Gweithgareddau fesul blwyddyn
This work describes the development of a model and optimisation methodology to schedule a domestic fuel cell CHP device in order to maintain the internal temperature of a dwelling within defined limits whilst minimising the cost of operation of the system. A model has been developed which simulates the ability of a building to act as an energy store by including its thermal capacitance. The model uses mixed integer linear optimisation and a receding time period implementation to optimally schedule the operation of the fuel cell whilst keeping the internal temperature of the building within limits. The model accounts for factors such as fuel cell start up/shut down cost and maximum ramp rate. Environmental factors such as predicted temperature and insolation as well as building occupation and use are used as inputs to the model. The results show the proposed methodology can schedule the fuel cell such that internal building temperatures are kept within limits whilst reducing overall costs.
Keywords: hydrogen, fuel cells, combined heat and power
Acknowledgement: The scientific work was supported by FLEXIS (Flexible Integrated Energy Systems).
|Statws||Cyhoeddwyd - Medi 2018|
|Digwyddiad||12th ECCRIA CONFERENCE - Cardiff University, Cardiff, Y Deyrnas Unedig|
Hyd: 5 Sep 2018 → 7 Sep 2018
|Cynhadledd||12th ECCRIA CONFERENCE|
|Gwlad/Tiriogaeth||Y Deyrnas Unedig|
|Cyfnod||5/09/18 → 7/09/18|
Ôl bysGweld gwybodaeth am bynciau ymchwil 'Optimal Scheduling of a Fuel Cell for Combined Heat and Power'. Gyda’i gilydd, maen nhw’n ffurfio ôl bys unigryw.
- 1 Cymryd rhan mewn gweithdy, seminar, cwrs
James Reed (Mynychydd)25 Tach 2020
Gweithgaredd: Cymryd rhan mewn digwyddiad neu drefnu digwyddiad › Cymryd rhan mewn gweithdy, seminar, cwrs