Exemplu <strong>de</strong> utilizare a simbolurilor grafice NTMC ___________________________________________________________________________ pag. 144
NORME TEHNICE SPECIFICE SNT MENTENANŢA CONDUCTELOR DE TRANSPORT GAZE NATURALE – NTMC ANEXA 28 Lista bibliografiei utilizate la elaborarea normelor tehnice 1. Adams N.J.I., Characterization of fracture in vessels and piping, Transaction of the ASME, feb., 1977, p. 144...148 2. Ahammed, M., Prediction of remaining strength of corro<strong>de</strong>d pressurised pipelines, Int. J. Pres. Ves. & Piping, 71, 1997, p.213-217 3. Ainsworth R. A., Failure assessement diagrams for use in R6 assessement for austenitic components, Int. J. Pres. Ves. & Piping, vol. 65, 1996, p. 303-309 4. Ainsworth, R.A., Ruggles, M.B., and Takahashi, Y., Flaw Assessment Procedure for High-Temperature Reactor Components, Journal of Pressure Vessel Technology, Vol. 114, American Society of Mechanical Engineers, New York, May, 1992, p. 166-170 5. Al-Ansary M. D., Tearing modulus solution for pipes with long internal axial part-trough crack, Int. J. Pres. Ves. & Piping, vol. 72, 1997, p. 97-102 6. Alexan<strong>de</strong>r C.R., Review of Experimental and Analytical Investigations of Dented Pipelines, Operations, Applications and Components, PVP-Vol 395, ASME, 1995, p.197–205 7. Antonescu N.N., Ulmanu V., Fabricarea, repararea şi întreţinerea utilajului chimic şi petrochimic, Editura Didactică şi Pedagogică, Bucureşti, 1981 8. Amirat A., Mohamed-Chateauneuf A., Chaoui K., Reliability assessment of un<strong>de</strong>rground pipelines un<strong>de</strong>r the combined effect of active corrosion and residual stress, Int. J. of Pressure Vessels and Piping, 83 (2006), p. 107–117 9. An<strong>de</strong>rson J.R., Natural gas infrastructure reliability, Strategic Center for Natural Gas, Oklahoma, Program overview September 2002 10. Aronson A.H., Kochynsky M., Mihelich J.L., Improvements in electric resistance wel<strong>de</strong>d, X60 line pipe technology, Welding Research Supplement, November, 1969, p.473-478 11. Aynbin<strong>de</strong>r A., s.a., FSU pipeline <strong>de</strong>sign co<strong>de</strong> compared to U.S. co<strong>de</strong>s, Oil &Gas Journal, Mar.7, 1994, p. 67 -70 12. Azevedo C.R.F., Sinatora A., Failure analysis of a gas pipeline, Engineering Failure Analysis, 11 (2004), p. 387-400 13. Babcock, S. M., R. L. Glassell, and B. E. Lewis, Functions and requirements for the Gunite and Associated Tanks Pipe Plugging System, Oak Ridge, 1997, Tenn. Oak Ridge National Laboratory 14. Bachut J., Iflefel I.B., Collapse of pipes with plain or gouged <strong>de</strong>nts by bending moment, Int. J. of Pressure Vessels and Piping 84 (2007) 560–571 15. Baek J., ş.a., Comparative study for various repair methods of in-service pipeline using full scale burst test, 23 rd World Gas Conference, Amsterdam, 2006 16. Bejan V., Tehnologia fabricării şi a reparării utilajelor tehnologice, vol.I şi II, OID – ICM, Bucureşti, 1991 NTMC ___________________________________________________________________________ pag. 145
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1.3. Documentele de referinţă ale
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coordonării şi realizării tuturo
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asigură de către DE prin utilizar
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e) Nivelul şi caracterul probabil
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speciale (construcţii amplasate î
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mare potenţial de a determina inci
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4.2. Categoriile de intervenţii al
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e) au fost supuse recent la proba d
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manşoanelor folosite la reparare,
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c) operaţiile de măsurare a grosi
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4.6. Normarea lucrărilor de menten
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. Toate robinetele/vanele şi eleme
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c) Se proiectează tehnologia pentr
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4.11. Norme privind protecţia medi
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37) EN ISO 6520-1, Welding and alli
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11) Alungire procentuală după rup
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35) Cedare: termen general utilizat
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acţiunea chimică sau electrochimi
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84) Echipament de protecţie la sup
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113) Gâtuire la rupere: v. Coefici
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138) Limită de curgere: tensiunea
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care este realizat un element de co
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unei conducte, pentru a se confirma
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care alimentează un sistem de dist
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240) Sistem de management al calit
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272) Transport al gazelor naturale:
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CODUL PROCEDURII PROPRIETARUL DE PR
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2.1. Zonele pe traseul tronsonului:
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8. MONITORIZAREA SI VERIFICAREA INT
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DATE PRIVIND VERIFICAREA SAU INSPEC
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3. CARACTERISTICILE DE MONTARE A RO
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Fişa tehnică a traversării aerie
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4.5. Schiţa constructivă a traver
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Nr. crt. Data evenimentului Categor
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Clasificarea şi codificarea anomal
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4. Codificarea alfanumerică a anom
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Clasa de siguranţă / securitate s
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2. Situaţia elementelor componente
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4. Rezultatele inspecţiei Tronsonu
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