Книги: "Pumping mode"

1

Wanakule, Nisai. Development and testing of a model for determining optimal pumping and recharge of large-scale aquifers. Austin, Texas: College of Engineering, The University, 1985.

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2

Hayes, Philip Joseph. An r-[theta] co-ordinate numerical model, incorporating mesh refinement, for the investigation of pumping tests in heterogeneous aquifers. Birmingham: University of Birmingham, 1998.

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3

Makhmudov, Ilkhom Ernazarovich. UNSTEADY WATER MOVEMENT IN THE CANALS DUE TO THE PUMPING STATIONS OPERATION MODE. RS Global S. z O.O., 2022. http://dx.doi.org/10.31435/rsglobal/045.

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4

Femtosecond pulses generated from a synchronously pumped chromium-doped forsterite laser. New York, NY: City University of New York, 1995.

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5

Femtosecond pulses generated from a synchronously pumped chromium-doped forsterite laser. New York, NY: City University of New York, 1995.

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6

Saitoh, E., and K. Ando. Experimental observation of the spin Hall effect using spin dynamics. Oxford University Press, 2017. http://dx.doi.org/10.1093/oso/9780198787075.003.0015.

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This chapter describes an experiment on the inverse spin Hall effect (ISHE) induced by spin pumping. Spin pumping is the generation of spin currents as a result of magnetization M(t) precession; in a ferromagnetic/paramagnetic bilayer system, a conduction-electron spin current is pumped out of the ferromagnetic layer into the paramagnetic conduction layer in a ferromagnetic resonance condition. The sample used in the experiment is a Ni81Fe19/Pt bilayer film comprising a 10-nm-thick ferromagnetic Ni81Fe19layer and a 10-nm-thick paramagnetic Pt layer. For the measurement, the sample system is placed near the centre of a TE011 microwave cavity at which the magnetic-field component of the microwave mode is maximized while the electric-field component is minimized.

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7

Kavokin, Alexey V., Jeremy J. Baumberg, Guillaume Malpuech, and Fabrice P. Laussy. Quantum description of light–matter coupling. Oxford University Press, 2017. http://dx.doi.org/10.1093/oso/9780198782995.003.0005.

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In this chapter we study with the tools developed in Chapter 3 the basic models that are the foundations of light–matter interaction. We start with Rabi dynamics, then consider the optical Bloch equations that add phenomenologically the lifetime of the populations. As decay and pumping are often important, we cover the Lindblad form, a correct, simple and powerful way to describe various dissipation mechanisms. Then we go to a full quantum picture, quantizing also the optical field. We first investigate the simpler coupling of bosons and then culminate with the Jaynes–Cummings model and its solution to the quantum interaction of a two-level system with a cavity mode. Finally, we investigate a broader family of models where the material excitation operators differ from the ideal limits of a Bose and a Fermi field.

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8

Cypress Avenue Pumping Station: Hydraulic model investigation / by Bobby P. Fletcher. Vicksburg, MS: US Army Corps of Engineers, Waterways Experiment Station, 1994.

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9

P, Fletcher Bobby, and Hydraulics Laboratory (U.S.), eds. Alton Pumping Station, Alton, Illinois: Hydraulic model investigation. Vicksburg, Miss: US Army Corps of Engineers, Hydraulics Laboratory, 1991.

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10

Hydraulics Laboratory (U.S.), ed. St. Johns Bayou Pumping Station, Missouri: Hydraulic model investigation. Vicksburg, Miss: US Army Corps of Engineers, Hydraulics Laboratory, 1991.

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11

Hydraulics Laboratory (U.S.), ed. St. Johns Bayou Pumping Station, Missouri: Hydraulic model investigation. Vicksburg, Miss: US Army Corps of Engineers, Hydraulics Laboratory, 1991.

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12

Cinque Hommes, Jones Cutoff, Bois Brule, and Missouri Chute pumping stations: Perry County, Missouri, and Randolph County, Illinois : hydraulic model investigation. Vicksburg, Miss: US Army Corps of Engineers, Hydraulics Laboratory, 1988.

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13

Yazoo Backwater Pumping Station sump, West-Central Mississippi: Hydraulic model investigation. Vicksburg, Miss: US Army Corps of Engineers, Hydraulics Laboratory, 1990.

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14

P, Kubitschek Joseph, and Water Resources Research Laboratory (U.S.), eds. Physical model studies of the GCID pumping plant fish screen structure alternatives. Denver, Colo: U.S. Dept. of the Interior, Bureau of Reclamation, Water Resources Research Laboratory, Water Resources Services, Technical Service Center, 1997.

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15

Hydraulics Laboratory (U.S.), ed. New Madrid Pumping Station, gravity flow conduit and confluence, New Madrid Floodway, Missouri: Hydraulic model investigation. Vicksburg, Miss: US Army Corps of Engineers, Hydraulics Laboratory, 1990.

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16

Parker, Joanne, and Corinna Wagner, eds. The Oxford Handbook of Victorian Medievalism. Oxford University Press, 2020. http://dx.doi.org/10.1093/oxfordhb/9780199669509.001.0001.

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Victorian medievalism physically transformed the streets of Britain. It lay at the root of new laws and social policies. It changed religious practices. It deeply coloured national identities. And it inspired art, literature, and music that remains influential to this day. Sometimes driven by nostalgia, but also often progressive and future-facing, this wide-reaching movement, which reached its peak during the reign of Queen Victoria, looked back to a range of different peoples and historical periods spanning a thousand years, in order to inspire and vindicate cultural, political and social change. Medievalism was pervasive in Victorian literature, with texts ranging from translated sagas to pseudo-medieval devotional verse, to triple-decker novels. It became a dominant architectural mode – transforming the English landscape, with 75% of new churches built on a ‘Gothic’ rather than a classical model, as well as museums, railway stations, town halls, and pumping stations. It was appealed to by both Whigs and Tories. But it also permeated domestic life – influencing the popularity of beards, the naming of children, and the design of homes and furniture. This landmark study is an attempt to draw together for the first time every major aspect of Victorian medievalism, and to examine the phenomenon from the perspective of the many disciplines to which it is relevant, including intellectual history, religious studies, social history, literary history, art history, and architecture. Bringing together the expertise of 39 experts from different subject areas, it reveals the pervasiveness and multi-faceted character of the movement in the nineteenth century, and explains its continuing legacy today.

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17

Price, Susanna, and Pascal Vranckx. Portable (short-term) mechanical circulatory support. Oxford University Press, 2015. http://dx.doi.org/10.1093/med/9780199687039.003.0030.

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Mechanical circulatory support can be used to resuscitate patients, as a stabilizing measure for angiography and prompt revascularization, or to buy time until more definite measures can be taken. In addition, there is experimental evidence that ventricular unloading of the left ventricle can significantly reduce the infarct size. Different systems for mechanical circulatory support are available to the medical community. Treatment options for mechanical circulatory support must be tailored to each patient in order to maximize the potential benefits and minimize the risk of detrimental effects. Intra-aortic balloon pumping is still the most widely used mechanical circulatory support therapy. The relative ease and speed with which this device can be applied to patients with a rapidly deteriorating haemodynamic picture have led to its widespread use as a first-line intervention among critically unstable patients. Where intra-aortic balloon pumping is inadequate, an immediate triage to a more advanced percutaneous (short-term) mechanical circulatory support may be warranted. Despite their extensive use, the utility of mechanical circulatory support devices in acute heart failure syndromes and cardiogenic shock remains uncertain. This chapter concentrates on the application of mechanical circulatory support relevant to the interventional cardiologist and cardiac intensive care physician.

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18

Price, Susanna, and Pascal Vranckx. Portable (short-term) mechanical circulatory support. Oxford University Press, 2016. http://dx.doi.org/10.1093/med/9780199687039.003.0030_update_001.

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Анотація:

Mechanical circulatory support can be used to resuscitate patients, as a stabilizing measure for angiography and prompt revascularization, or to buy time until more definite measures can be taken. In addition, there is experimental evidence that ventricular unloading of the left ventricle can significantly reduce the infarct size. Different systems for mechanical circulatory support are available to the medical community. Treatment options for mechanical circulatory support must be tailored to each patient in order to maximize the potential benefits and minimize the risk of detrimental effects. Intra-aortic balloon pumping is still the most widely used mechanical circulatory support therapy. The relative ease and speed with which this device can be applied to patients with a rapidly deteriorating haemodynamic picture have led to its widespread use as a first-line intervention among critically unstable patients. Where intra-aortic balloon pumping is inadequate, an immediate triage to a more advanced percutaneous (short-term) mechanical circulatory support may be warranted. Despite their extensive use, the utility of mechanical circulatory support devices in acute heart failure syndromes and cardiogenic shock remains uncertain. This chapter concentrates on the application of mechanical circulatory support relevant to the interventional cardiologist and cardiac intensive care physician.

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19

Price, Susanna, and Pascal Vranckx. Portable (short-term) mechanical circulatory support. Oxford University Press, 2018. http://dx.doi.org/10.1093/med/9780199687039.003.0030_update_002.

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Анотація:

Mechanical circulatory support can be used to resuscitate patients, as a stabilizing measure for angiography and prompt revascularization, or to buy time until more definite measures can be taken. In addition, there is experimental evidence that ventricular unloading of the left ventricle can significantly reduce the infarct size. Different systems for mechanical circulatory support are available to the medical community. Treatment options for mechanical circulatory support must be tailored to each patient in order to maximize the potential benefits and minimize the risk of detrimental effects. Intra-aortic balloon pumping is still the most widely used mechanical circulatory support therapy. The relative ease and speed with which this device can be applied to patients with a rapidly deteriorating haemodynamic picture have led to its widespread use as a first-line intervention among critically unstable patients. Where intra-aortic balloon pumping is inadequate, an immediate triage to a more advanced percutaneous (short-term) mechanical circulatory support may be warranted. Despite their extensive use, the utility of mechanical circulatory support devices in acute heart failure syndromes and cardiogenic shock remains uncertain. This chapter concentrates on the application of mechanical circulatory support relevant to the interventional cardiologist and cardiac intensive care physician.

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20

C, Costen Robert, and Langley Research Center, eds. Reduced dimer production in solar-simulator-pumped continuous wave iodine lasers based on model simulations and scaling and pumping studies. Hampton, Va: National Aeronautics and Space Administration, Langley Research Center, 1995.

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21

Archer-Parré, Caroline, and Malcolm Dick, eds. James Watt (1736-1819). Liverpool University Press, 2020. http://dx.doi.org/10.3828/liverpool/9781789620818.001.0001.

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James Watt (1736-1819) was a pivotal figure of the Enlightenment and Industrial Revolution. His career as a scientific instrument maker, inventor and engineer developed in Scotland, the land of birth. His prominence as a scientist, technologist and businessman was forged in the Birmingham area. His pumping and rotative steam engines represent the summit of technological achievement in the late-eighteenth and early-nineteenth centuries which led to future developments in locomotive and steamship design and mechanical engineering such as the steam hammer. This is the traditional picture of James Watt. After his death, his son, James Watt junior, projected his father’s image through commissioning sculptures, medals, paintings and biographies which celebrated his reputation as a ‘great man’ of industry and science. Though some academic appraisals have sought to move beyond the heroic image of Watt, there is still a tendency to focus on his steam technology. This collection of ten chapters breaks new ground by looking at Watt in new ways: by exploring his philosophical and intellectual background; the relevance of his Greenock environment; the influence of his wives, Peggy and Ann; Watt’s political fears and beliefs; his links with other scientists such as Thomas Beddoes, Davies Giddy, Humphry Davy, Joseph Black and James Keir; Watt and the business of natural philosophy; his workshop in the Science Museum and what it reveals; the myth or reality of his involvement with organ making and the potential of Birmingham’s Watt Papers for further exploration of his personality, family and domestic and business activities.

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22

Barnard, Matthew, and Nicola Jones. Intensive care management after cardiothoracic surgery. Oxford University Press, 2016. http://dx.doi.org/10.1093/med/9780199600830.003.0368.

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Management of the post-cardiothoracic surgical patient follows general principles of intensive care, but incorporates certain unique considerations. In cardiac surgical patients peri-operative ischaemia, arrhythmias and ventricular dysfunction mandate specific monitoring requirements, and individual pharmacological and mechanical support. Suspicion of myocardial ischaemia should not only lead to pharmacological treatment, but also consideration of urgent angiography to exclude coronary graft occlusion. Ventricular dysfunction may be pre-existing or attributable to intra-operative myocardial ‘stunning’. Catecholamines and phosphodiesterase inhibitors are the mainstay of therapy. Rarely, intra-aortic balloon pumping or ventricular assist devices are required. Significant bleeding (with potential cardiac tamponade), respiratory compromise, acute kidney injury, neurological injury, and deep sternal wound infection each occur in ~2–3% of cardiac surgical patients. Each of these has individual risk factors and specific management considerations. General guidelines for patients who have undergone thoracic surgery include early extubation, fluid restriction, effective analgesia, and protective lung ventilation. Thoracic patients are at risk of atelectasis, respiratory infection, bronchial air leak, and right ventricular failure. Positive pressure ventilation is avoided whenever possible particularly after pneumonectomy, but is sometimes necessary in compromised patients. Air leaks are common. Alveolopleural fistulae usually improve with conservative management,whereas bronchopleural fistulae are more likely to require surgical intervention. Lung surgery is high risk for patients with ischaemic heart disease. Patients with pre-existing elevated pulmonary vascular resistance may exhibit right ventricular dysfunction and may fail to cope with a further increase in pulmonary vascular resistance consequent to lung resection. Lung collapse and infection are constant risks throughout the entire post-operative period.

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23

United States. Dept. of the Army., ed. Operator, organizational, direct support, and general support maintenance manual: Pumping assembly, flammable liquid, bulk transfer, GED, 350 GPM capacity, 275 feet total head, wheel mounted (Gorman-Rupp model 04A12C-MVG4D), NSN 4320-00-600-7590. Washington, DC: Headquarters, Dept. of the Army, 1990.

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Книги з теми "Pumping mode"

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