Pilots

Pilot 1 – Alba Iulia Bus Depot (Alba Iulia, Romania)

Alba Iulia is a mid-sized Romanian city with a continental climate featuring moderate summers and cold winters and known for its smart mobility strategy and modern public transport network. Its main bus depot serves ~50,000 daily passengers and operates 13 electric buses.

What’s Being Demonstrated

  • A BOZ e-bus equipped with semi-transparent and colored curved VIPV panels
  • A PV charging hub with DC–DC converter + battery storage
  • A 300 A fast charger feeding real-world performance and cost data

Objectives

  • Test VIPV performance for 6–8 months under real operating conditions
  • Optimize routes, PV charging, battery management, and grid interaction
  • Support scalable, city-wide adoption

Key Goals

  • Deliver 15–25% of the bus’s daily energy needs via VIPV
  • Evaluate visual impact and passenger acceptance
  • Demonstrate grid benefits such as peak-load reduction
sun trans objetive

Pilot 2 – ESHOT General Directorate, (Izmir, Türkiye)

Izmir is Türkiye’s third-largest city with over 4 million residents and a Mediterranean climate characterized by hot, dry summers and mild, rainy winters and a national leader in e-bus deployment. Its major depot handles ~1 million daily passengers and already uses rooftop solar powering parts of its charging network.

What’s Being Demonstrated

  • A BOZ e-bus with VIPV panels integrated into Izmir’s 20-vehicle electric fleet
  • A PV charging setup with battery storage and the AI-driven SUNTRANS platform

Objectives

  • Validate solar-assisted e-bus operations over 6–8 months
  • Improve energy efficiency through real-time solar charging
  • Provide cost–benefit data aligned with the city’s electrification strategy

Key Goals

  • Maximize solar-powered charging
  • Reduce operational and peak-load costs
  • Strengthen network resilience and cut CO₂ emissions

Pilot 3 – Bizkaigar Last-Mile Delivery Depot (Bilbao, Spain)

Bilbao, located in Spain’s northern Basque region, is a bustling urban center with around 350,000 inhabitants in the city proper and a temperate oceanic climate influenced by the nearby Atlantic. Bizkaigar operates medical-supply deliveries across the city with high-frequency stop-and-go routes.

What’s Being Demonstrated

  • A mini-EV fitted with VIPV panels, compared to a non-solar control vehicle
  • A compact PV charging hub with battery storage and AI-based fleet orchestration

Objectives

  • Validate 10–15% daily solar offset under real commercial delivery conditions (12 months)
  • Assess the business case for VIPV in last-mile logistics
  • Test grid-friendly charging strategies, including peak shaving

Key Goals

  • Demonstrate real cost savings
  • Prove resilience under heavy partial shading