Herr

Simón Andrés Moreno Leiva

Doktorand
Institut für Wasser- und Umweltsystemmodellierung (LS3/SimTech)

Kontakt

+49-711-685 60119

Visitenkarte (VCF)

Pfaffenwaldring 5a
D-70569 Stuttgart
Raum: 2.01

  1. 2020 (accepted)

    1. Haas J, Mahmoud M, Yeligeti M, Moreno-Leiva S, Nowak W, Palma-Behnke R. Adaptive Planning: Finding Optimal Energy Pathways In Times Of Deep Uncertainty. In Düsseldorf, Germany: International Renewable Energy Storage (IRES) Conference; 2020.
    2. Moreno-Leiva S, Haas J, Nowak W, Junne T. Flexible energy systems for planning the world’s main copper mines considering geographical conditions. In Vienna, Austria: European Geophysical Union (EGU), General Assembly 2020; 2020.
  2. 2020

    1. Moreno-Leiva S, Haas J, Junne T, Valencia F, Godin H, Kracht W, et al. Renewable energy in copper production: a review on systems design and methodological approaches. Journal of Cleaner Production. 2020;246(118978).
    2. Haas J, Moreno-Leiva S, Junne T, Chen P-J, Pamparana G, Nowak W, et al. Copper mining: 100% solar electricity by 2030? Applied Energy [Internet]. 2020;262(114506). Available from: https://www.sciencedirect.com/science/article/pii/S0306261920300180
  3. 2019 (accepted)

    1. Vera-Hofmann G, Haas J, Moreno-Leiva S, Díaz F, Eltrop L. How to plan a full-renewable multi-vector energy system to be resilient? Vol. Solar World Congress. Santiago, Chile; 2019.
  4. 2019

    1. Moreno-Leiva S, Haas J, Junne T, Kracht W, Eltrop L. Strategic scheduling of maintenance in copper processing as a flexibility option for highly renewable energy systems: a sample of a solar-paced design. In: Annual Conference of Metallurgists. Vancouver, BC, Canada; 2019. (Annual Conference of Metallurgists).
    2. Junne T, Haas J, Wang J, Moreno S, Naegler T, Buchgeister J, et al. Considering Ecological Sustainability in Planning the Future Electricity Supply of Chile – How Much More Does it Cost? In Düsseldorf, Germany: International Renewable Energy Storage (IRES) Conference; 2019.
  5. 2018

    1. Moreno S, Haas J, Junne T, Eltrop L. A green copper concept: on the design of a full-renewable energy supply for its production. In: International Symposium on Energy System Optimization. Karlsruhe, Germany: ISESO; 2018. (International Symposium on Energy System Optimization).
  6. 2017

    1. Moreno-Leiva S, Valencia F, Haas J, Chudinzow D, Eltrop L. Solar energy alternatives for copper production. In: 23rd SolarPaces International Conference. Santiago, Chile: AIP Proceedings; 2017. (23rd SolarPaces International Conference).
    2. Moreno-Leiva S, D’iaz-Ferrán G, Haas J, Telsnig T, D’iaz-Alvarado FA, Palma-Behnke R, et al. Towards solar power supply for copper production in Chile: Assessment of global warming potential using a life-cycle approach. Journal of Cleaner Production [Internet]. 2017;164:242--249. Available from: http://linkinghub.elsevier.com/retrieve/pii/S0959652617312076
  7. 2016

    1. Moreno-Leiva S, Telsnig T, Haas J, Díaz-Alvarado F, Díaz-Ferrán G, Palma-Behnke R, et al. Solar Mining: integraci’on de tecnologías solares en la minería desde la perspectiva ACV (Solar Mining: integration of solar technologies into mining from a LCA perspective). In: I Conferencia Chilena de ACV. Viña del Mar, Chile: Red Ibero-Americana de Ciclos de Vida (RICV); 2016. (I Conferencia Chilena de ACV).
    2. Moreno-Leiva S, Román R, Kracht W, Palma-Behnke R, Haas J, Díaz-Ferrán G. Integrating solar energy in copper mining industry: preliminary analysis based on LCA. In: International Seminar on Energy Management in Mining. Santiago, Chile; 2016. (International Seminar on Energy Management in Mining).

2015 B.Sc. in Chemical Engineering, Universidad de Chile
2016-2017 Wissenschaftlicher Mitarbeiter, Energy Center, Universidad de Chile
2017-2019 Wissenschaftlicher Mitarbeiter, Institut für Energiewirtschaft und Rationelle Energieanwendung, Universität Stuttgart
Seit 07/2019 Doktorand, Institut für Wasser- und Umweltsystemmodellierung, Lehrstuhl für Stochastische Simulation und Sicherheitsforschung für Hydrosysteme, Universität Stuttgart

Energiesysteme
Optimierung
Wasser-Energie-Nexus
Flexible Systeme
Sauberere Produktion der Rohstoffen

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