Projects
Projects: Projects for Investigator |
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| Reference Number | InnUK/102001/01 | |
| Title | IODiCUS - Interoperable Open Digital Control Unit System | |
| Status | Completed | |
| Energy Categories | Other Power and Storage Technologies(Electric power conversion) 20%; Other Power and Storage Technologies(Electricity transmission and distribution) 60%; Other Power and Storage Technologies(Energy storage) 20%; |
|
| Research Types | Applied Research and Development 100% | |
| Science and Technology Fields | ENGINEERING AND TECHNOLOGY (Electrical and Electronic Engineering) 100% | |
| UKERC Cross Cutting Characterisation | Systems Analysis related to energy R&D (Energy modelling) 75%; Sociological economical and environmental impact of energy (Other sociological economical and environmental impact of energy) 25%; |
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| Principal Investigator |
Project Contact No email address given Telemetry Associates Limited |
|
| Award Type | Collaborative Research & Development | |
| Funding Source | Innovate-UK | |
| Start Date | 01 January 2015 | |
| End Date | 30 June 2016 | |
| Duration | 18 months | |
| Total Grant Value | £386,182 | |
| Industrial Sectors | ||
| Region | East of England | |
| Programme | Competition Call: 1401_CRD_SUST_LES - Localised energy systems. Activity Localised energy systems- a cross-sector approach | |
| Investigators | Principal Investigator | Project Contact , Telemetry Associates Limited (13.984%) |
| Other Investigator | Project Contact , University of Bristol (33.659%) Project Contact , Critical Software Technologies Limited (12.994%) Project Contact , Secure Controls Lmited (18.126%) Project Contact , Trusted Renewables Limited (10.876%) Project Contact , Smart Homes & Buildings Association Limited (10.361%) |
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| Web Site | ||
| Objectives | ||
| Abstract | The Interoperable Open Digital Control Unit System Project (IODiCUS) seeks to demonstrate the technical viability and future market for a connected energy network, in buildings with microgeneration and local energy storage and optimised interaction with the electricity grid. The project builds on the "Interoperability of energy harvesting, storage and use" feasibiility study funded under the TSB Buildings Better Connected Call and will utilise algorithms executing dynamic decision making of the use of microgenerated electricity locally to the building, options for local storage, or for selling to, or buying back from, the electricity grid. It will use a representative set of buildings, residences and dwellings in and around the University of Bristol to demonstrate the efficacy of a Localised Energy System. It will develop Open Digital Control Units and Secure Communication Devices for measuring each energy input, store or output and develop algorithms that aim to delivering stable loads despite intermittency. IODiCUS will evaluate the technical and commercial merits, along with the future needs and constraints of the residential or business customer.The Interoperable Open Digital Control Unit System Project (IODiCUS) seeks to demonstrate the technical viability and future market for a connected energy network, in buildings with microgeneration and local energy storage and optimised interaction with the electricity grid. The project builds on the "Interoperability of energy harvesting, storage and use" feasibiility study funded under the TSB Buildings Better Connected Call and will utilise algorithms executing dynamic decision making of the use of microgenerated electricity locally to the building, options for local storage, or for selling to, or buying back from, the electricity grid. It will use a representative set of buildings, residences and dwellings in and around the University of Bristol to demonstrate the efficacy of a Localised Energy System. It will develop Open Digital Control Units and Secure Communication Devices for measuring each energy input, store or output and develop algorithms that aim to delivering stable loads despite intermittency. IODiCUS will evaluate the technical and commercial merits, along with the future needs and constraints of the residential or business customer.The Interoperable Open Digital Control Unit System Project (IODiCUS) seeks to demonstrate the technical viability and future market for a connected energy network, in buildings with microgeneration and local energy storage and optimised interaction with the electricity grid. The project builds on the "Interoperability of energy harvesting, storage and use" feasibiility study funded under the TSB Buildings Better Connected Call and will utilise algorithms executing dynamic decision making of the use of microgenerated electricity locally to the building, options for local storage, or for selling to, or buying back from, the electricity grid. It will use a representative set of buildings, residences and dwellings in and around the University of Bristol to demonstrate the efficacy of a Localised Energy System. It will develop Open Digital Control Units and Secure Communication Devices for measuring each energy input, store or output and develop algorithms that aim to delivering stable loads despite intermittency. IODiCUS will evaluate the technical and commercial merits, along with the future needs and constraints of the residential or business customer.The Interoperable Open Digital Control Unit System Project (IODiCUS) seeks to demonstrate the technical viability and future market for a connected energy network, in buildings with microgeneration and local energy storage and optimised interaction with the electricity grid. The project builds on the "Interoperability of energy harvesting, storage and use" feasibiility study funded under the TSB Buildings Better Connected Call and will utilise algorithms executing dynamic decision making of the use of microgenerated electricity locally to the building, options for local storage, or for selling to, or buying back from, the electricity grid. It will use a representative set of buildings, residences and dwellings in and around the University of Bristol to demonstrate the efficacy of a Localised Energy System. It will develop Open Digital Control Units and Secure Communication Devices for measuring each energy input, store or output and develop algorithms that aim to delivering stable loads despite intermittency. IODiCUS will evaluate the technical and commercial merits, along with the future needs and constraints of the residential or business customer.The Interoperable Open Digital Control Unit System Project (IODiCUS) seeks to demonstrate the technical viability and future market for a connected energy network, in buildings with microgeneration and local energy storage and optimised interaction with the electricity grid. The project builds on the "Interoperability of energy harvesting, storage and use" feasibiility study funded under the TSB Buildings Better Connected Call and will utilise algorithms executing dynamic decision making of the use of microgenerated electricity locally to the building, options for local storage, or for selling to, or buying back from, the electricity grid. It will use a representative set of buildings, residences and dwellings in and around the University of Bristol to demonstrate the efficacy of a Localised Energy System. It will develop Open Digital Control Units and Secure Communication Devices for measuring each energy input, store or output and develop algorithms that aim to delivering stable loads despite intermittency. IODiCUS will evaluate the technical and commercial merits, along with the future needs and constraints of the residential or business customer.The Interoperable Open Digital Control Unit System Project (IODiCUS) seeks to demonstrate the technical viability and future market for a connected energy network, in buildings with microgeneration and local energy storage and optimised interaction with the electricity grid. The project builds on the "Interoperability of energy harvesting, storage and use" feasibiility study funded under the TSB Buildings Better Connected Call and will utilise algorithms executing dynamic decision making of the use of microgenerated electricity locally to the building, options for local storage, or for selling to, or buying back from, the electricity grid. It will use a representative set of buildings, residences and dwellings in and around the University of Bristol to demonstrate the efficacy of a Localised Energy System. It will develop Open Digital Control Units and Secure Communication Devices for measuring each energy input, store or output and develop algorithms that aim to delivering stable loads despite intermittency. IODiCUS will evaluate the technical and commercial merits, along with the future needs and constraints of the residential or business customer. | |
| Publications | (none) |
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| Final Report | (none) |
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| Added to Database | 01/10/15 | |
