- DC fast charging technology for 34 buses at depots in Christchurch and Auckland with an overall power capacity of around 3.7 Megawatt
- Flexible charging systems to easily expand the infrastructure and adapt to future battery voltage levels of up to 1,000 Volt
- Integration with one of the world’s major bus suppliers Yutong
Siemens Smart Infrastructure received an order from Go Bus, one of New Zealand’s largest bus operators, to power two of their bus depots with charging infrastructure for eBuses. The order fulfils two separate Go Bus contracts in Auckland and Christchurch. In Christchurch, 25 electric buses, the city’s first large-scale electric bus fleet, will be charged by Siemens systems. In Auckland, the systems will charge nine buses that will operate on a new electric airport link. The operations are scheduled to start early in 2021.
New Zealand already boasts more than 80 percent renewable electricity generation. To further drive decarbonization, one major lever is the electrification of the transport sector, representing 36 percent of energy use in New Zealand. The city of Auckland, for example, aims to have a full zero emission bus fleet by 2040.
“As a national bus operator, Go Bus needs to be agile and adapt to many fast-moving changes when transitioning to electric bus transport,” said Calum Haslop, CEO of Go Bus. “It’s also important that any investments we make now, take into account rapid advances in battery technology and digitalization. Siemens’ independent charging infrastructure and management software provides us with the most future-proof solutions and flexibility.”
The Siemens Sicharge UC range grants bus operators optimal flexibility when planning electric bus depots, by providing highly efficient infrastructure that is designed to be future proofed against rapid advances in battery technology. It also enables bus operators to economically expand charging infrastructure with up to five dispensers plus a pantograph per charging centre.
Jeff Connolly, CEO of Siemens Australia Pacific and head of Siemens’ Smart Infrastructure portfolio in the region said, “We’re proud to see our technology play a pivotal part in fulfilling New Zealand’s low carbon future. It’s critical to have a long-term view of transport infrastructure – one that centers around the effective and efficient use of the right technology and seamless movement of people.”
The charging system in the Christchurch depot will consist of 12 Sicharge UC 200 Charging Centers with dispensers powering 25 parking spaces with up to 200 kilowatts (kW). In Auckland, there will be five of these systems as well as two Sicharge UC 100 stations with a charging power of up to 125 kW, supplying a total of nine eBuses. Both solutions provide plug-in depot charging, according to CCS standard, overnight or for top-up charging between scheduled bus services during the day. The Sicharge UC family supports battery voltages from 10 Volt (V) up to 1,000 V. Current eBuses available in the New Zealand market average between 600 to 700 V, but future bus batteries are expected to use higher voltages to enable faster charging. Additionally, the charging system uses open communication standards as Open Charge Point Protocol (OCPP) to interact with different backend software, for example for charging management.
The reporting and monitoring function of Siemens’ charging management software will enable Go Bus to centrally monitor all charging infrastructure across two cities and easily report on key metrics including electricity savings. Smart management functionality will also enable Go Bus to schedule charging to take advantage to lower overnight tariffs while ensuring that individual buses have reached the desired state of charge by the time they are needed for the next day’s operations.
— Photo copyright: JW Diesel
For more information about Siemens Smart Infrastructure, see http://www.siemens.com/smart-infrastructure
For more information about the Sicharge UC charging system, please visit http://www.siemens.com/sichargeuc