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    Value Proposition and Advantages
    Trinasolar is built on a distinctive value proposition and competitive strengths. Its value proposition centers on safety and reliability, high-efficiency returns, extended lifespan, and smart technology applications. These advantages are driven by technology innovation leadership, industry-leading development capabilities, full lifecycle smart management, and precision solutions—advancing the global energy sector.
    Industry-leading cash flow position
    Superior asset management capabilities
    Sustained robust financial capacity
    Enduring strategic partnerships with globally renowned financial institutions
    Value Proposition and Advantages

    Value Proposition and Advantages

    Trina Solar is built on a distinctive value proposition and competitive strengths. Its value proposition centers on safety and reliability, high-efficiency returns, extended lifespan, and smart technology applications. These advantages are driven by technology innovation leadership, industry-leading development capabilities, full lifecycle smart management, and precision solutions—advancing the global energy sector.

    Industry-leading cash flow position
    Superior asset management capabilities
    Sustained robust financial capacity
    Enduring strategic partnerships with globally renowned financial institutions
    Power Plant Development

    • Overseas Centralized PV Power Plant Development Regions

      San Jose, USA Mexico Bogotá, Colombia

      Santiago, Chile São Paulo, Brazil Madrid, Spain

      United Kingdom Toulouse, France Munich, Germany Zurich, Switzerland

      Rome, Italy Abu Dhabi/Dubai, UAE New Delhi, India

      Singapore Thailand Vietnam South Korea Japan Sydney, Australia

    • Domestic Centralized PV Power Plant Development Regions

      Xinjiang Gansu Qinghai Yunnan Inner Mongolia Shanxi

      Jiangsu Hebei Shanxi Ningxia Anhui

    San Jose, USA

    Mexico

    Bogotá, Colombia

    Santiago, Chile

    São Paulo, Brazil

    Madrid, Spain

    United Kingdom

    Toulouse, France

    Munich, Germany

    Zurich, Switzerland

    Rome, Italy

    Abu Dhabi/Dubai, UAE

    New Delhi, India

    Singapore

    Thailand

    Vietnam

    South Korea

    Japan

    Sydney, Australia

    Xinjiang

    Gansu

    Qinghai

    Yunnan

    Ningxia

    Shanxi

    Shanxi

    Inner Mongolia

    Anhui

    Hebei

    Jiangsu

    Power Plant Development

    • Overseas Centralized PV Power Plant Development Regions

      San Jose, USA Mexico Bogotá, Colombia Santiago, Chile São Paulo, Brazil Madrid, Spain United Kingdom Toulouse, France Munich, Germany Zurich, Switzerland Rome, Italy Abu Dhabi/Dubai, UAE New Delhi, India Singapore Thailand Vietnam South Korea Japan Sydney, Australia

    • Domestic Centralized PV Power Plant Development Regions​

      Xinjiang Gansu Qinghai Yunnan Ningxia Shanxi Shanxi Inner Mongolia Anhui Hebei Jiangsu

    Complexity, Convergence, and Expertise in Large-Scale Power Plant Development​

    Conventional Retrofitting​
    Multi-Energy Complementarity​
    ​​Incremental Power Distribution Networks​
    Flexibility Retrofitting​
    Generation-Grid-Load-Storage Integration​
    ​​Large-Scale Clean Energy Bases​
    Focusing on One-Stop Smart Energy Solutions for the New Energy Industry
    Industry-leading New Energy Power Operations Service Provider​
    Extreme Weather and Terrain
    Through adaptive technological innovation in extreme climates and complex terrains, we enhance the ​​reliability and cost-efficiency​​ of energy supply. For hazards including ​​hail, blizzards, and gale-force winds​​, impact-resistant components and intelligent protection strategies are deployed to ​​minimize asset losses​​ and ensure grid stability. Energy storage systems, engineered with ​​low-temperature endurance​​ and high-protection designs, operate reliably in plateaus, deserts, and other harsh environments. These systems support off-grid/microgrid power demands while reducing full lifecycle costs via ​​multi-energy synergy optimization​​.
    ​​Agrivoltaics (with Storage) Scenario​
    Agrivoltaics enables synergistic development of vertical land-use and eco-agriculture. Through optimized panel height and layout, it balances crop light requirements with power generation efficiency while enhancing soil moisture retention and reducing fertilizer usage. Flexible mounting structures integrated with storage systems adapt to orchards, croplands, and other settings—supporting mechanized farming operations and clean energy integration. This drives green transformation of rural economies while advancing ecological restoration and emission reduction targets.
    ​​Aquavoltaics (with Storage) Scenario​
    Aquavoltaics integrates photovoltaic power generation with aquaculture, utilizing water surfaces for clean energy production and fishery enhancement. Bifacial modules and corrosion-resistant engineering adapt to humid, high-temperature environments, suppressing algae growth while improving water quality. Flexible mounting structures minimize ecological disturbance from pile foundations and withstand typhoons. PV-storage coordination optimizes power dispatch, ensuring stable electricity for aquaculture and grid frequency regulation—propelling green economic circulation in coastal regions.
    Offshore PV Scenarioses​
    Through technological innovation, offshore photovoltaics overcome marine environmental constraints using ​​floating systems​​ and ​​salt-mist resistant module designs​​, adapting to scenarioses like coastal waters and nuclear plant thermal discharge zones. Enhanced by ​​weak-light performance​​ and ​​bifacial power generation​​, overall efficiency is increased. Energy storage systems integrated with ​​bionic liquid-cooling technology​​ ensure stable operation in high-temperature/humidity environments, supporting ​​off-grid/microgrid power supply​​. Such solutions alleviate land resource scarcity while enabling synergy between marine energy development and ecological conservation.