Название | Electrical Safety Engineering of Renewable Energy Systems |
---|---|
Автор произведения | Rodolfo Araneo |
Жанр | Физика |
Серия | |
Издательство | Физика |
Год выпуска | 0 |
isbn | 9781119625018 |
8 8 Gordon, L.B., Cartelli, L., and Graham, N.(November 2018). A complete electrical shock hazard classification system and its application. IEEE Transactions on Industry Applications 54 (6): 6554–6565.
9 9 John Cadick, P.E., Mary Capelli-Schellpfeffer M.P.A., M.D., Neitzel, C.P.E.D.K., and Winfield, A.(2012). Electrical Safety Handbook, 4th ed. New York: McGraw-Hill Education.
10 10 Winfield, A., Capelli-Schellpfeffer, M., Neitzel, D., and Cadick, J.(2012). Electrical Safety Handbook, 4th ed. McGraw-Hill Professional.
11 11 Rachford, J.(2020). Explaining ventricular fibrillation in simple electrical terminology. 2020 IEEE IAS Electrical Safety Workshop (ESW), 1–3.
12 12 Freschi, F., Guerrisi, A., Tartaglia, M., and Mitolo, M.(2013). Numerical simulation of heart-current factors and electrical models of the human body. IEEE Transactions on Industry Applications 49 (5): 2290–2299.
13 13 Freschi, F.,and Mitolo, M.(2017). Currents passing through the human body: The numerical viewpoint. IEEE Transactions on Industry Applications 53 (2): 826–832.
14 14 De Santis, V., Beeckman, P.A., Lampasi, D.A., and Feliziani, M.(February 2011). Assessment of human body impedance for safety requirements against contact currents for frequencies up to 110 MHz. IEEE Transactions on Biomedical Engineering 58 (2): 390–396.
15 15 Jiang, H.,and Brazis, P.W.(2018). Experiments of DC human body resistance I: Equipment, setup, and contact materials. 2018 IEEE Symposium on Product Compliance Engineering (ISPCE), 1–6.
16 16 Boron, S., Heyduk, A., Joostberens, J., and Pielot, J.(2016). Empirical model of a human body resistance at a hand-to-hand DC flow. Elektron. Ir Elektrotechnika 22 (4): 26–31.
17 17 Lavrova, O., Quiroz, J.E., Flicker, J., and Gooding, R.(2017). Updated evaluation of shock hazards to firefighters working in proximity of PV systems. 2017 IEEE 44th Photovoltaic Specialist Conference (PVSC), 1280–1285.
18 18 Alam, M.K., Khan, F., Johnson, J., and Flicker, J.(2015). A comprehensive review of catastrophic faults in PV arrays: Types, detection, and mitigation techniques. IEEE Journal of Photovoltaics 5 (3): 982–997.
19 19 Qiu, L.,and Wang, C.(2011). Research on the relationship between skin burn and action time. Proceedings 2011 International Conference on Human Health and Biomedical Engineering, 1201–1203.
20 20 Yen, M., Colella, F., Kytomaa, H., Allin, B., and Ockfen, A.(2020). Contact burn injuries: Part I: The influence of object thermal mass. 2020 IEEE Symposium on Product Compliance Engineering - (SPCE Portland), 1–5.
21 21 Yen, M., Colella, F., Kytomaa, H., Allin, B., and Ockfen, A.(2020). Contact burn injuries: Part II: The influence of object shape, size, contact resistance, and applied heat flux. 2020 IEEE Symposium on Product Compliance Engineering - (SPCE Portland), 1–6.
22 22 He, J., Zeng, R., and Zhang, B.(2013). Fundamental concepts of grounding. In: Methodology and Technology for Power System Grounding, 1–26. IEEE, Wiley.
23 23 Mitolo, M. and Liu, H.(2016). Touch voltage analysis in low-voltage power systems studies. IEEE Transactions on Industry Applications 52 (1): 556–559.
24 24 Laukamp, H. and Bopp, G.(July 1996). Residential PV systems—electrical safety issues and installation guidelines. Progress in Photovoltaics: Research and Applications 4 (4): 307–314.
25 25 Hernández, J.C. and Vidal, P.G.(2009). Guidelines for protection against electric shock in PV generators. IEEE Transactions on Energy Conversion 24 (1): 274–282.
26 26 Kontargyri, V.T., Gonos, I.F., and Stathopulos, I.A.(November 2015). Study on wind farm grounding system. IEEE Transactions on Industry Applications 51 (6): 4969–4977.
27 27 Karegar, H.K. and Arabi, M.(2010). New wind turbine grounding system to reduce step touch voltage. 2010 IEEE International Conference on Power and Energy, 168–171.
28 28 Colella, P., Pons, E., and Tommasini, R.(2017). Dangerous touch voltages in buildings: The impact of extraneous conductive parts in risk mitigation. Electric Power Systems Research 147: 263–271.
29 29 Mauromicale, G., Raciti, A., Rizzo, S.A., Susinni, G., Parise, G., and Parise, L.(2019). E-mobility: Safety, service continuity and penetration of charging systems. 2019 AEIT International Conference of Electrical and Electronic Technologies for Automotive (AEIT AUTOMOTIVE), 1–6.
30 30 Mitolo, M. and Bajzek, T.J.(2018). Measuring the electrical safety in low-voltage distribution systems. 2018 IEEE/IAS 54th Industrial and Commercial Power Systems Technical Conference (I CPS), 1–4.
31 31 Kosztaluk, R., Dinkar Mukhedka, R., and Gervais, Y.(November 1984). Field measurements of touch and step voltages. IEEE Transactions on Power Systems PAS-103 (11): 3286–3294.
32 32 Meliopoulos, A.P.S., Patel, S., and Cokkinides, G.J.(1994). A new method and instrument for touch and step voltage measurements. IEEE Transactions on Power Delivery 9 (4): 1850–1860.
33 33 Wohlgemuth, J.H. and Kurtz, S.R.(2012). How can we make PV modules safer?. 2012 38th IEEE Photovoltaic Specialists Conference, 3162–3165.
Notes
1 1 The system voltage of PV arrays is defined as 1.25VOC, where VOC is the open-circuit voltage of the array.
2 2 (International Electrotechnical Commission) IEC/TS 60479-1: “Effects of Current on Human Beings and Livestock - Part 1: General Aspects”.
3 3. National Institute for Occupational Safety and Health. Publication 98-131: “Worker Deaths by Electrocution - A Summary of NIOSH Surveillance and Investigative Findings”.
4 4. Henriques, F.C. and Moritz, A.R. (Sep. 1947). Studies of Thermal Injury II. The Relative Importance of Time and Surface Temperature in the Causation of Cutaneous Burns. The American Journal of Pathology 23 (5): 695–720.
5 5. NELEC Guide 29: “Temperatures of hot surfaces likely to be touched. Guidance document for Technical Committees and manufacturers”. Ed. 1, 04-2007.