System Dynamics Modeling for the Transition Trom Traditional Historic Urban Block to a Positive Energy Block

Energy Proceedings. Vol.23: Sustainable Energy Solutions for a Post-COVID Recovery towards a Better Future. Part 6 2021
Andra Blumberga, Ruta Vanaga, Ritvars Freimanis, Ģirts Bohvalovs, Aiga Barisa, Ieva Pakere, Dagnija Blumberga

In the light of the ambitious climate goals, the energy efficiency scope is gradually shifting from an individual building to a broader range – urban block, neighborhood, district, and city. Smart cities and communities show a significant potential of reaching energy efficiency goals. This study presents the results of a newly developed demand‐supply energy flow model. The model simulates the energy demand and supply dynamics of a traditional building block in the historical center of Riga, the capital of Latvia. The authors analyzed 12 different scenarios applying four factors – energy efficiency, renewable energy technologies, waste heat recovery, and electricity storage in electric vehicles.

Keywords
positive energy block, electric vehicles, intelligent energy systems, renewable energy, waste heat
DOI
10.46855/energy-proceedings-9469
Hyperlink
https://www.energy-proceedings.org/system-dynamics-modeling-for-the-transition-trom-traditional-historic-urban-block-to-a-positive-energy-block/

Blumberga, A., Vanaga, R., Freimanis, R., Bohvalovs, Ģ., Barisa, A., Pakere, I., Blumberga, D. System Dynamics Modeling for the Transition Trom Traditional Historic Urban Block to a Positive Energy Block. In: Energy Proceedings. Vol.23: Sustainable Energy Solutions for a Post-COVID Recovery towards a Better Future. Part 6, Thailand, Bangkok, 29 Nov-5 Dec., 2021. Sweden: Scanditale AB, 2021, pp.1-6. ISSN 2004-2965. Available from: doi:10.46855/energy-proceedings-9469

Publication language
English (en)