Hydrogen systems for the home
Already have the energy future at home. Hydrogen systems for small properties enable a high level of energy self-sufficiency and offer expansion options in the future.
The availability of hydrogen in every household is a vision of the hydrogen economy.
The first systems for private properties are already being implemented today. By generating green electricity with a PV system, the storage can be filled in summer. This hydrogen serves as fuel for the fuel cell in winter. This supplies the system with the necessary electricity when the PV output is low.
The integration of a hydrogen system enables a holistic networking of the energy system. Photovoltaic systems whose EEG support ends have the potential to channel their excess electricity into electrolyzers. These convert the electricity into hydrogen, which can be used as a sustainable energy source.
The first systems for private properties are already being implemented today. By generating green electricity with a PV system, the storage can be filled in summer. This hydrogen serves as fuel for the fuel cell in winter. This supplies the system with the necessary electricity when the PV output is low.
The integration of a hydrogen system enables a holistic networking of the energy system. Photovoltaic systems whose EEG support ends have the potential to channel their excess electricity into electrolyzers. These convert the electricity into hydrogen, which can be used as a sustainable energy source.
Already have the energy future at home. Hydrogen systems for small properties enable a high level of energy self-sufficiency and offer expansion options in the future.
Have the future at home
Be a pioneer in the energy transition with a hydrogen energy system
Modular and scalable
MSR hydrogen systems can easily be expanded in the future
Photovoltaik
- Primary energy generation via PV modules
- Energy consumption coverage
- Use of excess electricity for hydrogen production
- Enabling energy self-sufficient supply systems
Elektrolysis
- chemical splitting of water (H2O) into hydrogen (H2) and oxygen (O)
- 2 H2O → 2 H2 + O2
- Different processes:
- PEM electrolysis
- AEM electrolysis
- AEL electrolysis
- Chlorine-alkali electrolysis
Fuelcell
- Energy conversion: Conversion of hydrogen into electrical energy
- Fuel cells with high efficiencies of up to 70%.
- no emissions: Fuel cells only generate water and heat as byproducts
- Control range: flexible control according to consumption requirements
Battery
- Short-term power storage using battery technology
- Extremely high efficiencies
- Day-night balance
- Optimization of the self-consumption rate and energy autrakia
- Buffer storage for electrolysis and fuel cell operation
Hydrogen condensing boiler
- 100% hydrogen condensing boiler
- Innovative building heating
- Heat supply 100% regenerative
- Easy integration into heating system by replacing the natural gas boiler
Explosion protection zone
- Establishment of an EX-protection zone
- Gas warning system
- Average fan
- automated emergency shutdown
Smart Meter
- Recording of the energy flows
- Live data acquisition
- Data processing in EMS
- Plant optimization
- Analysis of the economic efficiency & plant parameters
Hydrogen bundle storage
- Storage of hydrogen in compressed gas cylinders
- Maximum flexible
- scalable
- 700 bar
- Modular
Heat pump
- Base load coverage with heat pump
- Supply via RES-E
- High efficiency
- Flexibly controllable in the overall plant system
Control cabinets
The heart of building automation is the I&C control cabinets.
Smart connectivity
An intelligent system for controlling all relevant components in buildings.
Approval process
We understand the complexities involved in the permitting process for hydrogen projects and pride ourselves on being able to successfully overcome these challenges.
Component compatibility
The complexity of an energy system for storing electricity and hydrogen is high. We work with a large number of manufacturers for various components in order to develop an optimal overall system from the best individual modules on the market. The interfaces of the different units pose a challenge, which we can effectively solve with the integration of the higher-level energy management system.
Funding acquisition
Thanks to our experience, we know which funding opportunities exist and which contact to address. In addition, we regularly explore new opportunities for application-related funding.
Real estate sector
Residential neighborhoods, blocks of houses and apartment buildings can be optimally supplemented with hydrogen energy systems
Homeowner
Innovative homeowners make themselves independent by integrating hydrogen systems
Initial consultation
Analysis of the current situation
Funding acquisition
Feasibility studies
Simulation
Detailed Engineering
Permits
Market analysis
Tenders
Selection of components
public relation
Construction support
Installation
Monitoring of plant operations
Further development
The results of the simulation calculation proved that a self-sufficient supply of the property is possible using the appropriate storage technologies and pressures. During the course of the project, it became clear that the customer has a very high affinity for hydrogen technology.
Alexander Kapsch
Projectmanager
The island operation of the energy supply distinguishes this hydrogen plant. The customer wanted the power supply to be maintained in the event of a blackout to ensure plant availability. We were able to relieve him of this concern with the hydrogen energy storage system.
Moritz Partenfelder
Projectmanager
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