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At Sener, we design and implement energy storage and management systems that enable the penetration of renewables without compromising grid stability or energy security. Our expertise covers the entire lifecycle —from feasibility analysis to operation— for BESS (Battery Energy Storage Systems), thermal and hybrid storage, as well as the digital tools that optimize their operation in real time.
Our goal is to turn storage into a strategic enabler of decarbonization: reducing curtailment, stabilizing networks, and improving plant performance through precise modeling, predictive control, and integrated operation of all assets.
We design hybrid plants that combine photovoltaic, thermal, biomass, hydrogen, and storage technologies under a single operational strategy.
Using our in-house tools —SENSOL+ and EMS (Energy Management System)— we simulate operation, optimize plant sizing, and define control logics that adapt to market conditions.
This integrated approach allows investors and operators to maximize revenues, extend asset lifetime, and maintain stability even in intermittent or isolated grids.
We bring together multidisciplinary expertise in power cycles, process engineering, and digital systems with deep knowledge of storage technologies —electrochemical, thermal, and hybrid— to deliver complete, safe, and reliable solutions.
Our teams design dispatchable generation systems that incorporate batteries, molten-salt tanks, or hybrid configurations, managing every phase from conceptual and basic engineering to EPC and commissioning.
Sener’s experience across renewable generation, hybridization, and digital control enables clients to rely on systems that are efficient, scalable, and compliant with grid and market requirements.
We start by assessing site conditions, load profiles, and market signals to define the optimal configuration of the storage system.
Through our EMS, we model operation using predictive algorithms that combine generation forecasts, market prices, and degradation models to find the best trade-off between performance, cost, and reliability.
Whether in utility-scale hybrid plants, industrial microgrids, or off-grid infrastructures, we integrate renewable sources with storage and dispatchable assets to maintain continuous, profitable operation.
Sener has delivered thermal, battery, and hybrid storage systems for projects across Europe, Africa, and Latin America, integrating mechanical, electrical, process, and safety engineering with digital control architectures.
Our track record includes thermal energy storage for CSP plants such as Gemasolar, NoorO, and Kathu, as well as battery-based and hybrid microgrids that combine renewable generation, hydrogen, and advanced control to ensure grid stability and energy security.
We provide consulting, design, and operation support for dispatchable generation plants and storage infrastructures. Our experience ensures that every project —from hybrid PV-storage systems to complex multi-energy hubs— achieves technical robustness, financial viability, and long-term sustainability.
At Sener, we engineer hybrid, dispatchable storage that delivers flexible, reliable, low-carbon power.
