will be discovered providing strong evidence for new physics effects. The FNAL experiment uses the same experimental method as BNL which centres around measuring the precession of the μ+ spin after circling an extremely precise magnetic storage ring. To reduce the experimental uncertainties in the new experiment straw tracking detectors have been constructed and installed into the Fermilab muon g-2 storage ring. These detectors measure the stored muon beam profile throughout each fill and enable key independent cross checks of the calorimeter detector systems. This body of work presents the design, construction, testing, installation and commissioning of the straw tracking detectors as well as the ability to match the straw tracker tracks and calorimeter clusters with a focus on measuring the calorimeter pileup rate.
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Books on the topic "Commissioning experiments"

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Verma, R. Design and commissioning of 1.2 MJ capacitor bank "rudra" for MTF & plasma focus experiments. Bhabha Atomic Research Centre, 2010.

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Gutierrez, Jorge Isaac Hernandez. The design and commissioning of an experimental falling film ammonia-water absorber. Universityof Salford, 1995.

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Karathanos, Konstantinos. Development and commissioning of an experimental apparatus for investigating the break-up of liquid sheets into droplets. UMIST, 1996.

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Book chapters on the topic "Commissioning experiments"

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Wilschut, H. W., U. Dammalapati, S. De, et al. "Status of the TRIμP project Results of commissioning experiments." In TCP 2006. Springer Berlin Heidelberg, 2007. http://dx.doi.org/10.1007/978-3-540-73466-6_57.

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Beltrame, Fabio, Adam J. Head, Carlo De Servi, Matteo Pini, Ferdinand Schrijer, and Piero Colonna. "First Experiments and Commissioning of the ORCHID Nozzle Test Section." In Proceedings of the 3rd International Seminar on Non-Ideal Compressible Fluid Dynamics for Propulsion and Power. Springer International Publishing, 2021. http://dx.doi.org/10.1007/978-3-030-69306-0_18.

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Caminada, Lea. "The CMS Experiment at the LHC." In Study of the Inclusive Beauty Production at CMS and Construction and Commissioning of the CMS Pixel Barrel Detector. Springer Berlin Heidelberg, 2012. http://dx.doi.org/10.1007/978-3-642-24562-6_2.

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Li, Wang, Liang Feng, Qiqi Chen, Xiaohua Chen, and Wenlong Jia. "Study on Commissioning Techniques for Oil Transportation Pipeline with Large Elevation Difference and Continuous U Shape." In Computational and Experimental Simulations in Engineering. Springer International Publishing, 2020. http://dx.doi.org/10.1007/978-3-030-64690-5_17.

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Li, Wang, Kun Wang, Zhijian Zhang, and Sha Chen. "Study on Calculation of Mixed Oil-Water Volume During the Commissioning of Large Drop Continuous U-Shaped Liquid Pipelines." In Computational and Experimental Simulations in Engineering. Springer International Publishing, 2019. http://dx.doi.org/10.1007/978-3-030-27053-7_84.

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Conference papers on the topic "Commissioning experiments"

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Laxdal, R. E. "Commissioning and early experiments with ISAC-II." In 2007 IEEE Particle Accelerator Conference (PAC). IEEE, 2007. http://dx.doi.org/10.1109/pac.2007.4440720.

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van der Geer, C. A. J. "Commissioning the Free Electron Laser for Infrared Experiments." In 16th International Conference on Infrared and Millimeter Waves. SPIE, 2017. http://dx.doi.org/10.1117/12.2297996.

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King, J., J. Pasley, F. Beg, et al. "Commissioning experiments on the 100 TW Sandia laser." In 2007 IEEE International Pulsed Power Plasma Science Conference (PPPS 2007). IEEE, 2007. http://dx.doi.org/10.1109/ppps.2007.4651822.

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Gil, K. H., J. Lim, H. J. Choi, et al. "Beamline Reconfiguring and Commissioning for X-Ray Microdiffraction Experiments." In SRI 2009, 10TH INTERNATIONAL CONFERENCE ON RADIATION INSTRUMENTATION. AIP, 2010. http://dx.doi.org/10.1063/1.3463206.

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Charalambidis, Dimitris, Ádám Börzsönyi, Péter Dombi, et al. "ELI-ALPS: implementation status and first commissioning experiments (Conference Presentation)." In Research Using Extreme Light: Entering New Frontiers with Petawatt-Class Lasers, edited by Sergei V. Bulanov, Georg Korn, and Luis O. Silva. SPIE, 2019. http://dx.doi.org/10.1117/12.2526315.

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Wilson, Sarah A., and Greg Tallents. "Commissioning and Initial Experiments of an EUV Capillary Discharge Laser." In Compact EUV & X-ray Light Sources. OSA, 2018. http://dx.doi.org/10.1364/euvxray.2018.et1b.7.

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Huault, M., G. Zeraouli, J. G. Ajates, et al. "Commissioning experiments of VEGA-2 at Centro de Láseres Pulsados (CLPU)." In Frontiers in Optics. OSA, 2017. http://dx.doi.org/10.1364/fio.2017.fm2b.4.

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Yamada, Takeshi, Hiroshi Arima, and Takanori Hattori. "Commissioning for QENS Experiments at Pressures Up to 200 MPa at MLF, J-PARC." In Proceedings of the 3rd J-PARC Symposium (J-PARC2019). Journal of the Physical Society of Japan, 2021. http://dx.doi.org/10.7566/jpscp.33.011084.

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Tolentino, Helio, Renan R. Geraldes, Gabriel B. Z. L. Moreno, et al. "X-ray microscopy developments at Sirius-LNLS: first commissioning experiments at the Carnauba beamline." In X-Ray Nanoimaging: Instruments and Methods V, edited by Barry Lai and Andrea Somogyi. SPIE, 2021. http://dx.doi.org/10.1117/12.2596496.

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Baumbaugh, A., B. Bilki, J. Butler, et al. "Production and commissioning of a large prototype Digital Hadron Calorimeter for future colliding beam experiments." In 2011 IEEE Nuclear Science Symposium and Medical Imaging Conference (2011 NSS/MIC). IEEE, 2011. http://dx.doi.org/10.1109/nssmic.2011.6154437.

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Reports on the topic "Commissioning experiments"

1

Del Guercio, Miguel. ARL Commissioning Experiments With a 4.5-MJ Pulsed Power Supply. Defense Technical Information Center, 2002. http://dx.doi.org/10.21236/ada406130.

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2

Weathered, M., D. Kultgen, E. Kent, et al. Thermal Hydraulic Experimental Test Article - Report of THETA Commissioning for METL Testing. Office of Scientific and Technical Information (OSTI), 2021. http://dx.doi.org/10.2172/1778938.

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