code | ABSTRACT
includes links to Full-Text and Options | PETROCHEMICAL INDUSTRY | FULL-TEXT
and Options |
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4 |
SAMPLING AND RISK ASSESSMENT METHOD FOR METALLURGICAL INSPECTION OF PIPES AND TANKS | Myriam Brochu, Indian Oil Corporation Limited, India | 577
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26 |
USING THE MAGNETIC FLUX LEAKAGE TECHINIQUE TO DETECT MECHANICAL DAMAGE IN PIPELINES | Lynann Clapham, Queen's University, Canada | 1747
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67 |
DEVELOPMENT OF ULTRASONIC WAVE NONDESTRUCTIVE INSPECTION ROBOT WITHOUT COUPLING MEDIUM USING EMAT | Riichi Murayama, Fukuoka Institute Of Technology, Japan | 270
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83 |
AUTOMATED ULTRASONIC INSPECTION OF PRESSURE VESSEL WELDS | Michael Moles, R/D Tech, Canada | |
85 |
PIPELINE GIRTH WELD INSPECTIONS USING ULTRASONIC PHASED ARRAYS | Michael Moles, R/D Tech, Canada | 684
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87 |
PETROBRAS'S ACOUSTIC EMISSION DATABASE -ANALYSIS AND OBTAINED RESULTS | Sergio Damasceno Soares, Petrobras R&d Center, Brazil | 296
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111 |
DETECTION OF CORROSION ATTACK ON SHIPS, ESPECIALLY OIL TANKERS WITH ACOUSTIC EMISSION (AE) | Peter Tscheliesnig, TÜV Austria, Austria | 533
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118 |
AUTOMATED UT (AUT) CAN MINIMIZE OR ELIMINATE INTERNAL VESSEL INSPECTIONS | David Bajula, Longview Inspection, United States | |
130 |
STRESS DIAGNOSIS METHOD BASED ON THE SECTION FLATNESS OF A BENT PIPE | Iimura Shoichi, Tokyo Gas Co.,ltd., Japan | 308
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144 |
TEN YEARS OF EXPERIENCE OF STRESS-CORROSION AND OTHER PIPELINES’ SURFACE FLAWS TESTING BY MEANS OF EDDY CURRENT TECHNIQUE | Vladimir Muzhitskiy, Jsc "spectrum" - Rii", Russia | 93
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169 |
INTENSELY SPONTANEOUS MAGNETIZATION OF A DRILL STEM FOR OIL AND GAS FIELD | Ya Qing Zhu, Nanjing Gas Turbine Research Institute, China | 218
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174 |
DETERMINATION OF NECESSARY AND SUFFICIENT NUMBER OF SENSORS IN CASE OF PIPELINES WALLS’ STRESS-CORROSION TESTING BY MAGNETIC FIELD LEAKAGE TECHNIQUE | Irena Pushkina, Oao "avtogaz", Russia | 607
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185 |
CRAWLER CONTROL PROCEDURE | Irena Pushkina, JSC "Spectrum" - RII', Russia | 80
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200 |
A NEW TECHNIQUE OF ACOUSTIC EMISSION PIPELINE LEAK LOCATION BASED ON MODAL ANALYSIS | Jingpin Jiao, Beijing University Of Technology, China | |
208 |
TIME OF FLIGHT DIFFRACTION (TOFD), AN ADVANCED NON-DESTRUCTIVE TESTING TECHNIQUE FOR INSPECTION OF WELDS FOR HEAVY WALLED PRESSURE VESSELS | Raman Murugaiyan, Kochi Refineries Ltd (krl), India | 277
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274 |
CORROSION EVALUATION OF PIPES BY RADIOGRAPHY | Nasser Rastkhah, Atomic Energy Organization Of Iran, Iran | 374
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286 |
PHASED ARRAY TECHNOLOGY FOR AUTOMATED PIPELINE INSPECTION | Juergen Bosch, PII Pipetronix GmbH, Germany | 534
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382 |
ULTRASONIC INSPECTINO OF PIPELINE SPLIT-TEES | Frits Dijkstra, Rtd Bv, Netherlands | 552
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420 |
ULTRASONIC IN-LINE INSPECTION: HIGH RESOLUTION CRACK DETECTION FOR PIPELINES USING A NEW GENERATION OF TOOLS | Alfred Barbian, Ndt Systems & Services Ag, Germany | 425
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456 |
TANK INSPECTION AND CERTIFICATION UNDER THE GUIDELINES OF API 653 “TANK INSPECTION, REPAIR, ALTERATION AND RECONSTRUCTION” | Jeremy Wolfe, Canspec Group Inc., Canada | |
501 |
AUTOMATED OFF-SHORE STUDLESS CHAIN INSPECTION SYSTEM | Ernesto Garcia Ares, Interlab, Ingenieria Electronica, Sa, Spain | 565
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511 |
CONTINUOUS MONITORING GUIDED WAVE ENCODED SENSOR FOR FLOOD DETECTION OF OIL RIGS CROSS BEAMS | Rito Mijarez, University Of Manchester Umist, United Kingdom | 681
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556 |
OVERVIEW OF CURRENT AND FUTURE STORAGE TANK NDT APPROACHES | Diego Florez, Tecnitest Ingenieros, Spain | |
604 |
A NOVEL ELECTRICAL POTENTIAL DROP METHOD FOR THE DETECTION OF NAPTHANIC ACID CORROSION IN OIL REFINING PROCESSING | Thomas Batzinger, General Electric Global Research, United States | 418
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IMPROVEMENTS OF THE APPLICATION OF EMAT TECHNOLOGY | John D. McMillan | |
830 |
NEW TECHNIQUE AND TECHNOLOGY OF AN INSPECTION OF RIVER PIPELINE CROSSING OF PIPELINES | Fanzil Mugallimov | |