
Xinjiang, China
Project Scale:
Current Scale: 22 units of 120kW Motion Fast DC chargers have been deployed across 7 sites, equipped with a 200kWh energy storage system and supporting solar carports.
Long-Term Plan: The project is slated to expand to 27 sites with a total deployment of nearly 400 chargers, over one-third (>130 units) of which will be 120kW fast-charging stations.
Project Products:
Livoltek MotionFast DC Charging Station

Project Details:
Tailored to Huyang City’s abundant solar resources and its overlapping extreme climate—characterized by an annual average temperature of 6.5°C, winter lows of -27.7°C, summer highs of 42.4°C, and sharp diurnal temperature variations—this project innovatively deploys integrated comprehensive energy stations combining “PV generation, energy storage buffering, and DC fast charging.” Phase I has completed demonstration units across 7 sites, integrating solar carports, battery energy storage systems, and 120kW DC fast chargers. Driven by an intelligent EMS, the system achieves self-consumption of PV generation, surplus energy storage, off-peak electricity utilization, and delivers fast, stable green power for electric vehicles. The entire system design fully accounts for equipment stability and operational efficiency under extreme temperatures.

Customer Pain Points:
Extreme Environmental Challenges: Xinjiang’s bitter cold, scorching summer heat, and dramatic diurnal temperature swings pose severe tests to the stability, reliability, lifespan, and operational efficiency of charging infrastructure and other energy equipment.
Inadequate Charging Infrastructure & Deployment Demands: As new energy vehicle (NEV) ownership rises, public charging networks face gaps in coverage and a low proportion of fast-charging options, falling short of users’ needs for convenient and rapid charging.
Demonstration & Replicability Requirements: There is a critical need to build a verifiable, highly visible, and scalable sustainable transport-energy solution model capable of thriving under specific geographical and climatic conditions.
Project Value:
Proven Adaptation to Extreme Environments: It successfully validates the robustness, reliability, and high efficiency of Livo’s turnkey solutions under harsh climatic conditions, providing a critical empirical case study for replicating green infrastructure across high-cold and high-heat regions.
Building a Stable and Efficient Green Microgrid: Through the “PV + Storage” combination, the project achieves localized production, buffer storage, and intelligent dispatch of clean energy. This mechanism not only smooths grid fluctuations and lowers electricity costs but also secures a stable energy supply for charging services.
Accelerating Regional Green Transportation: By directly planning and deploying a large-scale, high-efficiency charging network (featuring 120kW fast chargers), the project effectively alleviates charging anxieties and strongly supports the local adoption of new energy vehicles and the transition to green mobility.
Enhancing Integrated Energy Efficiency: The intelligent EMS achieves coordinated optimization across solar, storage, charging, and the grid, maximizing the utilization of green PV power while boosting both the economic viability and environmental benefits of the entire energy system.
High Demonstration Value & Strategic Scalability: This project establishes a benchmark that integrates technological verification, operational demonstration, and ecological synergy. Beyond serving the local community, it acts as a “lighthouse” for Livo’s solutions in specialized markets, carrying immense industry influence and replication potential.





