ITU Workshop on Smart Sustainable Cities in Latin
ITU Workshop on “Smart Sustainable Cities in Latin America” (São Paulo, Brazil, 30 July 2013) Smart City & Technologies Session 4: Adopting a holistic approach and promoting long-term sustainability goals Alexandre Jann Marketing & Strategy General Manager NEC Latin America alexandj@nec. com. br São Paulo, Brazil, 30 July 2013
Topics Smart City Concept Arenas (PPP) Cidade da Copa (Smart City Pernambuco State) Technology (environment) Disaster Prevention Energy São Paulo, Brazil, 30 July 2013 2
Smart City (Concept) Urban area that creates economic development and high quality life based on a knowledge infrastructure supported by Technology (ITC), Processes, Citizens, Government. . . “agradável” “segura” “eficiente” “sustentável”
Arenas ICT System Integrator (NEC) Constructors, Arena Operators, Vendors Focused on “Beyond World Cup 2014” PERNAMBUCO NATAL (DUNAS) PPP PORTO ALEGRE (GRÊMIO) PPP CURITIBA (ATLÉTICO) Soccer Team SALVADOR Constructors (PPP or Private owners) Technology Vendors OAS BEYOND FIFA SPECS Main Players Arenas Operation System Integrator PPP TECH & COST BALANCE
Smart City – Cidade da Copa
Smart City – Cidade da Copa 1 st Smart City in Latin America • • Planned from the outset Balance between urban development and the conservation of natural resources. Aligned with the public policies of the Pernambuco State Government new urban center will provide leverage for the development of the West Recife metropolitan area, creating Brazil’s greatest World Cup legacy. Planned City (Smart from the scratch) Urban Development & Technology Security Mobility Environment
Smart City – Cidade da Copa
DISASTER PREVENTION Page 8
Disaster Prevention Flood & Landslide “Enchentes e Deslizamentos” Water Level Meter (ultrasonic) Sensors + Procedures
SMART ENERGY Page 10
Electric Vehicles - Concepts Charging Models USA • Americans drive an average of 13, 476* miles per year, or 37 miles a day (60 km/day) Page 11 Urban Vehicles: • Residential charge (less than 8 h night time) • Quick Charge stations (~ 30 minutes) Attractiveness: • • • Price/Km Miles/charge “autonomia” Zero Emission *FHA (US Dep Transp)
Electric Vehicles - TCO “BEV-100″ (Battery-Electric with 100 -mile range, a. k. a. the Nissan Leaf) to be the least expensive option even at high electricity prices ($0. 14/kwh) and low gas prices ($3/gallon). However, the Leaf only has a clear lead when the $7500 tax credit is taken into account PIKE Research (USA) The other vehicles in the chart are (from left to right): • A conventional car with a 4 cylinder, 2. 4 liter engine • A flex-fuel vehicle (FFV) with a 4 cylinder, 2. 4 liter engine • A car with a four cylinder diesel engine. • The diesel car running on Biodiesel. • A conventional car (same engine) with start-stop technology which turns off the engine when the car is stopped. • A mid-sized hybrid-electric vehicle with a 2. 4 liter engine. NISSAN LEAF Page 12
Lithium Ion Storage - Residential Launched as Commercial Service over the Cloud (Japan, July 2012) For reducing electricity consumption during peaks (higher prices), renewable generation storage (ex: PV), blackouts protection, Energy selling (Home to Grid). Storage & Energy Management System Page 13
- Slides: 13