Increase self-consumption strategically

Reduce energy costs. Maximize on-site renewable generation. Unlock flexibility.

Many industrial and commercial sites already generate electricity from renewable sources. However, generation and consumption often do not align in time. Surplus energy is fed into the grid, while electricity is purchased at other times. With battery storage, self-consumption optimization enables you to maximize the use of your on-site generation and significantly reduce grid imports.

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When self-consumption becomes an economic lever

The framework conditions for self-consumption have changed significantly. Feed-in tariffs are declining, while electricity prices and grid charges are rising and becoming more volatile. At the same time, the pressure to improve energy efficiency and sustainability is increasing.

In many companies, the timing of on-site renewable generation does not match actual demand. Surplus energy is fed into the grid, while electricity is purchased at other times. Without behind-the-meter flexibility, this potential remains unused.

The key question is:
How can self-generated electricity be used most efficiently instead of being fed into the grid or replaced by costly grid electricity?

Unused energy surplus

On-site generation and consumption are not aligned.

High grid electricity consumption

Significant volumes of electricity are still imported from the grid despite on-site generation.

Declining feed-in revenues

Feeding electricity into the grid is becoming increasingly uneconomical.

Lack of flexibility

Without battery storage, generation and consumption cannot be actively optimized.

Battery storage as a key enabler for self-consumption optimization

Battery storage systems enable surplus electricity to be stored and dispatched when it is needed on-site. This increases self-consumption while reducing grid electricity imports.

INTILION does not view battery storage as a standalone solution, but as part of an integrated energy system. With the proprietary IAU energy management system, storage assets are intelligently controlled and seamlessly integrated into existing energy infrastructure. This allows battery storage to serve multiple applications simultaneously, such as self-consumption optimization, peak shaving, and further optimization strategies.

Each system is designed on a project-specific basis, taking into account real load profiles, generation characteristics, and economic objectives.

Your benefits at a glance:

Maximize self-consumption of on-site renewable energy
Reduce grid imports and energy costs
Improve the economic performance of your energy system
Enable automated and optimized system operation
Future-proof your setup with scalable system design

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Electricity storage in front of photovoltaic system to optimize self-consumption

How INTILION supports companies

Optimizing self-consumption requires more than just a storage system. Intelligent control and systemic integration into existing energy flows are crucial.

INTILION supports companies in the analysis, design and integration of large-scale battery storage systems and control units. With the INTILION IAU control system, we create the basis for flexible use of the storage system across multiple applications.

INTILION does not supply photovoltaic systems and does not act as an electricity supplier. Our role is that of a system partner that brings together storage technology, control systems and operating concepts and creates a sustainable long-term solution.

How much self-consumption is possible at your location?

If you would like to increase your self-consumption and make your energy supply more economical, we will examine the potential at your location together.
As part of a self-consumption analysis, you will receive an initial assessment, a rough storage logic and a well-founded statement on economic efficiency.

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