RUPAC2012 - List of Keywords (monitoring)

Paper	Title	Other Keywords	Page
FRBCH05	Application of Small-Sized Vacuum Accelerating Tubes for Neutron Control of Increasing Debit of Oil Wells by Acoustic Influence of the Formation	neutron, controls, damping, background	233
	D.R. Khasaya, B.Y. Bogdanovich, A.V. Ilyinsky, A. Nesterovich, A.E. Shikanov, E.A. Shikanov MEPhI, Moscow, Russia
	The report presents experimental studies results of the possibility using the technique of neutron "labeled" reagent (NaCl) for monitoring of the acoustic influence (AI) results in the oil reservoir to increase oil production debits. These obtained data allow us to estimate the effectiveness of acoustic influence the method on managed oil reservoirs in conjunction with the equipment which pulsed neutron-neutron ray logging based on vacuum accelerator tubes that implements the method of neutron "labeled" reagent. The proposed instrumental set ensures reliable process control stimulation of oil from the reservoir and the allocation of layers to abnormal filtration and capacitive properties and their subsequent development.

WEPPC059	Electron Beam Image Visual Monitoring	electron, target, linac, gun	563
	V.N. Boriskin, I.A. Chertishchev, N.G. Reshetnyak, K. Romanovsky, V.A. Shevchenko, I.N. Shlyakhov, A.Eh. Tenishev, V.L. Uvarov, V. Zakutin NSC/KIPT, Kharkov, Ukraine
	The system for visual monitoring of the electron beam features was developed and implemented. This system is based on registration of optical radiation, which is generated under object-beam interaction. The system comprises image transferring channel, remote-controlled digital photo-camera, connected with PC by USB-interface as well as proper software. The images obtained give information on the beam density distribution over the surface of the object being irradiated. 100 KeV and 10 MeV electron beams was researched.

WEPPD024	The Quench Detection System for Superconducting Elements of Nuclotron Acceleration Complex	dipole, controls, quadrupole, power-supply	605
	A.O. Sidorin, E.V. Ivanov, G.V. Trubnikov JINR, Dubna, Moscow Region, Russia
	The system provides highly effective detection of quenches in superconducting elements of Nuclotron. Full information about quench element is transmitted to control room. Diagram of analogue quench signal could be displayed on screen for further analysis. The system performs scheduled self-test diagnostics in real time and controls power elements of energy evacuation.

WEPPD042	Vacuum Automatic Control System (ACS) for NICA Project	vacuum, controls, ion, heavy-ion	635
	R.V. Pivin, A.R. Galimov, H.G. Khodzhibagiyan, A.V. Smirnov JINR, Dubna, Moscow Region, Russia A.M. Bazanov, A.V. Butenko, A. Nesterov, G.V. Trubnikov JINR/VBLHEP, Dubna, Moscow region, Russia P. Hedbavny Pfeiffer Vacuum GmbH, Asslar, Germany
	Development of the automatic control vacuum system (ACVS) for NICA project was beginning. The first step of this work was Nuclotron vacuum system modernization. It were installed new vacuum pumps and gauges with RS-232, RS-485 and ProfiBus interfaces. Devices were combined to the net with central controller at Linac control room. The result of the modernization was creation of remote control, monitoring and automatic protective system. Next step of ACVS creation will be Linac vacuum system automatization. Experience of the Nuclotron vacuum system modernization will be applied for NICA ACVS development.

WEPPD045	Optimization of the Detector Geometry and Data Processing Algorithms for FAIR CR BPMs	simulation, antiproton, injection, impedance	644
	A.Y. Orlov, S.V. Barabin, T. Kulevoy, D.A. Liakin ITEP, Moscow, Russia
	A beam diagnostic is an important part of all FAIR accelerators and storage rings. A small flux of antiprotons in the collector ring CR (10⁸ particles in a store ring) as well as dominated at first turns p-meson component of a beam require careful design for all elements of the beam position monitoring system. To increase a BPM resolution and sensitivity we propose a compact multi-electrode design of the position detector, matched low-noise electronics in connection with dedicated enhanced digital data processing algorithms. Here we present a comprehensive set of aspects of a preliminary design of the BPM system for FAIR CR.

Paper

Title

Other Keywords

Page

Application of Small-Sized Vacuum Accelerating Tubes for Neutron Control of Increasing Debit of Oil Wells by Acoustic Influence of the Formation

neutron, controls, damping, background

233

D.R. Khasaya, B.Y. Bogdanovich, A.V. Ilyinsky, A. Nesterovich, A.E. Shikanov, E.A. Shikanov
MEPhI, Moscow, Russia

The report presents experimental studies results of the possibility using the technique of neutron "labeled" reagent (NaCl) for monitoring of the acoustic influence (AI) results in the oil reservoir to increase oil production debits. These obtained data allow us to estimate the effectiveness of acoustic influence the method on managed oil reservoirs in conjunction with the equipment which pulsed neutron-neutron ray logging based on vacuum accelerator tubes that implements the method of neutron "labeled" reagent. The proposed instrumental set ensures reliable process control stimulation of oil from the reservoir and the allocation of layers to abnormal filtration and capacitive properties and their subsequent development.

WEPPC059

Electron Beam Image Visual Monitoring

electron, target, linac, gun

563

V.N. Boriskin, I.A. Chertishchev, N.G. Reshetnyak, K. Romanovsky, V.A. Shevchenko, I.N. Shlyakhov, A.Eh. Tenishev, V.L. Uvarov, V. Zakutin
NSC/KIPT, Kharkov, Ukraine

The system for visual monitoring of the electron beam features was developed and implemented. This system is based on registration of optical radiation, which is generated under object-beam interaction. The system comprises image transferring channel, remote-controlled digital photo-camera, connected with PC by USB-interface as well as proper software. The images obtained give information on the beam density distribution over the surface of the object being irradiated. 100 KeV and 10 MeV electron beams was researched.

WEPPD024

The Quench Detection System for Superconducting Elements of Nuclotron Acceleration Complex

dipole, controls, quadrupole, power-supply

605

A.O. Sidorin, E.V. Ivanov, G.V. Trubnikov
JINR, Dubna, Moscow Region, Russia

The system provides highly effective detection of quenches in superconducting elements of Nuclotron. Full information about quench element is transmitted to control room. Diagram of analogue quench signal could be displayed on screen for further analysis. The system performs scheduled self-test diagnostics in real time and controls power elements of energy evacuation.

WEPPD042

Vacuum Automatic Control System (ACS) for NICA Project

vacuum, controls, ion, heavy-ion

635

R.V. Pivin, A.R. Galimov, H.G. Khodzhibagiyan, A.V. Smirnov
JINR, Dubna, Moscow Region, Russia
A.M. Bazanov, A.V. Butenko, A. Nesterov, G.V. Trubnikov
JINR/VBLHEP, Dubna, Moscow region, Russia
P. Hedbavny
Pfeiffer Vacuum GmbH, Asslar, Germany

Development of the automatic control vacuum system (ACVS) for NICA project was beginning. The first step of this work was Nuclotron vacuum system modernization. It were installed new vacuum pumps and gauges with RS-232, RS-485 and ProfiBus interfaces. Devices were combined to the net with central controller at Linac control room. The result of the modernization was creation of remote control, monitoring and automatic protective system. Next step of ACVS creation will be Linac vacuum system automatization. Experience of the Nuclotron vacuum system modernization will be applied for NICA ACVS development.

WEPPD045

Optimization of the Detector Geometry and Data Processing Algorithms for FAIR CR BPMs

simulation, antiproton, injection, impedance

644

A.Y. Orlov, S.V. Barabin, T. Kulevoy, D.A. Liakin
ITEP, Moscow, Russia

A beam diagnostic is an important part of all FAIR accelerators and storage rings. A small flux of antiprotons in the collector ring CR (10⁸ particles in a store ring) as well as dominated at first turns p-meson component of a beam require careful design for all elements of the beam position monitoring system. To increase a BPM resolution and sensitivity we propose a compact multi-electrode design of the position detector, matched low-noise electronics in connection with dedicated enhanced digital data processing algorithms. Here we present a comprehensive set of aspects of a preliminary design of the BPM system for FAIR CR.