Roberto Revetria, Guido Guizzi, and Pietro Giribone


  1. [1] D.H. Meadows, D.L. Meadows, J. Randers, and W.W. Behrens III, The limits to growth (New York, NY: Universe Books, 1972).
  2. [2] D.H. Meadows, D.L. Meadows, and J. Randers, Beyond the limits: global collapse or a sustainable future (New York, NY: Earthscan, 1992).
  3. [3] D.H. Meadows, D.L. Meadows, and J. Randers, Limits to growth: the 30-year update (New York, NY: Earthscan, 2004).
  4. [4] L. Barillari, I. Bendato, A. Bonfiglio, S. Bracco, M. Brignone, F. Delfino, F. Pampararo, R. Procopio, M. Robba, and M. Rossi, Day ahead microgrid optimization: a comparison among different models, Proc. OPT-i Int. Conf. on Engineering and Applied Sciences Optimization, Kos Island, Greece, 4–6 June 2014.
  5. [5]
  6. [6] explorer/files/pdf/Eventi/Osservatorio%20Rinnovabili/2014/ SER_14.pdf.
  7. [7]
  8. [8] P. Peerapong and B. Limmeechokchai, Investment incentive of grid connected solar photovoltaic power plant under proposed feed-in tariffs framework in Thailand, Energy Proc, 52, 2014, 179–189.
  9. [9] F. Spertino, P. DiLeo, and V. Cocina, Economic analysis of investment in the rooftop photovoltaic systems: along-term research in the two main markets. Renewable and Sustainable Energy Reviews, 28, 2013, 531–540.
  10. [10] T.J. Hammons, Integrating renewable electricity production in some European countries into the grids, International Journal of Power and Energy Systems, 30, 2010, 3957–3967.
  11. [11] T.J. Hammons, Status of African and middle-east renewable energy projects: infrastructure, developments and cross-border, International Journal of Power and Energy Systems, 30, 2010, 4320–4334.
  12. [12] T.A. Kozman, J. Lee, G. Wang, and W.J. Emblom, Plant energy operating expenses using non-traditional fuels for CHP systems, International Journal of Power and Energy Systems, 29, 2010, 144–149.
  13. [13] dossier_work170506.pdf.
  14. [14] I. Bendato, L. Cassettari, M. Mosca, and R. Mosca, A design of experiments/response surface methodology approach to study the economic sustainability of a 1 MWe photovoltaic plant, Renewable and Sustainable Energy Reviews, 51, 2015, 1664–1679.
  15. [15] S. Evans and P. Taticchi, Industrial sustainability: challenges, perspectives, actions, International Journal of Business Innovation and Research, 7(2), 2013, 143–163.
  16. [16] I. Bendato, L. Cassettari, M. Mosca, and R. Mosca, New markets forecast and dynamic production redesign through stochastic simulation, International Journal of Simulation Modelling, 14(3), 2015, 485–498.
  17. [17] I. Bendato, L. Cassettari, F. Rolando, and R. Mosca, Improving the efficiency of a hospital ED according to lean management principles through system dynamics and discrete event simulation combined with quantitative methods, Proc. Somet–Int. Conf. on Intelligent Software Methodologies, Tools and Techniques, September 2015.
  18. [18] L. Oakshott, Business modelling and simulation (London:Pitman Publishing, 1997).
  19. [19] P. Glasserman, Monte Carlo methods in financial engineering (New York, NY: Springer, 2004).
  20. [20] C. Wu, R. Buyya, Real option theory and Monte Carlo simulation, in C. Wu and R. Buyya (eds.), A complete guide to planning, designing and building a cloud data center (Amsterdam: Elsevier, 2015), 707–772.
  21. [21] I. Bendato, L. Cassettari, P.G. Giribone, and R. Mosca, Monte Carlo method for pricing complex financial derivatives: an innovative approach to the control of convergence, Applied Mathematical Sciences, 9(124), 2015, 6167–6188.
  22. [22] G. Mavrotasa, O. Pechaka, E. Siskosb, H. Doukasb, and J. Psarrasb, Robustness analysis in multi-objective mathematical programming using Monte Carlo simulation, European Journal of Operational Research, 240(1), 2015, 193–201.
  23. [23] I. Bendato, L. Cassettari, F. Rolando, M. Mosca, and R. Mosca, Stochastic techno-economic assessment based on a Monte Carlo simulation and the response surface methodology: the case of an innovative linear Fresnel CSP system, Energy, in press.

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