Development of an innovative system for managing the energy mix balance in isolated and partially isolated systems using the FuzzyTR fuzzy power mode model
Beneficiaries:
Tymbark-MWS Sp. z o. o.
Lublin University of Technology
The project covers the implementation of two modules: R&D and Greening of Enterprises, in the period 01/01/2025 – 31/12/2027.
R&D module
1. Tasks performed within the module:
The R&D module consists of a series of tasks whose common axis is to obtain the most accurate understanding of internal power and energy demand profiles, capturing their dynamics and dependencies on the plant's core operational activities. A parallel area of the R&D team's activities is to identify the characteristics of managed energy sources and to adapt their functionalities so that the developed digital model of the plant ensures the stability of the plant's internal energy balance and allows for active management of power availability constraints resulting from external conditions.
2. Purpose of the module:
Development of a process innovation enabling increased energy flexibility and energy security of the plant.
This goal will be achieved by developing a dedicated PryzmaT EMS system.
3. Module result:
A method of managing the plant's energy mix by using the FuzzyTR fuzzy model in auto-balancing the internal supply and demand for electricity.
Enterprise Greening Module:
1. Tasks performed within the module:
The Enterprise Greening module consists of 1 task, within which the modernization of the cogeneration system is planned.
2. Purpose of the module:
The direct goal of the Greening of Enterprises module is to more effectively use the energy contained in high-methane natural gas through combined production in a high-efficiency cogeneration system.
This goal will be achieved by modernizing the cogeneration system.
Objectives of the Greening of Enterprises module:
The direct objective of the Greening of Enterprises module is to use the energy contained in high-methane natural gas more efficiently through the production
in combination in a high-efficiency cogeneration system.
This goal will be achieved by modernizing the cogeneration system.
3. Module result:
The direct result of the module implementation will be an installed power of 2,099 kW:
- 999 kW of electrical power,
- 1100 kW thermal power.
Project value: PLN 18,949,581.12
Funding Value: PLN 9,546,463.82