Neogrid has been involved in a large number of publications in peer-reviewed scientific journals and conferences, as well as project reports. A list of these is provided below.

Conference papers

  • Pedersen, T. S., Andersen, P., Nielsen, K. M., Stærmose, H. L., Pedersen, P. D. Using heat pump energy storages in the power grid. IEEE International Conference on Control Applications (CCA); 2011. http://dx.doi.org/10.1109/CCA.2011.6044504.
  • Biegel, B., Andersen, P., Stoustrup, J., Madsen, M. B., Hansen, L. H. Lumped thermal household model. In 4th IEEE/PES Conference of Innovative Smart Grid Technologies Europe (ISGT Europe), October 2013. http://dx.doi.org/10.1109/ISGTEurope.2013.6695320.
  • Biegel, B., Andersen, P., Stoustrup, J., Madsen, M. B., Hansen, L. H., Rasmussen, L. H. Aggregation and Control of Flexible Consumers – A Real Life Demonstration. IFAC Proceeding Workshop Series, 2014; 9950-9955. https://dx.doi.org/10.3182/20140824-6-ZA-1003.00718.
  • Vogler-Finck P.J.C., Pedersen P.D., Popovski P.,Wisniewski R., Comparison of strategies for model predictive control for home heating in future energy systems. IEEE PowerTech, Manchester; 2017, http://dx.doi.org/10.1109/PTC.2017.7979747.
  • Clauß J., Finck C., Vogler-Finck P.J.C., Beagon P., Control strategies for building energy systems to unlock demand side flexibility – A review. Building Simulation Conference 2017, San Francisco: 2017. http://hdl.handle.net/10197/9016.
  • Vogler-Finck P.J.C., Clauß J., Georges L., Sartori I., Wisniewski R., Inverse model identification of the thermal dynamics of a Norwegian zero emission house. Cold Climate HVAC, Kiruna: Springer; 2018.
  • Clauß J., Vogler-Finck P.J.C., Georges L., Calibration of a high-resolution dynamic model for detailed investigation of the energy flexibility of a zero emission residential building. Cold Climate HVAC, Kiruna: Springer; 2018.

Articles in journals

  • Vogler-Finck P.J.C., Bacher P., Madsen H., Online short-term forecast of greenhouse heat load using a weather forecast service. Applied Energy 2017; 205:pp. 1298–310. http://dx.doi.org/10.1016/j.apenergy.2017.08.013.
  • Vogler-Finck P.J.C., Wisniewski R., Popovski P., Reducing the carbon footprint of house heating through model predictive control – A simulation study in Danish conditions. Sustainable Cities and Societies 2018;  42:pp.558-573. https://dx.doi.org/10.1016/j.scs.2018.07.027.

Project reports

  • Nordjysk Elhandel, Neogrid, Eurisco, Aalborg University, ArosTeknik, Intelligent remote control for heat pumps (IFIV) – final report, 2012 (link)
  • Neogrid, Exergi, Holiday residences and smart grid – final report, 2013 (link)
  • NEAS, Neogrid, Aalborg University, PlanEnergi, Ea Energy Analyses, Aarhus University, READY – Smart grid VPP Controllers for heat pumps – final report, 2014 (link)
  • Insero, Intelligent Energistyring, Danish Technological Institute, Exergi Partners, Neogrid, Eurisco, Liab, Styr din varmepumpe v2 – final report, 2015 (link)
  • Neogrid and SDVP v2 consortium, XMPP standard in Styr din varmepumpe v2, 2015 (link)
  • Neogrid and SDVP v2 consortium, Data analysis within the project Styr din Varmepumpe v2, 2015 (link)
  • Dansk Gasteknisk Center NEAS, Insero Energy, Metro Therm, Neogrid, FlexGas final report, 2016 (link)
  • Neogrid, Copenhagen Business School, Conscius, NEAS, Nyfors Net, ZenseTechnology, Aalborg University, TotalFlex – final report, 2016 (link)
  • Delsing J. and Arrowhead consortium, IoT Automation: Arrowhead Framework, 1st Edition, CRC Press, 2017
  • Neogrid, LIAB, Intelligent Energistyring, SDVP Connect – final report, 2017 (link)
  • Insero, Eurisco, Neogrid, Danish Technological Institute, Intelligent Energistyring, HPCOM – final report, 2017 (link)
  • IEA EBC Annex 67, Review of applied and tested control possibilities for energy flexibility in buildings, 2017 (link)