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Journal articles on the topic 'Decommissione'

Author: Grafiati
Published: 4 June 2021
Last updated: 15 February 2022

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1

Barrymore, Stuart. "Decommissioning of Australia's oil and gas facilities in the 21st century." APPEA Journal 57, no. 2 (2017): 397. http://dx.doi.org/10.1071/aj16004.

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Through 2016, there has been increasing interest in the rules and regulations that apply to decommission facilities in Australia’s offshore waters. APPEA is developing guidelines as is the State of Western Australia. The Department of Industry Innovation and Research is preparing a discussion paper on Australia’s decommissioning laws, regulation and practice. It is expected to issue by the end of 2016. These developments are long overdue. Australia’s laws regarding these activities have barely changed since the offshore legislation was enacted in 1967. How major facilities are decommissioned in Australia will be a matter of interest to numerous stakeholders. It seems likely that decisions taken in the next two years will result in a modernisation of Australia’s law and practice and will determine how the major offshore facilities will be decommissioned over the next 30 years. The paper canvasses the reform process, considers the more modern regimes overseas and whether they have achieved their objectives, looks at regional (Asia–Pacific) practice and informs delegates as to the path forward on any legislative reform. The position of the States and the Commonwealth are contrasted.
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Samuels, Diane. "Catherine Yass: Decommissioned." Jewish Quarterly 60, no. 3-4 (October 2, 2013): 96–105. http://dx.doi.org/10.1080/0449010x.2013.855453.

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3

Swinbanks, David. "Japanese experimental nuclear reactor decommissioned." Nature 325, no. 6100 (January 1987): 100. http://dx.doi.org/10.1038/325100b0.

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4

Showstack, Randy. "Landsat 5 to be decommissioned." Eos, Transactions American Geophysical Union 94, no. 2 (January 8, 2013): 19. http://dx.doi.org/10.1002/2013eo020003.

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5

Kuznetsova, Elena, Valentina Parshina, Anastasiya Markina, and Nikita Amosov. "Comprehensive Disposal of Decommissioned Vehicles." Transportation Research Procedia 54 (2021): 362–69. http://dx.doi.org/10.1016/j.trpro.2021.02.083.

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6

Zhu, Yanbin, Qing Ding, Yuming Zhao, Jinwen Ai, Yan Li, and Yuan-Cheng Cao. "Study on the process of harmless treatment of residual electrolyte in battery disassembly." Waste Management & Research: The Journal for a Sustainable Circular Economy 38, no. 11 (April 20, 2020): 1295–300. http://dx.doi.org/10.1177/0734242x20914752.

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Residual electrolyte is the main pollution source in the lithium ion battery disassembly process. A practical detoxified approach is studied using the lithium hexafluorophosphate in the decommissioned power battery with dimethyl carbonate as a solvent. The pH measurement, Fourier transform infrared spectroscopy, micromorphology and phase structure characterization techniques showed that the process in this study is capable of removing lithium hexafluorophosphate from decommissioned power batteries, while controlling the proper ratio of NaOH can also completely precipitate F− into CaF2 crystal and allows recycling of the organic solvents. This process scheme of residual electrolyte treatment effectively reduces environmental pollution during the decommissioned power batteries recycling process, and has the benefit of resource reuse for valuable elements.
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7

Clery, Daniel. "Arecibo radio telescope to be decommissioned." Science 370, no. 6520 (November 26, 2020): 1018–19. http://dx.doi.org/10.1126/science.370.6520.1018.

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8

Mansour, A. E., P. T. Pedersen, and J. K. Paik. "Wave energy extraction using decommissioned ships." Ships and Offshore Structures 8, no. 5 (September 26, 2012): 504–16. http://dx.doi.org/10.1080/17445302.2012.723874.

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9

POLIDANO, CHARLES. "SHOULD ADMINISTRATIVE REFORM COMMISSIONS BE DECOMMISSIONED?" Public Administration 73, no. 3 (September 1995): 455–71. http://dx.doi.org/10.1111/j.1467-9299.1995.tb00838.x.

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10

Sens, Andrew D. "A Commission to Decommission Paramilitary Arms." World Policy Journal 23, no. 3 (September 2006): 75–85. http://dx.doi.org/10.1162/wopj.2006.23.3.75.

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11

Kotlyarova, Liubov, and Ekaterina Sysoeva. "MOTIVATIONAL READINESS OF PERSONNEL OF A HIGH TECH INDUSTRIAL ENTERPRISE TO THE CONTINUATION OF WORK AT THE STAGE OF ITS DECOMMISSIONING." SOCIETY. INTEGRATION. EDUCATION. Proceedings of the International Scientific Conference 1 (May 26, 2017): 563. http://dx.doi.org/10.17770/sie2017vol1.2360.

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It is in a common practice to decommission a high tech industrial enterprise after depletion of its technological resource. During the preparation to decommissioning of a state enterprise the number of staff is decreasing. In order to keep the resources of labour potential the management of the industry offers to the employees an employment in other enterprises of the industry. The employees of the enterprise to be decommissioned have to make a choice: whether to continue working in the same industry or to search for their new occupation themselves. The article describes the results of studying motivational potential of a high tech industrial enterprise during the decision-making process of decommissioning due to depletion of the technological resource. The motivational potential is considered as a motivational readiness to continuing or ceasing work at the enterprises of the same industry and nine types of the motivational profile. The motivational readiness is studied by a specially designed questionnaire. The type of the motivational profile is defined by Milman technique (2005). The research results show that 82 % of the employees are ready to continue working at the enterprises of the same industry, 10 % are in the process of decision-making and 8% are going to search for a new employment in other spheres. Further the type of the motivational profile for each employee is defined by Milman technique (2005). For each group, defined by the criterion of motivational readiness to continuing working for the same industry, the rate of motivational types in the group is calculated. The defined patterns are used while forming personnel reserve for the enterprise in power-down mode and during decommissioning stage as well as when rotating staff to other enterprises of the industry.
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12

Miller, R. A., A. E. Aktan, and B. M. Shahrooz. "Destructive Testing of Decommissioned Concrete Slab Bridge." Journal of Structural Engineering 120, no. 7 (July 1994): 2176–98. http://dx.doi.org/10.1061/(asce)0733-9445(1994)120:7(2176).

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13

Davis, W. Jackson, and Jon M. Van Dyke. "Dumping of decommissioned nuclear submarines at sea." Marine Policy 14, no. 6 (November 1990): 467–76. http://dx.doi.org/10.1016/0308-597x(90)90016-k.

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14

Lugavtsov, O. V., A. G. Malakhov, and K. K. Popkov. "Utilization of reactor bays of decommissioned submarines." Atomic Energy 76, no. 5 (May 1994): 415–17. http://dx.doi.org/10.1007/bf02407456.

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15

马, 若霞. "The Introduction for Decommission of Nuclear Facilities." Nuclear Science and Technology 05, no. 02 (2017): 49–53. http://dx.doi.org/10.12677/nst.2017.52006.

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16

Rohrbach, John S. "U.S.nuclear decommission trust planning: Romancing a millstone?" Electricity Journal 8, no. 5 (June 1995): 56–61. http://dx.doi.org/10.1016/1040-6190(95)90127-2.

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17

Zhang, Jianren, Hui Peng, and C. S. Cai. "Destructive Testing of a Decommissioned Reinforced Concrete Bridge." Journal of Bridge Engineering 18, no. 6 (June 2013): 564–69. http://dx.doi.org/10.1061/(asce)be.1943-5592.0000408.

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18

Amleh, Lamya, and M. Saeed Mirza. "Corrosion Response of a Decommissioned Deteriorated Bridge Deck." Journal of Performance of Constructed Facilities 18, no. 4 (November 2004): 185–94. http://dx.doi.org/10.1061/(asce)0887-3828(2004)18:4(185).

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19

Fu, S. Y., Z. R. Wang, H. L. Shi, and L. H. Ma. "The application of decommissioned GEO satellites to CAPS." IOP Conference Series: Materials Science and Engineering 372 (June 2018): 012033. http://dx.doi.org/10.1088/1757-899x/372/1/012033.

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20

Jáuregui, David V., Joseph A. Yura, Karl H. Frank, and Sharon L. Wood. "Field Evaluation of Decommissioned Noncomposite Steel Girder Bridge." Journal of Bridge Engineering 7, no. 1 (January 2002): 39–49. http://dx.doi.org/10.1061/(asce)1084-0702(2002)7:1(39).

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21

Wytrzyszczak, I. "Testing the safety of decommissioned spacecraft above GEO." Advances in Space Research 34, no. 5 (January 2004): 1209–13. http://dx.doi.org/10.1016/j.asr.2003.02.036.

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22

Hodder, Eric A. "Well Decommission, Policy, Processes, and the Urban Environment." Journal of Contemporary Water Research & Education 159, no. 1 (December 2016): 117–26. http://dx.doi.org/10.1111/j.1936-704x.2016.03233.x.

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23

Enachescu, Mihaela, Catalin Stan-Sion, Alexandru Razvan Petre, Cristian Postolache, and Viorel Fugaru. "3H and 14C measurements of the irradiated graphite from the decommissioned VVR-S reactor in NIPNE Bucharest." Journal of Analytical Atomic Spectrometry 33, no. 3 (2018): 431–36. http://dx.doi.org/10.1039/c7ja00397h.

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Accelerator Mass Spectrometry and Full Combustion method followed by liquid scintillation counting were applied to measure the accumulated 14C in the thermal column of the decommissioned VVR-S reactor in NIPNE Bucharest.
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24

Min, B. Y., Y. J. Lee, G. S. Yun, K. W. Lee, and J. K. Moon. "Waste Management and Treatment of Decommissioned Radioactive Combustible Waste." Journal of Nuclear Fuel Cycle and Waste Technology 1, no. 1 (October 30, 2013): 75–82. http://dx.doi.org/10.7733/jnfcwt.2013.1.1.75.

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25

Thompson, Matthew, and John Sessions. "Optimal Policies for Aggregate Recycling from Decommissioned Forest Roads." Environmental Management 42, no. 2 (May 15, 2008): 297–309. http://dx.doi.org/10.1007/s00267-008-9136-0.

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26

Sudaia, David Pascoal, Milton Briguet Bastos, Elieti Biques Fernandes, Christine Rabello Nascimento, Elen B. A. V. Pacheco, and Ana Lúcia N. da Silva. "Sustainable recycling of mooring ropes from decommissioned offshore platforms." Marine Pollution Bulletin 135 (October 2018): 357–60. http://dx.doi.org/10.1016/j.marpolbul.2018.06.066.

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27

Jones, Daniel O. B., Andrew R. Gates, Veerle A. I. Huvenne, Alexander B. Phillips, and Brian J. Bett. "Autonomous marine environmental monitoring: Application in decommissioned oil fields." Science of The Total Environment 668 (June 2019): 835–53. http://dx.doi.org/10.1016/j.scitotenv.2019.02.310.

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28

Zioutas, K., C. E. Aalseth, D. Abriola, F. T. Avignone III, R. L. Brodzinski, J. I. Collar, R. Creswick, et al. "A decommissioned LHC model magnet as an axion telescope." Nuclear Instruments and Methods in Physics Research Section A: Accelerators, Spectrometers, Detectors and Associated Equipment 425, no. 3 (April 1999): 480–87. http://dx.doi.org/10.1016/s0168-9002(98)01442-9.

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29

Ignatov, Vladimir I., Aleksey S. Dorokhov, Valeriy S. Gerasimov, and Viatcheslav A. Denisov. "The Principles for Determining Recycling Fee on Decommissioned Equipment." Engineering Technologies and Systems, no. 1 (March 29, 2019): 124–39. http://dx.doi.org/10.15507/2658-4123.029.201901.124-139.

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Introduction.The article presents the results of the research, whose purpose was to determine the optimal value of the recycling fee for decommissioned self-propelled machinery. A review of the studies on the management of production and consumption waste in the leading countries and Russia, allowed us to analyze solutions to this problem and models of economic support for disposal systems of decommissioned equipment. There is no method of determining the optimal recycling fee in Russia so far. Materials and Methods.Methods, algorithm and computer programs were developed to solve this problem. The necessary information was obtained by the course of the survey conducted in 12 regions of Russia among agricultural enterprises using agricultural machinery and equipment of specialized production, and from tests at agricultural enterprises using this technology; the methods of the said information are shown. The paper gives a list of parameters that ensure the development of the algorithm and computer programs that were used to determine the optimal recycling fee. Results. The developed method of determination, algorithm and computer programs allowed determining the optimal recycling fee to create a system of recycling self-propelled technology. It is shown that as the system for recycling decommissioned equipment develops, this value will decrease. The results of the study were used in preparing a Russian Government Regulation. Discussion and Conclusion. The results of the study showed that the recycling fee affects the competitiveness of self-propelled equipment. Both positive and negative sides of increasing the introduced in Russia recycling fee for vehicles are considered. It is proved that it is necessary to create a system of recycling these vehicles, the economic base of which can be fully provided by the recycling fee introduced in Russia.
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30

Robertson, W. D., and J. Harman. "Phosphate Plume Persistence at Two Decommissioned Septic System Sites." Ground Water 37, no. 2 (March 1999): 228–36. http://dx.doi.org/10.1111/j.1745-6584.1999.tb00978.x.

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31

Poulsen, B. A., and B. Shen. "Subsidence risk assessment of decommissioned bord-and-pillar collieries." International Journal of Rock Mechanics and Mining Sciences 60 (June 2013): 312–20. http://dx.doi.org/10.1016/j.ijrmms.2013.01.014.

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32

Viccione, Giacomo, Laura Ingenito, Stefania Evangelista, and Carmine Cuozzo. "Restructuring a Water Distribution Network through the Reactivation of Decommissioned Water Tanks." Water 11, no. 9 (August 21, 2019): 1740. http://dx.doi.org/10.3390/w11091740.

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Water resource management is a topic of great environmental and social relevance, since water must be preserved and managed to avoid waste, providing high quality service at fair tariffs for the consumer, as imposed by the European Water Directive (2000/CE). In the rehabilitation of a water distribution network, it may be suitable to recover decommissioned water tanks, if any, rather than afford high construction costs to build new ones. In this case, the assessment of the residual service life of these concrete structures affected by steel bar corrosion is the premise for the design of new pipeline routes, connecting them. For this aim, rather than carrying tests that can accurately determine mechanical properties of the dismissed water tanks, it is possible to empirically estimate their level of degradation. Their conditions infer on the expected life of the restructured water distribution network. However, they allow the aqueduct to be used for its technical duration, assumed to be equal to the decommissioned water tanks residual service life in the case they do not require maintenance. Here, a simplified model for the assessment of the residual service life of decommissioned water tanks is first proposed and then applied to a case study, consisting of a part of the water network managed by “Ausino S.p.A. Servizi Idrici Integrati”, Cava de’ Tirreni, Italy. Once the service life is assessed, the QEPANET plugin is used in QGIS to speed up the design of the new pipeline routes in the georeferenced space, thus overcoming the limits offered by the classic EPANET solver.
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33

Shi, Qian, Junkai Li, Qi Qin, and Chijian Zhang. "Parameter identification and state-of-charge prediction of decommissioned lithium batteries." E3S Web of Conferences 267 (2021): 01017. http://dx.doi.org/10.1051/e3sconf/202126701017.

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Aiming at the problem that different temperatures and working modes affect the parameter identification and state of charge (SOC) estimation of decommissioned lithium batteries, a new method based on the second-order RC equivalent circuit model combined with the recursive least square method (RLS) is proposed to introduce the forgetting factor, and combined with the extended Kalman filter algorithm (EKF) to realize the method of online parameter identification of decommissioned lithium batteries and the optimal estimation of SOC. In order to solve the problem of obtaining the optimal solution of the error covariance matrix and the measurement noise covariance matrix in EKF, the particle swarm optimization algorithm (PSO) is used to optimize online to further improve the SOC prediction accuracy. The results show that the joint optimization algorithm can accurately identify the parameters and SOC values of retired lithium batteries, which is helpful to realize the echelon utilization of retired lithium batteries.
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34

Ohut, Connie K., M. J. Dudas, and G. E. Nason. "Distribution of mercury in soils at a decommissioned gas plant." Canadian Journal of Soil Science 80, no. 3 (August 1, 2000): 473–82. http://dx.doi.org/10.4141/s99-069.

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The range and distribution of mercury in soils at a decommissioned gas plant near Turner Valley, Alberta were investigated in order to facilitate risk assessment and the remediation and development of the site into a tourism area. Although high levels of Hg were thought to be present in some areas on the site, it was unclear whether the source of the Hg was industrial processes or from river deposition of HgS impurities after erosion of upstream sulfide deposits. Background Hg concentrations in undisturbed soils and surficial bedrock near the gas plant were also unknown. Mercury concentrations in surface soil material on the gas plant site were found to range up to 230 mg Hg kg−1 soil, with the highest concentrations found next to process building doorways. Investigation of Hg distribution with soil depth showed that levels were generally highest at the surface, dropping rapidly with depth to near background levels of 0.07 mg Hg kg−1 soil or lower. The highest Hg concentrations were associated with the clay fraction, which contained up to 2300 mg Hg kg−1 soil. The results are consistent with an anthropogenic source from spillage of elemental Hg contained in manometers and pressure monitoring devices used in plant buildings. Mercury concentrations at depth and in uncontaminated surface soils were similar to those reported by Dudas and Pawluk (1976) for surface soils formed in glacial and fluvial deposits elsewhere in Alberta. Key words: Mercury, contamination, soils, Turner Valley
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35

Starý, Michal, František Novotný, Marcel Horák, and Marie Stará. "Sampling robot for primary circuit pipelines of decommissioned nuclear facilities." Automation in Construction 119 (November 2020): 103303. http://dx.doi.org/10.1016/j.autcon.2020.103303.

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36

Li, Sijing, Anna M. Crump, Paul R. Grbin, Daniel Cozzolino, Peter Warren, Yoji Hayasaka, and Kerry L. Wilkinson. "Aroma Potential of Oak Battens Prepared from Decommissioned Oak Barrels." Journal of Agricultural and Food Chemistry 63, no. 13 (March 27, 2015): 3419–25. http://dx.doi.org/10.1021/acs.jafc.5b00339.

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37

Lukacs, G. "Overview of decommissioned nuclear power plants / Stillgelegte Kernkraftwerke im Überblick." Kerntechnik 56, no. 6 (June 1, 1991): 354–57. http://dx.doi.org/10.1515/kern-1991-560608.

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38

Tian, Xiaojie, Yonghong Liu, Rongju Lin, Pengfei Sun, and Renjie Ji. "An Autonomous Robot for Casing Cutting in Oil Platform Decommission." International Journal of Control and Automation 6, no. 5 (October 31, 2013): 9–20. http://dx.doi.org/10.14257/ijca.2013.6.5.02.

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39

Kitahara, Hiroto, and Takeyoshi Ota. "Left ventricular assist device explant versus decommission for myocardial recovery." Journal of Thoracic and Cardiovascular Surgery 154, no. 1 (July 2017): 171–72. http://dx.doi.org/10.1016/j.jtcvs.2017.03.123.

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40

Carpenter, Andrew R., Russell A. Ogle, and Juan Carlos Ramirez. "Risk assessment of a propane storage sphere: Maintain or decommission?" Process Safety Progress 32, no. 2 (April 3, 2013): 131–35. http://dx.doi.org/10.1002/prs.11581.

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41

Margolin, B. Z., A. Ya Varovin, A. J. Minkin, D. A. Gurin, and V. A. Glukhov. "Investigation of irradiated metal of WWER-type reactor internals after 45 years of operation. Part 1. Research program and cutting out of samples from pressure vessel internals." Voprosy Materialovedeniya, no. 3(103) (November 30, 2020): 135–43. http://dx.doi.org/10.22349/1994-6716-2020-103-3-135-143.

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The program is presented for investigations of the metal of the most irradiated elements of the WWER-440 reactor of the Novovoronezh NPP Unit 3 decommissioned after 45 years of operation. The fragments (cylindrical samples) were cut out from various zones of the core baffle and segment of forming ring of core barrel.
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42

HARLOCK, JENNY, IESTYN WILLIAMS, GLENN ROBERT, KELLY HALL, RUSSELL MANNION, and SALLY BREARLEY. "Doing More with Less in Health Care: Findings from a Multi-Method Study of Decommissioning in the English National Health Service." Journal of Social Policy 47, no. 3 (October 30, 2017): 543–64. http://dx.doi.org/10.1017/s0047279417000721.

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AbstractIn the context of an austere financial climate, local health care budget holders are increasingly expected to make and enact decisions to decommission (reduce or stop providing) services. However, little is currently known about the experiences of those seeking to decommission. This paper presents the first national study of decommissioning in the English National Health Service drawing on multiple methods, including: an interview-based review of the contemporary policy landscape of health care decommissioning; a national online survey of commissioners of health care services responsible for managing and enacting budget allocation decisions locally; and illustrative vignettes provided by those who have led decommissioning activities. Findings are presented and discussed in relation to four themes: national-local relationships; organisational capacity and resources for decommissioning; the extent and nature of decommissioning; and intended outcomes of decommissioning. Whilst it is unlikely that local commissioners will be able to ‘successfully’ implement decommissioning decisions unless aspects of engagement, local context and outcomes are addressed, it remains unclear what ‘success’ looks like in terms of a decommissioning process.
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43

Dragusin, Mitica, Octavian Pavelescu, and Ioan Iorga. "Good practices in decommissioning planning and pre-decommissioning activities for the Magurele VVR-S nuclear research reactor." Nuclear Technology and Radiation Protection 26, no. 1 (2011): 84–91. http://dx.doi.org/10.2298/ntrp1101084d.

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The VVR-S Nuclear Research Reactor at the ?Horia Hulubei? National Institute of Physics and Nuclear Engineering in Magurele, Bucharest, will be decommissioned applying the immediate dismantling strategy. The implementation of the decommissioning project started in 2010 and is planned for completion within 11 years. Good practices in decommissioning planning, organization, funding, and logistics are described in this paper.
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TANAKA, Tadao, Taro SHIMADA, Takeshi ITO, Takahiro HIRANO, and Takenori SUKEGAWA. "Conservative Evaluation of Remaining Radioactivity on Decommissioned Nuclear Power Plant Sites." Progress in Nuclear Science and Technology 1 (February 25, 2011): 408–11. http://dx.doi.org/10.15669/pnst.1.408.

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45

KASAHARA, Junzo, Yuichi SHIRASAKI, Katsuyoshi KAWAGUCHI, Ryoichi IWASE, and Tadashi NAKATSUKA. "Pictorial 6 : Multi-disciplinary Real-time Observations Using Decommissioned Submarine Cables." Journal of Geography (Chigaku Zasshi) 109, no. 6 (2000): Plate7—Plate8. http://dx.doi.org/10.5026/jgeography.109.6_plate7.

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46

Guan, Yuting, Hongbo Liu, Ziyuan Ma, Szu-Yuan Li, Jihwan Park, Xin Sheng, and Katalin Susztak. "Dnmt3a and Dnmt3b-Decommissioned Fetal Enhancers are Linked to Kidney Disease." Journal of the American Society of Nephrology 31, no. 4 (March 3, 2020): 765–82. http://dx.doi.org/10.1681/asn.2019080797.

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BackgroundCytosine methylation is an epigenetic mark that dictates cell fate and response to stimuli. The timing and establishment of methylation logic during kidney development remains unknown. DNA methyltransferase 3a and 3b are the enzymes capable of establishing de novo methylation.MethodsWe generated mice with genetic deletion of Dnmt3a and Dnmt3b in nephron progenitor cells (Six2CreDnmt3a/3b) and kidney tubule cells (KspCreDnmt3a/3b). We characterized KspCreDnmt3a/3b mice at baseline and after injury. Unbiased omics profiling, such as whole genome bisulfite sequencing, reduced representation bisulfite sequencing and RNA sequencing were performed on whole-kidney samples and isolated renal tubule cells.ResultsKspCreDnmt3a/3b mice showed no obvious morphologic and functional alterations at baseline. Knockout animals exhibited increased resistance to cisplatin-induced kidney injury, but not to folic acid–induced fibrosis. Whole-genome bisulfite sequencing indicated that Dnmt3a and Dnmt3b play an important role in methylation of gene regulatory regions that act as fetal-specific enhancers in the developing kidney but are decommissioned in the mature kidney. Loss of Dnmt3a and Dnmt3b resulted in failure to silence developmental genes. We also found that fetal-enhancer regions methylated by Dnmt3a and Dnmt3b were enriched for kidney disease genetic risk loci. Methylation patterns of kidneys from patients with CKD showed defects similar to those in mice with Dnmt3a and Dnmt3b deletion.ConclusionsOur results indicate a potential locus-specific convergence of genetic, epigenetic, and developmental elements in kidney disease development.
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47

Boothroyd, I. M., S. Almond, S. M. Qassim, F. Worrall, and R. J. Davies. "Fugitive emissions of methane from abandoned, decommissioned oil and gas wells." Science of The Total Environment 547 (March 2016): 461–69. http://dx.doi.org/10.1016/j.scitotenv.2015.12.096.

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48

Ellwanger, Götz, and Karin Reiter. "Nature conservation on decommissioned military training areas – German approaches and experiences." Journal for Nature Conservation 49 (June 2019): 1–8. http://dx.doi.org/10.1016/j.jnc.2019.02.003.

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49

Hu, J. P., R. N. Reciniello, and N. E. Holden. "Dosimetry of the Decommissioned High-Flux Beam Reactor at Brookhaven Lab." Journal of ASTM International 9, no. 3 (March 2012): 103950. http://dx.doi.org/10.1520/jai103950.

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50

Ostafe, Vasile, Elena Preda, Manuela Maria Mincea, Cosmin Ionascu, and Alexandru Valentin Botez. "CONTAMINATION OF GROUNDWATER WITH PHENOL DERIVATIVES AROUND A DECOMMISSIONED CHEMICAL FACTORY." Environmental Engineering and Management Journal 17, no. 3 (2018): 569–77. http://dx.doi.org/10.30638/eemj.2018.058.

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