PCaPAC2012 - List of Keywords (solenoid)

Paper	Title	Other Keywords	Page
WEPD18	Microcontroller Based DAQ System for IR Thermography by Hot and Cold Water Flow	LabView, controls, plasma	37
	M.S. Khan, S.M. Belsare, K.D. Galodiya, S.S. Khirwadkar, T.H. Patel IPR, Bhat, Gandhinagar, India
	There are many Non Destructive Technique used in science and industry to evaluate the properties of a material, component or system without causing damage Infrared Thermography is one of them. Different types of IR thermo-graphy are used for different purpose. We are using hot and cold-water flow IR Thermography method to evaluate the Performance of Plasma Facing Components (PFC) for Divertor Mock-up. The Set-up is designed in such a way that hot and Called Water can flow in both direction inside mockup, like left to right and right to Left using electric motor. Eight numbers of Solenoid Valves have been used for selection of Water Flow Direction, thermo-couples for temperature measurement of water, IR camera to take the images and many others devices. Which needs a very good and versatile DAC system. We have developed a DAC system usingμcontroller and LabView for the acquisition of various parameters and controlling & synchronization of other system. Development of DAC is described in this paper
	Poster WEPD18 [0.466 MB]

THPD36	An Embedded System Based Computer Controlled Process Automation for Recovery and Purification of ^99mTc from (n, γ)⁹⁹Mo	extraction, GUI, status, cyclotron	211
	A. De, P. Bhaskar, A. Dutta Roy, M. Garai, V.K. Khare, S. Kumari, S.S. Pal, S. Saha, S.K. Thakur VECC, Kolkata, India L. Barua, S. Chattopadhyay, M.K. Das, U. Kumar, S. Saha Das BRIT, Bidhan Nagar, India
	⁹⁹Mo produced ^99mTc (t1/2=6hr, 140keV γ-ray) is the most useful radioisotope for nuclear diagnostics. High specific activity ⁹⁹Mo is supplied globally mainly by five old reactors whose routine or unscheduled maintenance shutdown causes supply irregularities that adversely affects patient management in nuclear medicine centres. ^99mTc may also be produced via ⁹⁸Mo(n,γ) in a natural MoO₃ target in reactor or by ¹⁰⁰Mo(n,2n)⁹⁹Mo or ¹⁰⁰Mo(p,2n)^99mTc reaction in cyclotron. To meet the crisis proposals are there to produce ⁹⁹Mo by ¹⁰⁰Mo(n,2n)⁹⁹Mo or ^99mTc directly by ¹⁰⁰Mo(p,2n)^99mTc in a cyclotron. Of the several separation methods of ^99mTc from molybdenum, the most common are adsorption column chromatography, sublimation and liquid-liquid solvent extraction. The conventional methods besides being cumbersome are often hazardous, polluting, require skilled manpower and facilities like fume hood and so are not always practically feasible for hospitals. To address these, VECC and BRIT, Kolkata have collaborated to develop an embedded system based automated ⁹⁹Mo/^99mTc generator from low specific activity ⁹⁹Mo using solvent extraction technique, supervised by a PC based GUI.
	Poster THPD36 [0.428 MB]

Paper

Title

Other Keywords

Page

WEPD18

Microcontroller Based DAQ System for IR Thermography by Hot and Cold Water Flow

LabView, controls, plasma

37

M.S. Khan, S.M. Belsare, K.D. Galodiya, S.S. Khirwadkar, T.H. Patel
IPR, Bhat, Gandhinagar, India

There are many Non Destructive Technique used in science and industry to evaluate the properties of a material, component or system without causing damage Infrared Thermography is one of them. Different types of IR thermo-graphy are used for different purpose. We are using hot and cold-water flow IR Thermography method to evaluate the Performance of Plasma Facing Components (PFC) for Divertor Mock-up. The Set-up is designed in such a way that hot and Called Water can flow in both direction inside mockup, like left to right and right to Left using electric motor. Eight numbers of Solenoid Valves have been used for selection of Water Flow Direction, thermo-couples for temperature measurement of water, IR camera to take the images and many others devices. Which needs a very good and versatile DAC system. We have developed a DAC system usingμcontroller and LabView for the acquisition of various parameters and controlling & synchronization of other system. Development of DAC is described in this paper

Poster WEPD18 [0.466 MB]

THPD36

An Embedded System Based Computer Controlled Process Automation for Recovery and Purification of ^99mTc from (n, γ)⁹⁹Mo

extraction, GUI, status, cyclotron

211

A. De, P. Bhaskar, A. Dutta Roy, M. Garai, V.K. Khare, S. Kumari, S.S. Pal, S. Saha, S.K. Thakur
VECC, Kolkata, India
L. Barua, S. Chattopadhyay, M.K. Das, U. Kumar, S. Saha Das
BRIT, Bidhan Nagar, India

⁹⁹Mo produced ^99mTc (t1/2=6hr, 140keV γ-ray) is the most useful radioisotope for nuclear diagnostics. High specific activity ⁹⁹Mo is supplied globally mainly by five old reactors whose routine or unscheduled maintenance shutdown causes supply irregularities that adversely affects patient management in nuclear medicine centres. ^99mTc may also be produced via ⁹⁸Mo(n,γ) in a natural MoO₃ target in reactor or by ¹⁰⁰Mo(n,2n)⁹⁹Mo or ¹⁰⁰Mo(p,2n)^99mTc reaction in cyclotron. To meet the crisis proposals are there to produce ⁹⁹Mo by ¹⁰⁰Mo(n,2n)⁹⁹Mo or ^99mTc directly by ¹⁰⁰Mo(p,2n)^99mTc in a cyclotron. Of the several separation methods of ^99mTc from molybdenum, the most common are adsorption column chromatography, sublimation and liquid-liquid solvent extraction. The conventional methods besides being cumbersome are often hazardous, polluting, require skilled manpower and facilities like fume hood and so are not always practically feasible for hospitals. To address these, VECC and BRIT, Kolkata have collaborated to develop an embedded system based automated ⁹⁹Mo/^99mTc generator from low specific activity ⁹⁹Mo using solvent extraction technique, supervised by a PC based GUI.

Poster THPD36 [0.428 MB]