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April 10, 2013 - May 13, 2026

Available Issues

April 10, 2013 - May 13, 2026

Decarbonizing OCP

Published Online:28 Dec 2023https://doi.org/10.1287/msom.2022.0467

References

  • Adrian T, Bolton P, Kleinnijenhuis AM (2022) The Great Carbon Arbitrage, vol. 2022 (International Monetary Fund, Washington, DC), 67.Google Scholar
  • Ahmed S, Sahinidis NV (2003) An approximation scheme for stochastic integer programs arising in capacity expansion. Oper. Res. 51(3):461–471.LinkGoogle Scholar
  • Ahmed S, King AJ, Parija G (2003) A multi-stage stochastic integer programming approach for capacity expansion under uncertainty. J. Global Optim. 26(1):3–24.CrossrefGoogle Scholar
  • Anderson E, Philpott A (2022) Improving sample average approximation using distributional robustness. INFORMS J. Optim. 4(1):90–124.LinkGoogle Scholar
  • Bandi C, Bertsimas D (2012) Tractable stochastic analysis in high dimensions via robust optimization. Math. Program. 134(1):23–70.CrossrefGoogle Scholar
  • Beale EM (1955) On minimizing a convex function subject to linear inequalities. J. Roy. Statist. Soc. B 17(2):173–184.CrossrefGoogle Scholar
  • Becker A, Benabderrazik K, Bertsimas D, Chtinna N, El Majdoub N, Mahboubi EM, Kitane DL, Kokkotos S, Mourtzinou G, Rakhis I (2022) Toward global food security: Transforming OCP through analytics. INFORMS J. Appl. Anal. 52(1):90–107.LinkGoogle Scholar
  • Ben-Tal A, Nemirovski A (1999) Robust solutions of uncertain linear programs. Oper. Res. Lett. 25(1):1–13.CrossrefGoogle Scholar
  • Ben-Tal A, El Ghaoui L, Nemirovski A (2009) Robust Optimization (Princeton University Press, Princeton, NJ).CrossrefGoogle Scholar
  • Bertsimas D, den Hertog D (2022) Robust and Adaptive Optimization (Dynamic Ideas, Charlestown, MA).Google Scholar
  • Bertsimas D, Sim M (2004) The price of robustness. Oper. Res. 52(1):35–53.LinkGoogle Scholar
  • Bertsimas D, Sim M (2006) Tractable approximations to robust conic optimization problems. Math. Program. 107(1):5–36.CrossrefGoogle Scholar
  • Bichet A, Hingray B, Evin G, Diedhiou A, Kebe CMF, Anquetin S (2019) Potential impact of climate change on solar resource in Africa for photovoltaic energy: Analyses from CORDEX-AFRICA climate experiments. Environ. Res. Lett. 14(12):124039.CrossrefGoogle Scholar
  • Birge JR, Louveaux F (2011) Introduction to Stochastic Programming (Springer Science & Business Media, New York).CrossrefGoogle Scholar
  • Boffino L, Conejo AJ, Sioshansi R, Oggioni G (2019) A two-stage stochastic optimization planning framework to decarbonize deeply electric power systems. Energy Econom. 84:104457.CrossrefGoogle Scholar
  • Dantzig GB (1955) Linear programming under uncertainty. Management Sci. 1(3–4):197–206.LinkGoogle Scholar
  • Davenport C, Gillis J, Chan S, Eddy M (2015) Inside the Paris climate deal. New York Times (December 12), https://www.nytimes.com/interactive/2015/12/12/world/paris-climate-change-deal-explainer.html.Google Scholar
  • Delage E, Ye Y (2010) Distributionally robust optimization under moment uncertainty with application to data-driven problems. Oper. Res. 58(3):595–612.LinkGoogle Scholar
  • Downward A, Philpott A, Baucke R (2020) Using multi-stage stochastic programming to investigate a 100% renewable New Zealand electricity sector. 7th IAEE 2020 Conf. Energy Transition (IAEE, Mount Royal, NJ).Google Scholar
  • du Maroc R (2021) Contribution déterminée au niveau national-actualisée. DCN-Maroc, Juin. Accessed August 1, 2022, https://eci.ma/guide-acces-finance-climat-2/.Google Scholar
  • Duque D, Morton DP (2020) Distributionally robust stochastic dual dynamic programming. SIAM J. Optim. 30(4):2841–2865.CrossrefGoogle Scholar
  • Ferris MC, Philpott A (2019) 100% renewable electricity with storage. Technical report, Electrical Power Optimization Center, University of Auckland, Auckland, New Zealand.Google Scholar
  • Ferris MC, Philpott A (2022) Dynamic risked equilibrium. Oper. Res. 70(3):1933–1952.LinkGoogle Scholar
  • Ferris MC, Philpott A (2023) Renewable electricity capacity planning with uncertainty at multiple scales. Comput. Management Sci. 20:41.CrossrefGoogle Scholar
  • Gacitua L, Gallegos P, Henriquez-Auba R, Lorca Á, Negrete-Pincetic M, Olivares D, Valenzuela A, Wenzel G (2018) A comprehensive review on expansion planning: Models and tools for energy policy analysis. Renewable Sustainable Energy Rev. 98:346–360.CrossrefGoogle Scholar
  • Geissler B, Hermann L, Mew MC, Steiner G (2018) Striving toward a circular economy for phosphorus: The role of phosphate rock mining. Minerals 8(9):395.CrossrefGoogle Scholar
  • Guo C, Bodur M, Papageorgiou DJ (2022) Generation expansion planning with revenue adequacy constraints. Comput. Oper. Res. 142:105736.CrossrefGoogle Scholar
  • Hammond J (2022) Morocco fertilizer firm invests in green initiatives. Forbes. Accessed March 10, 2023, https://www.forbes.com/sites/zengernews/2022/12/10/morocco-fertilizer-firm-invests-in-green-initiatives-including-effort-with-us-fund/?sh=7d03b3ff2157.Google Scholar
  • Hanasusanto GA, Kuhn D, Wiesemann W (2016) A comment on “Computational complexity of stochastic programming problems”. Math. Program. 159(1):557–569.CrossrefGoogle Scholar
  • Jerez S, Tobin I, Vautard R, Montávez JP, López-Romero JM, Thais F, Bartok B, et al. (2015) The impact of climate change on photovoltaic power generation in Europe. Nat. Commun. 6(1):10014.CrossrefGoogle Scholar
  • Kocuk B (2021) Conic reformulations for Kullback-Leibler divergence constrained distributionally robust optimization and applications. Internat. J. Optim. Control Theories Appl. 11(2):139–151.CrossrefGoogle Scholar
  • Liadze I, Macchiarelli C, Mortimer-Lee P, Juanino PS (2022) The economic costs of the Russia-Ukraine conflict. NIESR Policy Paper 32, National Institute of Economic and Social Research, London.Google Scholar
  • Masse P, Gibrat R (1957) Application of linear programming to investments in the electric power industry. Management Sci. 3(2):149–166.LinkGoogle Scholar
  • Moseley PT, Garche J (2014) Electrochemical Energy Storage for Renewable Sources and Grid Balancing (Newnes, Oxford, UK).Google Scholar
  • OCP Group (2020) OCP sustainability report 2020, OCP Group, Casablanca, Morocco.Google Scholar
  • Pereira MV, Pinto LM (1991) Multi-stage stochastic optimization applied to energy planning. Math. Program. 52(1):359–375.CrossrefGoogle Scholar
  • Rahimian H, Mehrotra S (2019) Distributionally robust optimization: A review. Preprint, submitted August 13, https://arxiv.org/abs/1908.05659.Google Scholar
  • Roos E, den Hertog D (2020) Reducing conservatism in robust optimization. INFORMS J. Comput. 32(4):1109–1127.AbstractGoogle Scholar
  • Rujeerapaiboon N, Schindler K, Kuhn D, Wiesemann W (2022) Scenario reduction revisited: Fundamental limits and guarantees. Math. Program. 191(1):207–242.CrossrefGoogle Scholar
  • Schmall E, Krauss C (2022) India chases clean energy, but economic goals put coal first. New York Times (December 7), https://www.nytimes.com/2022/12/07/business/energy-environment/india-energy-subsidies.html.Google Scholar
  • Serrano SA (2015) Algorithms for unsymmetric cone optimization and an implementation for problems with the exponential cone. Doctoral dissertation, Stanford University, Stanford, CA.Google Scholar
  • Shapiro A (2006) On complexity of multistage stochastic programs. Oper. Res. Lett. 34(1):1–8.CrossrefGoogle Scholar
  • Shapiro A, Dentcheva D, Ruszczynski A (2021) Lectures on Stochastic Programming: Modeling and Theory, 3rd ed. (Society for Industrial and Applied Mathematics, Philadelphia).CrossrefGoogle Scholar
  • Singh KJ, Philpott AB, Wood RK (2009) Dantzig-Wolfe decomposition for solving multistage stochastic capacity-planning problems. Oper. Res. 57(5):1271–1286.LinkGoogle Scholar
  • Soyster AL (1973) Convex programming with set-inclusive constraints and applications to inexact linear programming. Oper. Res. 21(5):1154–1157.LinkGoogle Scholar
  • Stewart W, Dibb D, Johnston A, Smyth T (2005) The contribution of commercial fertilizer nutrients to food production. Agronomy J. 97(1):1–6.CrossrefGoogle Scholar
  • Stoft S (2002) Power System Economics: Designing Markets for Electricity (Wiley-IEEE Press, Piscataway, NJ), 496.CrossrefGoogle Scholar
  • Tankersley J (2022) Biden signs expansive health, climate and tax law. New York Times (August 16), https://www.nytimes.com/2022/08/16/business/biden-climate-tax-inflation-reduction.html.Google Scholar
  • Teichgraeber H, Brandt AR (2019) Clustering methods to find representative periods for the optimization of energy systems: An initial framework and comparison. Appl. Energy 239:1283–1293.CrossrefGoogle Scholar
  • U.S. Geological Survey (2020) Mineral commodity summaries. Report, U.S. Geological Survey, Reston, VA.Google Scholar
  • Van Parys BP, Esfahani PM, Kuhn D (2021) From data to decisions: Distributionally robust optimization is optimal. Management Sci. 67(6):3387–3402.LinkGoogle Scholar
  • Wang I, Becker C, Van Parys B, Stellato B (2022) Mean robust optimization. Preprint, submitted July 21, https://arxiv.org/abs/2207.10820.Google Scholar
  • Wiesemann W, Kuhn D, Sim M (2014) Distributionally robust convex optimization. Oper. Res. 62(6):1358–1376.LinkGoogle Scholar
  • Zou J, Ahmed S, Sun XA (2018) Partially adaptive stochastic optimization for electric power generation expansion planning. INFORMS J. Comput. 30(2):388–401.LinkGoogle Scholar
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