Built environment, energy, digital and transport

Completed

Other Power and Storage Technologies(Energy storage)

Applied Research and Development
Final stage Development and Demonstration

PHYSICAL SCIENCES AND MATHEMATICS (Computer Science and Informatics)
ENGINEERING AND TECHNOLOGY (Electrical and Electronic Engineering)

Not Cross-cutting

Project Contact
Graham Oakes Limited

Collaborative Research & Development

Innovate UK

01 March 2015

31 August 2016

18 months

£425,032

North West

Competition Call: 1401_CRD_SUST_LES - Localised energy systems. Activity Localised energy systems- a cross-sector approach

Project Contact, Graham Oakes Limited

Project Contact, Tripod Software Limited
Project Contact, University of Manchester School of Electrical and Electronic Engineering
Project Contact, Sharp Laboratories of Europe Limited
Project Contact, Select Innovations Limited

Project Contact, University of Manchester
Project Contact, Tempus Energy Limited
Project Contact, Siemens plc

Upside aims to build an ICT service that aggregates energy storage capacity in thousands of small devices and coordinates the charge/discharge cycles of these devices to create a coherent energy store that can be used to manage demand on the grid. By working with a wide range of devices (e.g. Uninterruptible Power Supplies, Electric Vehicles, battery storage systems for domestic solar arrays, heat pumps), we can build a significant energy store with very flexible operating characteristics. Our initial target is to build a 30MWh store from "spare" capacity in small (<50kW) UPS currently installed in the UK. Such a store can be made financially viable by offering it to National Grid's Fast Reserve scheme. By shifting demand from peak periods to times of higher renewable generation, such a store can also significantly reduce CO2 emissions associated with electricity generation. An initial prototype for Upside is being developed for the finals of the Nesta Dynamic Demand Challenge. This project will help us build a pilot-scale service with a novel, "pluggable" ICT architecture, develop new algorithms for coordinating additional classes of device, and explore emerging business models.Upside aims to build an ICT service that aggregates energy storage capacity in thousands of small devices and coordinates the charge/discharge cycles of these devices to create a coherent energy store that can be used to manage demand on the grid. By working with a wide range of devices (e.g. Uninterruptible Power Supplies, Electric Vehicles, battery storage systems for domestic solar arrays, heat pumps), we can build a significant energy store with very flexible operating characteristics. Our initial target is to build a 30MWh store from "spare" capacity in small (<50kW) UPS currently installed in the UK. Such a store can be made financially viable by offering it to National Grid's Fast Reserve scheme. By shifting demand from peak periods to times of higher renewable generation, such a store can also significantly reduce CO2 emissions associated with electricity generation. An initial prototype for Upside is being developed for the finals of the Nesta Dynamic Demand Challenge. This project will help us build a pilot-scale service with a novel, "pluggable" ICT architecture, develop new algorithms for coordinating additional classes of device, and explore emerging business models.Upside aims to build an ICT service that aggregates energy storage capacity in thousands of small devices and coordinates the charge/discharge cycles of these devices to create a coherent energy store that can be used to manage demand on the grid. By working with a wide range of devices (e.g. Uninterruptible Power Supplies, Electric Vehicles, battery storage systems for domestic solar arrays, heat pumps), we can build a significant energy store with very flexible operating characteristics. Our initial target is to build a 30MWh store from "spare" capacity in small (<50kW) UPS currently installed in the UK. Such a store can be made financially viable by offering it to National Grid's Fast Reserve scheme. By shifting demand from peak periods to times of higher renewable generation, such a store can also significantly reduce CO2 emissions associated with electricity generation. An initial prototype for Upside is being developed for the finals of the Nesta Dynamic Demand Challenge. This project will help us build a pilot-scale service with a novel, "pluggable" ICT architecture, develop new algorithms for coordinating additional classes of device, and explore emerging business models.Upside aims to build an ICT service that aggregates energy storage capacity in thousands of small devices and coordinates the charge/discharge cycles of these devices to create a coherent energy store that can be used to manage demand on the grid. By working with a wide range of devices (e.g. Uninterruptible Power Supplies, Electric Vehicles, battery storage systems for domestic solar arrays, heat pumps), we can build a significant energy store with very flexible operating characteristics. Our initial target is to build a 30MWh store from "spare" capacity in small (<50kW) UPS currently installed in the UK. Such a store can be made financially viable by offering it to National Grid's Fast Reserve scheme. By shifting demand from peak periods to times of higher renewable generation, such a store can also significantly reduce CO2 emissions associated with electricity generation. An initial prototype for Upside is being developed for the finals of the Nesta Dynamic Demand Challenge. This project will help us build a pilot-scale service with a novel, "pluggable" ICT architecture, develop new algorithms for coordinating additional classes of device, and explore emerging business models.Upside aims to build an ICT service that aggregates energy storage capacity in thousands of small devices and coordinates the charge/discharge cycles of these devices to create a coherent energy store that can be used to manage demand on the grid. By working with a wide range of devices (e.g. Uninterruptible Power Supplies, Electric Vehicles, battery storage systems for domestic solar arrays, heat pumps), we can build a significant energy store with very flexible operating characteristics. Our initial target is to build a 30MWh store from "spare" capacity in small (<50kW) UPS currently installed in the UK. Such a store can be made financially viable by offering it to National Grid's Fast Reserve scheme. By shifting demand from peak periods to times of higher renewable generation, such a store can also significantly reduce CO2 emissions associated with electricity generation. An initial prototype for Upside is being developed for the finals of the Nesta Dynamic Demand Challenge. This project will help us build a pilot-scale service with a novel, "pluggable" ICT architecture, develop new algorithms for coordinating additional classes of device, and explore emerging business models.Upside aims to build an ICT service that aggregates energy storage capacity in thousands of small devices and coordinates the charge/discharge cycles of these devices to create a coherent energy store that can be used to manage demand on the grid. By working with a wide range of devices (e.g. Uninterruptible Power Supplies, Electric Vehicles, battery storage systems for domestic solar arrays, heat pumps), we can build a significant energy store with very flexible operating characteristics. Our initial target is to build a 30MWh store from "spare" capacity in small (<50kW) UPS currently installed in the UK. Such a store can be made financially viable by offering it to National Grid's Fast Reserve scheme. By shifting demand from peak periods to times of higher renewable generation, such a store can also significantly reduce CO2 emissions associated with electricity generation. An initial prototype for Upside is being developed for the finals of the Nesta Dynamic Demand Challenge. This project will help us build a pilot-scale service with a novel, "pluggable" ICT architecture, develop new algorithms for coordinating additional classes of device, and explore emerging business models.Upside aims to build an ICT service that aggregates energy storage capacity in thousands of small devices and coordinates the charge/discharge cycles of these devices to create a coherent energy store that can be used to manage demand on the grid. By working with a wide range of devices (e.g. Uninterruptible Power Supplies, Electric Vehicles, battery storage systems for domestic solar arrays, heat pumps), we can build a significant energy store with very flexible operating characteristics. Our initial target is to build a 30MWh store from "spare" capacity in small (<50kW) UPS currently installed in the UK. Such a store can be made financially viable by offering it to National Grid's Fast Reserve scheme. By shifting demand from peak periods to times of higher renewable generation, such a store can also significantly reduce CO2 emissions associated with electricity generation. An initial prototype for Upside is being developed for the finals of the Nesta Dynamic Demand Challenge. This project will help us build a pilot-scale service with a novel, "pluggable" ICT architecture, develop new algorithms for coordinating additional classes of device, and explore emerging business models.Upside aims to build an ICT service that aggregates energy storage capacity in thousands of small devices and coordinates the charge/discharge cycles of these devices to create a coherent energy store that can be used to manage demand on the grid. By working with a wide range of devices (e.g. Uninterruptible Power Supplies, Electric Vehicles, battery storage systems for domestic solar arrays, heat pumps), we can build a significant energy store with very flexible operating characteristics. Our initial target is to build a 30MWh store from "spare" capacity in small (<50kW) UPS currently installed in the UK. Such a store can be made financially viable by offering it to National Grid's Fast Reserve scheme. By shifting demand from peak periods to times of higher renewable generation, such a store can also significantly reduce CO2 emissions associated with electricity generation. An initial prototype for Upside is being developed for the finals of the Nesta Dynamic Demand Challenge. This project will help us build a pilot-scale service with a novel, "pluggable" ICT architecture, develop new algorithms for coordinating additional classes of device, and explore emerging business models.

24/07/15