论文信息 - Least-cost model predictive control of residential energy resources when applying μmCHP

Least-cost model predictive control of residential energy resources when applying μmCHP

With an increasing use of distributed energy resources and intelligence in the electricity infrastructure, the possibilities for minimizing costs of household energy consumption increase. Technology is moving toward a situation in which households manage their own energy generation and consumption, possibly in cooperation with each other. As a first step, in this paper a decentralized controller based on model predictive control is proposed. For an individual household using a micro combined heat and power (muCHP) plant in combination with heat and electricity storages the controller determines what the actions are that minimize the operational costs of fulfilling residential electricity and heat requirements subject to operational constraints. Simulation studies illustrate the performance of the proposed control scheme, which is substantially more cost effective compared with a control approach that does not include predictions on the system it controls.

B. De Schutter | H. Hellendoorn | M. Houwing | R.R. Negenborn | P.W. Heijnen

[1] B. De Schutter,et al. Multi-Agent Model Predictive Control of Transportation Networks , 2006, 2006 IEEE International Conference on Networking, Sensing and Control.

[2] E. J. Bakker,et al. Technisch energie- en CO2-besparingspotentieel van micro-wkk in Nederland (2010-2030). , 2006 .

[3] Ivo Bouwmans,et al. AGENT-BASED MODELLING OF RESIDENTIAL ENERGY GENERATION WITH MICRO-CHP , 2006 .

[4] F D Bijleveld. ESTIMATING THE CONFIDENCE MARGINS OF THE NATIONAL TRAVEL SURVEY (NTS): APPLICATION OF THE APPROXIMATION METHOD OF STATISTICS NETHERLANDS, THE DUTCH CENTRAL BUREAU OF STATISTICS (CBS) , 1999 .

[5] Jan M. Maciejowski,et al. Predictive control : with constraints , 2002 .

[6] Barbara Praetorius,et al. Micro Cogeneration: Towards Decentralized Energy Systems , 2005 .

[7] Paulien M. Herder,et al. Addressing Uncertainties in the Design and Operation of Residential Distributed Energy Resources: Case study of a Micro-CHP System , 2007 .

[8] Hendrik Neumann,et al. Optimal operation of dispersed generation under uncertainty using mathematical programming , 2006 .

[9] Kevin Barraclough,et al. I and i , 2001, BMJ : British Medical Journal.

[10] Ivo Bouwmans,et al. Socio-Technical Complexity in Energy Infrastructures Conceptual Framework to Study the Impact of Domestic Level Energy Generation, Storage and Exchange , 2006, 2006 IEEE International Conference on Systems, Man and Cybernetics.