Title :
Optimization of carbon emissions in smart grids
Author :
Lau, E.T. ; Yang, Qingxiong ; Taylor, Gareth A. ; Forbes, A.B. ; Wright, Paul ; Livina, V.N.
Author_Institution :
Brunel Univ., Uxbridge, UK
Abstract :
In this paper the carbon emissions in smart grids are optimised. This is achieved by performing dynamical modelling with uncertainty analysis of smart grids using an Ensemble Based Closed-Loop Optimisation Scheme (EnOpt). Uncertainties include the fluctuations of consumer energy demand (behavioural) and generation fuel mix (green and non-green) are estimated using the Monte Carlo method. The UK electricity grid carbon factor is calculated based on the available energy data provided by the Balancing Mechanism Reporting System (BMRS). We apply the Ensemble Kalman Filter (EnKF) for the forecasting and prediction of the energy generation, consumption and resultant carbon emissions. Then we apply EnOpt to maximize the carbon savings in the system. Finally, we present results of EnOpt optimization of carbon emissions with estimated carbon savings.
Keywords :
Kalman filters; Monte Carlo methods; air pollution control; carbon; load forecasting; optimisation; smart power grids; BMRS; EnKF; Monte Carlo method; balancing mechanism reporting system; carbon emission optimization; consumer energy demand; dynamical modelling; electricity grid carbon factor; energy consumption; energy generation forecasting; energy generation prediction; ensemble Kalman filter; ensemble based closed-loop optimisation scheme; generation fuel mix; smart grids; uncertainty analysis; Carbon dioxide; Electricity; Fuels; Generators; Optimization; Smart grids; Uncertainty; carbon emissions; carbon savings; energy system modelling; ensemble Kalman filter; ensemble optimisation; smart grids;
Conference_Titel :
Power Engineering Conference (UPEC), 2014 49th International Universities
Conference_Location :
Cluj-Napoca
Print_ISBN :
978-1-4799-6556-4
DOI :
10.1109/UPEC.2014.6934796
