A Practical Implementation of a Distributed Control Approach for MicroGrids

Lyons, P.F.; Trichakis, P.; Taylor, P.C.; Coates, G.

doi:10.1080/10798587.2010.10643084

All Outputs (5)

Real time operation of μCHP systems using fuzzy logic (2012)
Journal Article
Shaneb, O., Taylor, P., & Coates, G. (2012). Real time operation of μCHP systems using fuzzy logic. Energy and Buildings, 55(1), 141-150. https://doi.org/10.1016/j.enbuild.2012.07.048

Micro Combined Heat and Power (μCHP) technologies are usually operated according to a predetermined conventional heat or electricity led operation strategy (HLOS, ELOS) [1]. μCHP systems can contribute to the transition to a low carbon economy throug... Read More about Real time operation of μCHP systems using fuzzy logic.

Optimal online operation of residential μCHP systems using linear programming (2012)
Journal Article
Shaneb, O., Taylor, P., & Coates, G. (2012). Optimal online operation of residential μCHP systems using linear programming. Energy and Buildings, 44, 17-25. https://doi.org/10.1016/j.enbuild.2011.10.003

Environmental pressures have resulted in an increased importance being placed on the efficient production and consumption of energy. Micro combined heat and power (μCHP) technology has the potential to make an important contribution to make the trans... Read More about Optimal online operation of residential μCHP systems using linear programming.

Sizing of residential μCHP systems (2011)
Journal Article
Shaneb, O., Coates, G., & Taylor, P. (2011). Sizing of residential μCHP systems. Energy and Buildings, 43(8), 1991-2001. https://doi.org/10.1016/j.enbuild.2011.04.005

Combined heat and power (CHP) is a well-known technique for producing heat and power simultaneously onsite. However, the micro level of this technology has just been recently introduced around the world, and expected to widely spread. Therefore, iden... Read More about Sizing of residential μCHP systems.

Micro combined heat and power technologies and control for residential applications (2010)
Journal Article
Shaneb, O., Coates, G., & Taylor, P. (2010). Micro combined heat and power technologies and control for residential applications. International Journal of Renewable Energy Technology, 1(3), 325-347. https://doi.org/10.1504/ijret.2010.032187

Residential applications are considered among the most important areas for substantial reduction of CO2 emissions because they represent a major part of the total consumed energy in those countries. In order to achieve a significant CO2 reduction, ma... Read More about Micro combined heat and power technologies and control for residential applications.

A Practical Implementation of a Distributed Control Approach for MicroGrids (2010)
Journal Article
Lyons, P., Trichakis, P., Taylor, P., & Coates, G. (2010). A Practical Implementation of a Distributed Control Approach for MicroGrids. Intelligent Automation & Soft Computing: An International Journal, 16(2), 319-334. https://doi.org/10.1080/10798587.2010.10643084

Public low voltage feeders containing a mixture of several micro-sources, distributed energy storage units (ESUs) and controllable loads, which appear to the upstream distribution network as controllable entities, are known as MicroGrids. Through int... Read More about A Practical Implementation of a Distributed Control Approach for MicroGrids.