1. One-Stop Solution for Green Energy power plants
Batavia Ltd. cooperates with global players specialized in Industrial Automation and Test and Measurement solutions that combine superior technology with engineering solutions, project management, and maintenance.
Further, Batavia has direct access to the top European Green Energy Investment Funds, which have an aggregate investment portfolio of over 10 billion Euro.
Our Turn-Key Solution comprises of:
Preparing the blueprint for the digital power factory, i.e. a state-of-the-art power plant.
This blueprint details the customer’s user requirements and the key specifications for plant automating, safety, cybersecurity and digitalization. The blueprint is typically prepared in the early stage of the project and remains agnostic.
Acting as Main Automation Contractor (MAC), responsible for the entire automation part of the power plant.
Supplying instrumentation, control systems, and smart manufacturing solutions support operation and maintenance management.
Arranging funding for the development costs of the power plant.
2. Innovative Compressed Air Energy Storage
For renewable energy to be viable in the long term, excess power needs to be stored for later use. This requires a system with a large storage capacity to meet customers’ demands, and this is especially required when the production of the windmill parks is higher than the demand for electricity.
Batavia has direct access to the technique of Compressed Air Energy Storage for the storage of excess energy.
This technique uses the underground space left by salt solution mining, called salt caverns, with the technology of Pumped Hydro Storage (PHS), resulting in a system that can store energy with minimal construction, minimal surface impact, and minimal investment costs.
The salt formation itself actually provides the most advantageous form of storage because it actually is fairly tightly packed so there is not a lot of leakage of the air. It sort of bends and expands as you inject and extract the air.
This technique enables companies that have the above-ground technologies to supply electricity at a grid scale to join forces with a company that has the below-ground technologies necessary to store energy at a utility-scale.
At charge, electrical energy is stored in mechanical form by compressing air, and stored in (commonly) salt caverns. At discharge, electricity is regenerated by using the compressed air to drive a turbo-expander/turbine.
Typically, the power range of CAES systems is between 100-500MW, and the duration over which this power can be delivered ranges from hours to a day, i.e., they operate on intra-daily to daily cycles.
Geomechanical numerical simulations that were done in this project show that the pressure and temperature effects of this fast-cyclic injection and withdrawal of air do not jeopardize cavern stability and integrity.
Batavia has direct access to the technique of Compressed Air Energy Storage for the storage of excess energy.
Note: Do not hesitate to contact us if you have the tailor-made puzzle piece for either of the above investment opportunities!
