Energy Storage – BESS

Structuring generation, transmission, and energy solution projects with a focus on technical, financial, and regulatory feasibility.

Energy predictability, economic efficiency, and operational safety

Battery energy storage has become a key tool for reducing costs, enhancing grid reliability, and enabling the integration of renewable sources. When properly structured, a BESS goes beyond being mere equipment and becomes a strategic asset, capable of delivering operational, financial, and systemic benefits for both industrial clients and utilities.

What We Deliver

• Definition of the BESS use case (peak shaving, tariff arbitrage, backup, solar integration)

• Technical sizing of the system (MW / MWh) according to load profile and criticality

• Electrical integration with generation, grid, and industrial loads

• Economic and financial modelling, including CAPEX, OPEX, and ROI analysis

• Structuring of the asset’s operational and contractual model

• Connection with global technological solutions for batteries, PCS, and control systems

Typical Benefits

• Industry: up to 30–35% reduction in energy costs and 40–50% reduction in demand peaks

• Utilities: up to 25% improvement in system flexibility and stability

Integrated Energy Solutions

Infrastructure projects with integrated management, risk analysis, and coordination of multiple technical and operational workstreams.

Energy architecture designed to deliver value throughout the entire asset lifecycle

Fragmented energy projects create inefficiency, risk, and value loss. Integrated solutions, combining generation, storage, consumption, and energy management, enable smarter decisions, structural cost reduction, and greater operational and financial predictability throughout the asset’s lifecycle.

What We Deliver

• Design of integrated energy architectures (solar + BESS, hybrid systems, consumption optimization)

• Technical, regulatory, and economic feasibility studies

• Conceptual engineering and system architecture definition

• Project financial structuring and business model evaluation

• Operational model definition and implementation support

• Connection with global equipment suppliers and EPC contractors

Typical Benefits

• Industry: up to 20% reduction in CAPEX and 15–20% improvement in OPEX

• Utilities: increased dispatch predictability and reduced operational risks

Hydrogen and Ammonia

Engagement in oil and gas projects with a strategic approach, technical integration, and structured governance.

Technical and economic structuring for new energy vectors

Low-emission hydrogen and ammonia represent a structural shift in the energy and industrial sectors. However, the viability of these projects relies on sound technical decisions, integration with renewable sources, and robust economic models that enable scalability and competitiveness.

What We Deliver

• Assessment of the most suitable technological route for the project

• Integration with renewable sources and existing electrical systems

• Conceptual plant engineering (electrolyzers, compression, storage)

• Economic feasibility analysis and financial structuring

• Definition of the operational and scaling model

• Connection with industrial solutions and global technologies for pilot and industrial projects

Typical Benefits

• Industry: up to 50–60% reduction in emissions for energy-intensive processes

• Structuring Projects: access to rapidly growing markets and attraction of investment

Biogas and Biomethane

Development of sustainable projects focused on energy recovery, economic viability, and regulatory compliance

Renewable energy with direct waste-to-value monetization

Waste-to-energy conversion represents a tangible opportunity for cost reduction, revenue generation, and progress on the environmental agenda. Well-structured biogas and biomethane projects turn environmental liabilities into energy and financial assets.

What We Deliver

• Assessment of the energy potential of the waste

• Definition of the most efficient route (biogas, biomethane, electrical or thermal use)

• Conceptual engineering and system sizing

• Economic modelling and project financial structuring

• Definition of the operational and commercialisation model

• Connection with global digestion and purification technologies

Typical Benefits

• Industry / Agriculture: up to 85–90% energy recovery from waste and 25–30% reduction in energy costs

• Utilities: diversification of renewable supply and emissions reduction

Waste Monetization

Sustainable energy solutions, agricultural waste reuse, and biogas power generation projects, turning waste into clean, efficient, and renewable energy.

From Environmental Liability to Economic Asset

Industrial waste monetization requires more than technology: it demands engineering, economic insight, and proper project structuring. When executed effectively, these projects reduce costs, mitigate environmental risks, and create new sources of value for operations.

What We Deliver

• Technical and energy analysis of the waste

• Definition of the most efficient technological route

• Project structuring from technical, financial, and operational perspectives

• CAPEX, OPEX, and economic return modelling

• Integration with existing industrial processes

• Connection with global conversion and reuse solutions

Typical Benefits

• Industry: up to 60–70% reduction in waste volume sent for disposal

• Operations: generation of new revenue streams or significant OPEX savings

The Synaptca Approach

Regardless of the sector, Synaptca operates as an integrating platform, coordinating strategy, technology, engineering, and execution to ensure solid, efficient, and scalable projects.