The Shape of Future Electricity Demand: Exploring Load Curves in 2050s Germany and Britain
@article{Bossmann2015TheSO,
title={The Shape of Future Electricity Demand: Exploring Load Curves in 2050s Germany and Britain},
author={Tobias Bossmann and Iain Staffell},
journal={Energy},
year={2015},
volume={90},
pages={1317-1333}
}188 Citations
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References
SHOWING 1-10 OF 97 REFERENCES
Future development trends in electricity demand
- Engineering
- 2009
The future electricity demand and demand trends in Finland and in the Nordic countries (excluding Iceland) are the main focus of this report. The electricity demand per capita is high on a EuropeanâŠ
Analysis of Structural Changes of the Load Profiles of the German Residential Sector due to Decentralized Electricity Generation and e-mobility
- Engineering
- 2013
In this paper, a bottom-up energy demand model is applied to a scenario-based analysis of the load profiles of the German residential sector until the year 2040. This analysis takes into account theâŠ
Modelling the impacts of electric vehicle recharging on the Western Australian electricity supply system
- Engineering
- 2011
Modeling of German Electricity Load for Pricing of Forward Contracts
- Engineering
- 2012
Nowadays, a large part of the traded volume in power markets represents energy to be consumed or produced in the future as a forward or future product. Hence, the need for precise forecasting of loadâŠ
Long-term forecasting of hourly electricity load: Identification of consumption profiles and segmentation of customers
- Engineering
- 2013
Metrics for evaluating the impacts of intermittent renewable generation on utility load-balancing
- Engineering
- 2012
Residual Load, Renewable Surplus Generation and Storage Requirements in Germany
- Engineering
- 2013
I examine the effects of increasing amounts of fluctuating renewable energy on residual load, which is defined as the difference between actual power demand and the feed-in of non-dispatchable andâŠ