Multi-use scenarios for energy management systems: multiple benefits from one investment

Traditional energy management systems usually focus on individual tasks such as peak shaving or self-consumption optimization. Modern systems, on the other hand, enable the parallel use of different applications:

• Peak shaving at times of high load

• PV self-consumption optimization when the sun is shining

• Emergency power operation in the event of a grid failure

• Intelligent charging management for e-vehicles

• Participation in flexibility markets during off-peak times

Intelligent control is at the heart of modern energy management systems and enables an optimal combination of different applications. Time optimization plays a central role here, with battery storage systems being used specifically for peak shaving during peak load times, while the focus is on optimizing self-consumption during sunny hours. In times of low load, valuable grid services can also be provided.

The dynamic distribution of the available storage capacity and intelligent prioritization of different applications ensures continuous real-time adaptation to current requirements. This sophisticated control strategy leads to a maximization of the total return through parallel usage scenarios, while at the same time achieving optimal utilization of existing resources and opening up new sources of revenue.

Industrial companies:

• Peak load capping to optimize grid charges

• Maximizing self-consumption of the PV system

• Emergency power operation for critical systems

• Integration of charging systems for the company fleet

Commercial properties:

• Optimization of energy procurement costs

• Integration of e-mobility

• Control of air conditioning and heating

• Marketing of flexibility

Logistics centers:

• Management of e-charging infrastructure

• Integration of cooling systems

• Optimization of PV usage

• Emergency power supply for critical systems

The successful implementation of multi-use applications is based on a well thought-out technical infrastructure, which is divided into three central areas. The foundation is a highly developed intelligent control system that combines real-time capable controller systems with self-learning algorithms. This is supplemented by flexible prioritization models and a robust communication infrastructure that ensures reliable coordination of all system components. The second important building block is high-performance energy storage systems, which are characterized by their high cycle stability and fast response times. They enable flexible power output and are continuously optimized by reliable monitoring systems. The third essential aspect is a modular system architecture that guarantees a high degree of future-proofing thanks to its scalability and standardized interfaces and can be expanded with new functionalities at any time.

Multi-use concepts offer multiple economic benefits:

1. direct cost savings:

• Reduced grid charges through peak shaving

• Optimized energy procurement costs

• Maximized PV own use

2. additional revenues:

• Marketing of flexibility

• Participation in balancing energy markets

• Remuneration for grid services

3. improved amortization:

• Faster return on investment through multiple use

• Optimized utilization of system components

• Reduced investment costs per use case

Modern energy management systems with multi-use functionality represent a paradigm shift in the energy industry. They surpass the mere addition of individual applications through their intelligent integration and needs-based prioritization of different functions. These systems not only create a new dimension of economic efficiency in energy storage and management solutions, but also pave the way for innovative business models of the future. Investing in a future-proof energy management system with multi-use functionality is therefore proving to be a strategically wise decision that combines both short and long-term benefits. Due to the continuous development of technology and the increasing importance of flexible energy solutions, these systems will play a key role in the modern energy industry.