01108nam a2200289 i 4500991001077919707536110224s2010 it b 000 0 ita db13957041-39ule_instFacoltà SSPTita306.3Il ciclo della merce :cambiamenti della produzione e del consumo /a cura di Vanni Codeluppi e Roberta PaltrinieriMilano :F. Angeli,2009, stampa 2010230 p. ;22 cmSociologia del lavoro ;116Con bibliografiaMerciProduzioneCambiamentoMerciConsumoConsumoAspetti socio-culturaliCodeluppi, Vanni,1958-Paltrinieri, RobertaSociologia del lavoro (Milano : 1978),0392-5048.b1395704102-04-1424-02-11991001077919707536LE021 306.30 COD01.0312020000031147le021pE18.00-n- 00000.i1526286804-05-11Ciclo della merce251687UNISALENTOle02024-02-11ma -itait 3001906nam 2200373 450 991013586990332120231207090207.00-7381-7233-2(CKB)3780000000090196(NjHacI)993780000000090196(EXLCZ)99378000000009019620231207d2012 uy 0engur|||||||||||txtrdacontentcrdamediacrrdacarrierIEEE Guide for Temperature Monitoring of Cable Systems /IEEENew York, N.Y. :IEEE,2012.1 online resource (ix, 35 pages) illustrationsIEEE Std ;1718-2012Includes bibliographical references.The various existing technologies that are used or can be used to monitor the temperature of cable systems are reviewed in this guide. The conventional technologies, like thermocouples and resistance temperature detectors (RTDs), and the more recent technologies, like the distributed temperature sensing known as DTS, are covered. The latter technology is treated in more detail in this guide because it constitutes the logical and obvious choice for advanced and more accurate cable temperature monitoring where the hot spots along the cable route can be easily identified. This guide can also be considered as the first step that a potential user should consult before dealing with the issue of real-time rating of cable systems.IEEE Std ;1718-2012.IEEE Std 1718-2012: IEEE Guide for Temperature Monitoring of Cable SystemsThermocouplesCalibrationThermocouplesCalibration.535.8NjHacINjHaclDOCUMENT9910135869903321IEEE Guide for Temperature Monitoring of Cable Systems3646254UNINA