Source: Motorpress / Nissan South Africa
Nissan RE-LEAF: Power when it’s needed, where it’s needed
PARIS (Sept. 29, 2020) – Nissan today unveiled a 100% electric emergency response vehicle concept, designed to provide a mobile power supply following natural disasters or extreme weather.
EV concept provides mobile power supply in aftermath of natural disasters
The RE-LEAF[1] working prototype is based on the Nissan LEAF passenger car, the world’s first mass-production electric car.
Alongside modifications to navigate roads covered in debris, the RE-LEAF features weatherproof plug sockets mounted directly to the exterior of the vehicle, which enable 110- to 230-volt devices to be powered from the car’s high-capacity lithium-ion battery.
The RE-LEAF can be driven into the center of a disaster zone and provide a fully mobile power supply to aid the recovery process. The integrated energy management system can run medical, communications, lighting, heating and other life-supporting equipment.
“We’re constantly exploring ways that electric vehicles can enrich our lives, beyond just zero-emission transportation,” said Helen Perry, head of electric passenger cars and infrastructure for Nissan in Europe. “Concepts like the RE-LEAF show the possible application of EVs in disaster management and demonstrate that smarter, cleaner technology can help save lives and provide greater resilience.”
Real-world applications of EVs during disasters
Natural disasters are the biggest cause of power outages. A 2019 World Bank report found natural shocks and climate change caused 37% of outages in Europe between 2000 and 2017, and 44% of outages in the U.S. over the same period.
When a disaster hits, the time for electricity supply to be restored is typically 24 to 48 hours, depending on the severity of the damage. During that period, electric vehicles can provide zero-emission mobile emergency power.
Nissan created the RE-LEAF to demonstrate the potential of electric vehicles in disaster recovery. Although it’s just a working concept, the technology is already being used in the real world. In Japan, Nissan has used the LEAF to provide emergency power and transportation following natural disasters since 2011, and the company has formed partnerships with more than 60 local governments to support disaster relief efforts.
Nissan EVs can also act as mobile storage batteries to supply homes and society with electricity during non-emergency situations through Nissan Energy Share, creating a distributable energy model that can be used to help stabilize supply and demand. The RE-LEAF uses the LEAF’s bidirectional charging ability, a standard feature of the model since its introduction in 2010. This means the LEAF can not only “pull” power to recharge the high-capacity battery, but also “push” it back to the grid through V2G (Vehicle-toGrid) technology, or directly to electric devices through V2X (Vehicle-to-everything).
Improving resilience with EVs
Acting as a portable power station, the latest generation Nissan LEAF e+ with a fully charged 62 kilowatt-hour battery can provide enough electricity to power the average European household for six days.
As a disaster recovery vehicle, the RE-LEAF can power multiple devices simultaneously. Here are some examples based on 230-volt power use:
Electric jackhammer – 24 hours – 36 kWh
Pressure ventilation fan – 24 hours – 21.6 kWh
10-liter soup kettle – 24 hours – 9.6 kWh
Intensive care medical ventilator – 24 hours – 3 kWh
100-watt LED floodlight – 24 hours – 2.4 kWh
Once electricity is restored to the area, EVs can be recharged and provide zero-emission transport – up to 385 kilometers[2] on a single charge of a LEAF e+ battery.
“Electric vehicles are emerging as one of the technologies that can improve resilience in the power sector,” Perry said. “By having thousands of EVs available on standby, either as disaster support vehicles or plugged into the network through Vehicle-to-Grid, they’re uniquely capable of creating a virtual power plant to maintain a supply of energy.”
1) The “RE” refers to three elements of disaster preparedness: response, recovery and resilience
2) WLPT standard
APPENDIX A
Nissan RE-LEAF in detail The Nissan RE-LEAF supports the three “REs” of disaster preparedness – providing an emergency response, aiding the humanitarian recovery and improving community resilience for the future.
The RE-LEAF’s amber color scheme is a nod to the ancient Greek word for amber – electron – the origin of the word electricity. This pairs with the blue color scheme of our Nissan Intelligent Mobility vision to reference the concept’s connected abilities. A roofmounted LED light bar also displays amber flashes to alert other road users to the vehicle’s approach.
To help the car navigate roads with obstructions or fallen debris, the RE-LEAF’s ride height has been raised by 70 millimeters to 225 mm with a custom “sump guard” to protect the car’s floor pan. Wider tracks (+90 mm front/+130 mm rear), custom wheel arches, mud flaps and all-terrain tires on 17-inch motorsports wheels add to the capability.
The large capacity and high reliability of the LEAF’s lithium-ion battery ensures a stable power supply to support multiple line-powered devices. The integrated energy management system is able to output the RE-LEAF battery’s power at up to 230 volts. There are three sockets – two weatherproof external C-form connectors for easy access, and an internal domestic socket mounted in the trunk.
The rear seats have been removed and the floor leveled to provide storage for essential equipment. A custom bulkhead cage also separates the front seats from the cargo area.
Once the RE-LEAF arrives at a disaster zone, a bespoke pull-out desk extends from the trunk with a 32-inch LED screen and dedicated power supply creating an operational hub to run communications from and manage the recovery process.
Once power is restored, the LEAF can be recharged using three charging profiles, even using domestic sockets if no EV infrastructure is available in the immediate vicinity.
Charger type 40 kWh battery capacity 62 kWh battery capacity
3.7 kW domestic socket 11.5 hours (0-100%) 18 hours (0-100%)
7 kW type 2 7.5 hours (0-100%) 11.5 hours (0-100%)
50 kW CHAdeMO 60 minutes (20-80%)* 90 minutes (20-80%)*
* Indicated charging time based on starting charge of 20% and use of a CHAdeMO (50KW) rapid charger. Time may vary depending on charging conditions including charger type and condition, battery temperature and ambient temperature at point of use.
RE-LEAF technical specifications
Base model Nissan LEAF Tekna
Tires BF Goodrich Baja All Terrain Tires 225/65/17
Wheels Compomotive MO5 8” x 17”
Arches Bespoke GRP composite 40 mm wide arches
Ground clearance 225 mm
Tracks (front/rear) 1830 mm/1890 mm (increased from 1740 mm/1760 mm)
The vehicle modifications were carried out by RJN, a U.K.-based engineering and motorsports firm, with project management by GTA Global Ltd.
APPENDIX B
Natural disaster recovery
A 2016 report from the U.S. National Association of State Energy Officials highlighted the potential of EVs following natural disasters, saying: “The ability to bring power where it is needed, even on a local scale, can be an invaluable resource during emergencies.”
In 2019, the United Nations reported that climate crisis disasters are now happening at the rate of one a week, and that the last two decades have seen an increase of 151% in direct economic losses from climate-related disasters.
To find out more about how Nissan has used EVs to support disaster recovery in Japan, click here.
References:
World Bank Group, “STRONGER POWER: Improving Power Sector Resilience to Natural Hazards” (2019): https://openknowledge.worldbank.org/bitstream/handle/10986/31910/Stronger-PowerImproving-Power-Sector-Resilience-to-Natural-Hazards.pdf
UN Office for Disaster Risk Reduction, “UN 20 Year Review: earthquakes and tsunamis kill more people while climate change is driving up economic losses” (October 2018): https://www.undrr.org/news/un-20-year-review-earthquakes-and-tsunamis-kill-more-people-whileclimate-change-driving
UK Power, “Average gas and electric usage for UK households” https://www.ukpower.co.uk/home_energy/average-household-gas-and-electricity-usage
National Association of State Energy Officials: Initiative for Resiliency in Energy through Vehicles, “Electric Vehicles and Emergency Response” (June 2016): https://www.carmart.ch/wpcontent/uploads/2018/11/iREV-EV-Case-Study.pdf
Alongside modifications to navigate roads covered in debris, the RE-LEAF features weatherproof plug sockets mounted directly to the exterior of the vehicle, which enable 110- to 230-volt devices to be powered from the car’s high-capacity lithium-ion battery.
The RE-LEAF can be driven into the center of a disaster zone and provide a fully mobile power supply to aid the recovery process. The integrated energy management system can run medical, communications, lighting, heating and other life-supporting equipment.
“We’re constantly exploring ways that electric vehicles can enrich our lives, beyond just zero-emission transportation,” said Helen Perry, head of electric passenger cars and infrastructure for Nissan in Europe. “Concepts like the RE-LEAF show the possible application of EVs in disaster management and demonstrate that smarter, cleaner technology can help save lives and provide greater resilience.”
Real-world applications of EVs during disasters
Natural disasters are the biggest cause of power outages. A 2019 World Bank report found natural shocks and climate change caused 37% of outages in Europe between 2000 and 2017, and 44% of outages in the U.S. over the same period.
When a disaster hits, the time for electricity supply to be restored is typically 24 to 48 hours, depending on the severity of the damage. During that period, electric vehicles can provide zero-emission mobile emergency power.
Nissan created the RE-LEAF to demonstrate the potential of electric vehicles in disaster recovery. Although it’s just a working concept, the technology is already being used in the real world. In Japan, Nissan has used the LEAF to provide emergency power and transportation following natural disasters since 2011, and the company has formed partnerships with more than 60 local governments to support disaster relief efforts.
Nissan EVs can also act as mobile storage batteries to supply homes and society with electricity during non-emergency situations through Nissan Energy Share, creating a distributable energy model that can be used to help stabilize supply and demand. The RE-LEAF uses the LEAF’s bidirectional charging ability, a standard feature of the model since its introduction in 2010. This means the LEAF can not only “pull” power to recharge the high-capacity battery, but also “push” it back to the grid through V2G (Vehicle-toGrid) technology, or directly to electric devices through V2X (Vehicle-to-everything).
Improving resilience with EVs
Acting as a portable power station, the latest generation Nissan LEAF e+ with a fully charged 62 kilowatt-hour battery can provide enough electricity to power the average European household for six days.
As a disaster recovery vehicle, the RE-LEAF can power multiple devices simultaneously. Here are some examples based on 230-volt power use:
Electric jackhammer – 24 hours – 36 kWh
Pressure ventilation fan – 24 hours – 21.6 kWh
10-liter soup kettle – 24 hours – 9.6 kWh
Intensive care medical ventilator – 24 hours – 3 kWh
100-watt LED floodlight – 24 hours – 2.4 kWh
Once electricity is restored to the area, EVs can be recharged and provide zero-emission transport – up to 385 kilometers[2] on a single charge of a LEAF e+ battery.
“Electric vehicles are emerging as one of the technologies that can improve resilience in the power sector,” Perry said. “By having thousands of EVs available on standby, either as disaster support vehicles or plugged into the network through Vehicle-to-Grid, they’re uniquely capable of creating a virtual power plant to maintain a supply of energy.”
1) The “RE” refers to three elements of disaster preparedness: response, recovery and resilience
2) WLPT standard
APPENDIX A
Nissan RE-LEAF in detail The Nissan RE-LEAF supports the three “REs” of disaster preparedness – providing an emergency response, aiding the humanitarian recovery and improving community resilience for the future.
The RE-LEAF’s amber color scheme is a nod to the ancient Greek word for amber – electron – the origin of the word electricity. This pairs with the blue color scheme of our Nissan Intelligent Mobility vision to reference the concept’s connected abilities. A roofmounted LED light bar also displays amber flashes to alert other road users to the vehicle’s approach.
To help the car navigate roads with obstructions or fallen debris, the RE-LEAF’s ride height has been raised by 70 millimeters to 225 mm with a custom “sump guard” to protect the car’s floor pan. Wider tracks (+90 mm front/+130 mm rear), custom wheel arches, mud flaps and all-terrain tires on 17-inch motorsports wheels add to the capability.
The large capacity and high reliability of the LEAF’s lithium-ion battery ensures a stable power supply to support multiple line-powered devices. The integrated energy management system is able to output the RE-LEAF battery’s power at up to 230 volts. There are three sockets – two weatherproof external C-form connectors for easy access, and an internal domestic socket mounted in the trunk.
The rear seats have been removed and the floor leveled to provide storage for essential equipment. A custom bulkhead cage also separates the front seats from the cargo area.
Once the RE-LEAF arrives at a disaster zone, a bespoke pull-out desk extends from the trunk with a 32-inch LED screen and dedicated power supply creating an operational hub to run communications from and manage the recovery process.
Once power is restored, the LEAF can be recharged using three charging profiles, even using domestic sockets if no EV infrastructure is available in the immediate vicinity.
Charger type 40 kWh battery capacity 62 kWh battery capacity
3.7 kW domestic socket 11.5 hours (0-100%) 18 hours (0-100%)
7 kW type 2 7.5 hours (0-100%) 11.5 hours (0-100%)
50 kW CHAdeMO 60 minutes (20-80%)* 90 minutes (20-80%)*
* Indicated charging time based on starting charge of 20% and use of a CHAdeMO (50KW) rapid charger. Time may vary depending on charging conditions including charger type and condition, battery temperature and ambient temperature at point of use.
RE-LEAF technical specifications
Base model Nissan LEAF Tekna
Tires BF Goodrich Baja All Terrain Tires 225/65/17
Wheels Compomotive MO5 8” x 17”
Arches Bespoke GRP composite 40 mm wide arches
Ground clearance 225 mm
Tracks (front/rear) 1830 mm/1890 mm (increased from 1740 mm/1760 mm)
The vehicle modifications were carried out by RJN, a U.K.-based engineering and motorsports firm, with project management by GTA Global Ltd.
APPENDIX B
Natural disaster recovery
A 2016 report from the U.S. National Association of State Energy Officials highlighted the potential of EVs following natural disasters, saying: “The ability to bring power where it is needed, even on a local scale, can be an invaluable resource during emergencies.”
In 2019, the United Nations reported that climate crisis disasters are now happening at the rate of one a week, and that the last two decades have seen an increase of 151% in direct economic losses from climate-related disasters.
To find out more about how Nissan has used EVs to support disaster recovery in Japan, click here.
References:
World Bank Group, “STRONGER POWER: Improving Power Sector Resilience to Natural Hazards” (2019): https://openknowledge.worldbank.org/bitstream/handle/10986/31910/Stronger-PowerImproving-Power-Sector-Resilience-to-Natural-Hazards.pdf
UN Office for Disaster Risk Reduction, “UN 20 Year Review: earthquakes and tsunamis kill more people while climate change is driving up economic losses” (October 2018): https://www.undrr.org/news/un-20-year-review-earthquakes-and-tsunamis-kill-more-people-whileclimate-change-driving
UK Power, “Average gas and electric usage for UK households” https://www.ukpower.co.uk/home_energy/average-household-gas-and-electricity-usage
National Association of State Energy Officials: Initiative for Resiliency in Energy through Vehicles, “Electric Vehicles and Emergency Response” (June 2016): https://www.carmart.ch/wpcontent/uploads/2018/11/iREV-EV-Case-Study.pdf
The RE-LEAF[1] working prototype is based on the Nissan LEAF passenger car
Nissan created the RE-LEAF to demonstrate the potential of electric vehicles in disaster recovery