Planning for EV fleet rollout: Experiences from the Netherlands

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Planning for EV fleet rollout: Experiences from the Netherlands Bibi Fabius Birmingham, 11 December 2018

Agenda 1. EVConsult & our work 2. Electric buses in the Netherlands 3. E-buses: what s new? 4. Case: Province of Utrecht 5. Recommendations 2

EVConsult & our work

About EVConsult Our mission: accelerate the transition towards 100% zero-emission mobility Strategy, project management and research & innovation Unique expertise in global field of e-mobility 10 years of experience in over 200 e-mobility projects Growing team of 25+ experts (technical, economic, legal) Based in Amsterdam, Antwerp and London Worldwide network of partners 4

About EVConsult Experience UKPN Mitsubishi Chargepoint planning Premium OEM (NDA) International case studies Smart charging models Market research of major CPOs and OEMs Insights in business models, objectives and customer Insight in expected demand for chargers Develop and contract the home charging proposition 5

Electric buses in the Netherlands

Electric buses worldwide The global fleet of electric buses now totals around 385,000 vehicles NL: 361 EU: ~ 1,560 China: ~380,000 7

Electric buses in the Netherlands 400 350 361 300 250 200 150 100 80 50 0 2014 2015 2016 2017 2018 Source: www.evmonitor.nl 8

Electric buses in the Netherlands Zero-Emission Bus Agreement (2016) 2025: all new public buses Zero-Emission 2030: all public buses Zero-Emission 9

Electric buses in the Netherlands E-buses are past pilot phase City of Eindhoven First full electric bus fleet in Netherlands 43 full electric 18m buses City centre and suburban area Total km driven/vehicle/day: 200-300 km Depot charging with pantograph Start of operation: March 2017 10

Electric buses in the Netherlands E-buses are already commercially-viable Amstelland-Meerlanden incl. Schiphol 100 full electric 18m buses Europe's largest electric bus fleet in operation Gate & city transport Total km driven/vehicle/day: >300 km 4 strategic charging points (450 kw pantograph) 11

Electric buses in the Netherlands E-buses are already commercially-viable Provinces of Groningen & Drenthe 159 full electric, 22 hydrogen-powered buses City & regional transport Opportunity charging with pantograph Start of operation: December 2019 12

E-buses: what s new?

E-buses: what s new? New stakeholder in public transport Public Transport Authority (PTA) Municipality Public Transport Operator (PTO) Distribution System Operator (DSO)

E-buses: what s new? Cooperation at an early stage is essential Public Transport Authority (PTA) Distribution System Operator (DSO) Public Transport Operator (PTO) Municipality 15

Case: Province of Utrecht

Goals 2013 3 electric buses 2017 + 10 electric buses December 2019 + 55 electric buses Planning (long term): 100% electric buses in 2024 17

The triple layered model Model to develop a sustainable charging network Transport demand Urban planning Charging configuration Potential charging locations Grid impact Costs Feasibility Electricity grid 18

The triple layered model Layer 1: develop charging scenarios Define current and future routing Analyse charging scenario's (overnight and OC charging) Define configurations of buses, batteries and chargers Scenario Battery size # e-buses Chargers at end stops Chargers at depot 1. Opportunity charging 100 kwh 11 2x 300 kw 11x 30 kw 2. Opportunity charging 340 kwh 11 2x 150 kw 11x 80 kw 3. Overnight charging 570 kwh 11 0 11x 150 kw 19

The triple layered model Layer 2: urban planning Room in public space Bus route Landscaping 1 or multiple PTOs Scalability Location transformer? 20

The triple layered model Layer 3: grid connection Check with DSO: Current grid capacity and needed capacity for charging Expected need for capacity in future Distance of charging location to the grid 21

The triple layered model Cost comparison over the entire value chain Medium voltage switch Transformer Charger MS-net Charging pole Pantograph + e-bus Cost comparison over the entire value chain 22

Total Cost of Ownership [miljoen ] The triple layered model Result cost comparison 1,6 Lijn 7 - Kostenvergelijking varianten (TCO/jaar) 1,46 1,47 Grid connection & charging infrastructure Maintanance buses 1,4 1,2 1,0 0,8 0,6 0,4 0,2 1,05 0,98 0,10 0,31 0,20 0,07 0,09 0,35 0,56 0,32 0,01 0,02 0,13 0,16 0,20 0,20 0,01 0,07 0,02 0,07 0,11 0,12 0,93 0,89 0,01 0,01 Electricity / diesel consumption Design bus stop Grid connection incl. transformer station Charging infrastructure Buses incl. battery 0,0 Diesel OC 100 kwh, 300 kw OC 340 kwh, 150 kw Overnight 570 kwh Dieselbussen OC 100 kwh, 300 kw OC 340 kwh, 150 kw Overnight, 570 kwh Afschrijving bussen (incl. accu) Afschrijving laders, masten en pantografen Afschrijving netaansluiting (incl. compact) Afschrijving haltekom & leidingen Periodieke kosten elektriciteit- of dieselverbruik Periodieke kosten onderhoud bussen Periodieke kosten laders, netaansluiting en compactstation 23

The triple layered model 7 6 8 Results 5 4 Insight in: Charging configuration Potential locations Grid impact Costs Feasibility 2 12 11 1 3 9 10 24

Recommodations Gain knowledge upfront about e-buses and charging infrastructure Start discussions at an early phase: cooperation between stakeholders is essential Develop a strategy including all three layers and their interests 25

Questions?

Contact Amsterdam Overtoom 60-4 1054 HK Amsterdam +31 6 52 66 30 32 r.steinmetz@evconsult.nl Antwerpen Mechelsesteenweg 271 Bus 1.1 2018 + 32 4 99 51 66 33 info@evconsult.be London 13 Blackburn Road, Suite 5 London. NW6 1RZ + 44 7754 318 626 k.house@evconsult.uk www.evconsult.nl

E-buses: what s new? New technology and opportunities for PTO Technique Educating drivers and mechanics Costs Different cost structure, infrastructure, investment Scheduling Driving routes, charging locations, charging time Charging infrastructure TCO (cost) and practical implications New business models Purchasing & selling energy

State of charge accu 100% Laadprofielen per variant 90% 80% 70% 60% 50% 40% 30% 20% 10% 0% Start rit min SOC: 15% Einde rit OC variant met klein accupakket en laders met hoog laadvermogen (max. 600 kw) OC variant met groot accupakket en laders met laag laadvermogen (max. 300 kw) Overnight charging variant (met of zonder buswissel) 29

E-buses: what s new? You ask for this: But also get this: 30

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