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Efficient Design Tools for Energy Systems Control to Balance Demand and Supply

This solution provides an overview and tools to efficiently design or upgrade energy systems control systems to balance energy consumption, despite challenges such as multi-actor decision-making, technical uncertainty, and intermittent renewable energy generation.

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Efficient Design Tools for Energy Systems Control to Balance Demand and Supply

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  1. TEAM 11 STUDENTS 6 STUDY BACKGROUNDS

  2. CHALLENGE ENERGY CONSUMPTION OVERVIEW TOOLS TO EFFICIENTLY DESIGN OR UPGRADE ENERGY SYSTEMS CONTROL SYSTEMS TO BALANCE DEMAND AND SUPPLY

  3. ENERGY CONSUMPTION OVERVIEW • Multi-actor decision making: • Different impacts on each stakeholder • Incomplete performance data • Makes decision making difficult • Diverse range of developing technologies: • Implications/opportunities unknown • Uncertainty in grid planning

  4. ENERGY SYSTEM DESIGN • Technical uncertainty of micro-grids: • Lack of design tools • Limited grid capacity • Stand-alone operation of: • Building complexes • Systems inside the building

  5. AUTOMATED DEMAND RESPONSE • Mismatch between renewable energy supply and demand • Intermittent renewable energy generation • Lack of energy storage capacity • Lack of real-time electricity pricing • Lack of price sensitivity

  6. SOLUTION

  7. THE SOLUTION Energy Overview Dashboard Energy System Optimisation Energy Management Control System

  8. CAMPUSES, INDUSTRIAL PARKS, PORTS SPECIAL CASES: CENTRALISED DATA BULK CONSUMER MULTIPLE BUILDINGS MICRO-GRID

  9. OUR PRODUCT

  10. GAIN INSIGHTS INTO THE CAMPUS GRID

  11. GAIN INSIGHTS INTO THE CAMPUS GRID DESIGN AN ENERGY SCENARIO

  12. GAIN INSIGHTS INTO THE CAMPUS GRID OPTIMIZE SCENARIO AND OUTCOME DESIGN AN ENERGY SCENARIO

  13. GAIN INSIGHTS INTO THE CAMPUS GRID OPTIMIZE SCENARIO AND OUTCOME RUN SIMULATIONS DESIGN AN ENERGY SCENARIO

  14. AUTOMATED DEMAND RESPONSE & ENERGY ASSET MODELLING

  15. OVERVIEW OF ELECTRICITY DEMAND

  16. 2. IN-DEPTH OVERVIEW

  17. 2. IN-DEPTH OVERVIEW

  18. 3. OVERVIEW OF RENEWABLE ENERGY SUPPLY

  19. 3. OVERVIEW OF RENEWABLE ENERGY SUPPLY

  20. 3. OVERVIEW OF RENEWABLE ENERGY SUPPLY 17% of renewable energy is not consumed

  21. 4. FINDING DEMAND FLEXIBILITY

  22. 5. SHIFTING THE ELECTRICITY DEMAND

  23. 5. SHIFTING THE ELECTRICITY DEMAND

  24. 5. SHIFTING THE ELECTRICITY DEMAND 8% of the renewable energy is not consumed

  25. 6. ENERGY SYSTEM OPTIMIZATION

  26. 6. ENERGY SYSTEM OPTIMIZATION

  27. 6. ENERGY SYSTEM OPTIMIZATION 1% of renewable energy is not consumed

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