Dr.

Jannik Haas

Researcher
Institute for Modelling Hydraulic and Environmental Systems (LS3/SimTech)

Contact

+49-711-685 60746

Business card (VCF)

Pfaffenwaldring 5a
D-70569 Stuttgart
Room: 1.15

  1. 2019 (submitted)

    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.
    2. Guisandez I, Perez-Diaz JI, Nowak W, Haas J. Should environmental constraints be considered in long-term hydro scheduling? Journal of Electrical Power & Energy Systems. 2019;
    3. Gonzalez P, Haas J, Rahmann C, Alvarez R, Retanz C. Generation expansion planning considering storage systems and inertial constraints. Vol. Solar World Congress. Santiago, Chile; 2019.
  2. 2019 (accepted)

    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. Haas J, Hagen D, Nowak W. Energy storage and transmission systems to save the fish? Minimizing hydropeaking for little extra-cost. Sustainable Energy Technologies and Assessments. 2019;
  3. 2019

    1. Junne T, Haas J, Moreno S, Naegler T, Nowak W. 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.
    2. Pamparana G, Kracht W, Ortiz J, Haas J. Understanding the effect of ore hardness variability on the integration of solar energy into the operation of a semi-autogenous grinding mill. In: Conference of Metallurgist / Copper. Vancouver, BC, Canada: Conference of Metallurgist / Copper; 2019. (Conference of Metallurgist / Copper).
    3. Pamparana G, Kracht W, Haas J, Ortiz JM, Nowak W, Palma-Behnke R. Studying the integration of solar energy into the operation of a semi-autogenous grinding mill. Part II: effect of ore hardness variability, geometallurgical modeling and demand side management. Minerals Engineering. 2019;
    4. Pamparana G, Kracht W, Haas J, Ortiz JM, Nowak W, Palma-Behnke R. Studying the integration of solar energy into the operation of a semi-autogenous grinding mill. Part I: framework, model development and effect of solar irradiance forecasting. Minerals Engineering. 2019;
    5. Haas J, Nowak W, Palma-Behnke R. Multi-objective planning of energy storage technologies for a fully renewable system: implications for the main stakeholders in Chile. Energy Policy. 2019;126:494–506.
    6. Anindito Y, Haas J, Olivares MA, Kern J, Nowak W. A new solution to mitigate hydropeaking? Batteries versus re-regulation reservoirs. Journal of Cleaner Production. 2019;210:477–89.
  4. 2018

    1. Rahmann C, Mayol C, Haas J. Dynamic control strategy in partially-shaded photovoltaic power plants for improving the frequency of the electricity system. Journal of Cleaner Production [Internet]. 2018;202C:109–19. Available from: https://www.sciencedirect.com/science/article/pii/S0959652618322996?via%3Dihub
    2. Haas J, Palma-Behnke R, Valencia F, Araya P, D’iaz-Ferrán G, Telsnig T, et al. Sunset or sunrise? Understanding the barriers and options for the massive deployment of solar technologies in Chile. Energy Policy [Internet]. 2018;112:399–414. Available from: http://linkinghub.elsevier.com/retrieve/pii/S0301421517306249
    3. Cebulla F, Haas J, Eichman J, Nowak W, Mancarella P. How much Electrical Energy Storage do we need? A synthesis for the U.S., Europe, and Germany. Journal of Cleaner Production [Internet]. 2018;181:449–59. Available from: https://www.sciencedirect.com/science/article/pii/S0959652618301665
    4. Haas J, Nowak W, Hagen D. Energy Storage Systems for a 100\% Renewable Power Supply: a Closer Look on Hydropower. In: 13th SDEWES Conference on Sustainable Development of Energy, Water and Environment Systems. Palermo, Italy: SDEWES; 2018. (13th SDEWES Conference on Sustainable Development of Energy, Water and Environment Systems).
    5. Haas J, Nowak W. What technical phenomena are relevant when designing the optimal energy storage mix? In Stuttgart, Germany: 2nd International Conference on Simulation Technology; 2018.
    6. Haas J, Nowak W, Cebulla F, Rahmann C, Palma-Behnke R. A multi-service approach for finding the optimal energy storage mix for renewable systems. In Düsseldorf, Germany: International Renewable Energy Storage (IRES) Conference; 2018.
    7. 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).
    8. Ortiz J, Kracht W, Pamparana G, Haas J. Integrating uncertainty in rock hardness and solar irradiation in the optimization of a SAG mill energy system. In: 12th International Conference on Geostatistics for Environmental Applications (geoENV). Belfast, North Ireland; 2018. (12th International Conference on Geostatistics for Environmental Applications (geoENV)).
    9. Motyka E, Haas J, de la Fuente A. Long-term impact of hydropeaking: Studying the water quality of Rapel Reservoir, and the thermal pollution and hydrological alteration of its downstream river. In: 12th International Symposium on Ecohydraulics (ISE). Tokyo Japan; 2018. (12th International Symposium on Ecohydraulics (ISE)).
    10. Haas J, Khalighi J, Chen P-J, de la Fuente A, Nowak W. Save the Lake! Floating Solar Photovoltaic to Avoid Algae Blooms? In: Fall Meeting 2018. Washington, DC, USA: American Geophysical Union (AGU); 2018. (Fall Meeting 2018).
    11. Haas J, Cebulla F, Nowak W, Rahmann C, Palma R. A multi-service approach for planning the optimal mix of energy storage technologies in a fully renewable power supply. Energy Conversion and Management [Internet]. 2018;178:355–68. Available from: https://www.sciencedirect.com/science/article/pii/S0196890418310987
  5. 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. Haas J, Nowak W, Palma-Behnke R. Multiple Storage Technologies Offering Multiple Services in Generation Expansion Planning. In Düsseldorf, Germany: International Renewable Energy Storage (IRES) Conference; 2017.
    3. 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
    4. Haas J, Zuniga D, Nowak W, Olivares M, Castelletti A, Tilmant A. The future of hydropower planning modeling. In: Fall Meeting 2017, Abstract: H23J-1805. New Orleans, LA, USA: American Geophysical Union (AGU); 2017. (Fall Meeting 2017, Abstract: H23J-1805).
    5. Pamparana G, Kracht W, Haas J, D’iaz-Ferrán G, Palma-Behnke R, Román R. Integrating photovoltaic solar energy and a battery energy storage system to operate a semi-autogenous grinding mill. Journal of Cleaner Production [Internet]. 2017;165:273–80. Available from: http://linkinghub.elsevier.com/retrieve/pii/S0959652617315536
    6. Haas J, Nowak W. Water-energy nexus: challenges from Chile. In Golden, Colorado: International Conference on Energy Systems Integration (ICESI); 2017.
    7. Haas J, Pamparana G, Kracht W, Nowak W, Chudinzow D, Ortiz J. Powering a Semi-Autogenous Grinding mill with photovoltaic energy including mineral management: the optimal energy storage mix. In Antofagasta, Chile: 3rd Solar Forum; 2017.
    8. Haas J, Cebulla F, Karl-Kiên C, Nowak W, Palma-Behnke R, Rahmann C, et al. Challenges and trends of energy storage expansion planning for flexibility provision in power systems - a review. Renewable & Sustainable Energy Reviews [Internet]. 2017;80:603–619. Available from: http://www.sciencedirect.com/science/article/pii/S1364032117308377
    9. Nowak W, Anindito Y, Haas J, Olivares M. Can re-regulation reservoirs and batteries cost-effectively mitigate sub-daily hydropeaking? In: Fall Meeting 2017, Abstract: PA23A-0363. New Orleans, LA, USA: American Geophysical Union (AGU); 2017. (Fall Meeting 2017, Abstract: PA23A-0363).
    10. Carpentier D, Haas J, Olivares M, de la Fuente A. Modeling the Multi-Seasonal Link between the Hydrodynamics of a Reservoir and Its Hydropower Plant Operation. Water [Internet]. 2017;9(6):367. Available from: http://www.mdpi.com/2073-4441/9/6/367
    11. Ortiz J, Kracht W, Pamparana G, Haas J. Integrating sustainable energy sources into a Semi-Autogenous Grinding mill: a simulated case study accounting for spatial variability of ore grindability. In Kingston, Canada: Annual meeting of the GAC/MAC; 2017.
  6. 2016

    1. Pamparana G, Haas J, Díaz-Ferrán G, Kracht W, Palma-Behnke R, Román R. Operational planning of Semi-Autogenous Grinding (SAG) copper mills, photovoltaic and battery energy storage system. In: 3rd International Seminar on Energy Management in Mining. Santiago, Chile; 2016. (3rd International Seminar on Energy Management in Mining).
    2. Telsnig T, Potz C, Haas J, Eltrop L, Palma-Behnke R. Opportunities to Integrate Solar Technologies into the Chilean Lithium Mining Industry – Reducing Process Related GHG Emissions of a Strategic Storage Resource. In: 22nd SolarPACES International Conference. Abu Dhabi, UAE: AIP Proceedings; 2016. (22nd SolarPACES International Conference).
    3. 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).
    4. Haas J, Schradi J, Nowak W. Performance of Optimization Heuristics for the Operational Planning of Multienergy Storage Systems. In: Fall Meeting 2016, Abstract: GC51C-1162. San Francisco, CA, USA: American Geophysical Union (AGU); 2016. (Fall Meeting 2016, Abstract: GC51C-1162).
    5. Rahmann C, Vittal V, Ascui J, Haas J. Mitigation Control against Partial Shading Effects in Large-scale PV Power Plants. IEEE Transactions on Sustainable Energy. 2016;7(1):173–80.
    6. Cabrera E, Schneider A, Wefringhaus E, Rabanal J, Ferrada P, Thaller D, et al. Advancements in the development of “AtaMo”: A solar module adapted for the climate conditions of the Atacama Desert in Chile – The impact of soiling and abrasion. In: 32nd European Photovoltaic Solar Energy Conference and Exhibition. Munich, Germany; 2016. (32nd European Photovoltaic Solar Energy Conference and Exhibition).
    7. 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).
  7. 2015

    1. Haas J, Olivares MA, Palma-Behnke R. Grid-wide subdaily hydrologic alteration under massive wind power penetration in Chile. Journal of Environmental Management [Internet]. 2015;154:183–9. Available from: http://linkinghub.elsevier.com/retrieve/pii/S0301479715000857
    2. Olivares MA, Haas J, Palma-Behnke R, Benavides C. A framework to identify Pareto-efficient subdaily environmental flow constraints on hydropower reservoirs using a grid-wide power dispatch model. Water Resources Research [Internet]. 2015;51(5):3664–80. Available from: http://doi.wiley.com/10.1002/2014WR016215
    3. Diaz G, Haas J, Román R. The integration between solar energy and mining in Chile. In Daegu, Korea: ISES SWC2015; 2015.
    4. Haas J, Nowak W, Palma-Behnke R, Cebulla F. Energy storage opportunities and modelling challenges in Chile. In Concepcion, Chile: Production and Storage of Renewable Energy, KIT Alumni Expert Seminar; 2015.
  8. 2014

    1. Haas J. Análisis de interacciones a nivel horario entre centrales hidroel’ectricas y e’olicas en el SIC Analysis of hourly interactions between wind and hydro power plants in Chile’s Central Interconnected Power System [Internet]. 2014. Available from: http://tesis.uchile.cl/handle/2250/116293
  9. 2013

    1. Haas J, Olivares M, Palma R, Quintero A. Efectos econ’omicos de la modelaci’on de los estanques de regulaci’on de hidroeléctricas de pasada en el predespacho del SIC (Economic impact of modeling regulation tanks of run-of-river hydropower plants in Chile’s unit commitment). In: Chilean Congress of Hydraulic Engineering. Concepci’on; 2013. (Chilean Congress of Hydraulic Engineering).
    2. Haas J, Olivares M. Primer estudio de alteraci’on hidrol’ogica intra-diaria debido a la operaci’on de embalses del SIC para distintos escenarios de penetraci’on de energía e’olica (Intra-daily hydrological alteration due to hydropower reservoir operation in central Chile under scenarios of high wind share). In: Primer congreso en Ecohidrología para Latino América y el Caribe (CELAC-PHI). Santiago, Chile; 2013. (Primer congreso en Ecohidrología para Latino América y el Caribe (CELAC-PHI)).
    3. Haas J, Olivares M, Palma R. Effects of massive wind power integration on short-term water resource management in central Chile - a grid-wide study. In: Fall Meeting 2013, Abstract: H43O-07. San Francisco, CA, USA: American Geophysical Union (AGU); 2013. (Fall Meeting 2013, Abstract: H43O-07).
    4. Haas J, Palma R, Olivares M. Preliminary assessment of the value of up-powering in Chile’s Central Interconnected System under different wind penetration scenarios. In: IEEE Solar Energy and Smart Grids Congress - Chilecon. Santiago, Chile; 2013. (IEEE Solar Energy and Smart Grids Congress - Chilecon).

07/2012 B.Sc. in Environmental Engineering, Universidad de Chile
04/2014 Professional Degree and M.Sc. in Environmental Engineering, Universidad de Chile
11/2018 PhD. in Engineering, University of Stuttgart

Integration of renewable energy sources
Environment - energy - water systems
Energy storage