Tag: Flywheel Energy Storage Systems
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Why HVAC Still Ignores Occupants — And How Asset Assess Changes That
A recent article questions why HVAC systems operate as if all building spaces are occupied, despite existing data. Asset Assess proposes occupancy-based HVAC control, integrating real-time analytics without replacing infrastructure. This approach can reduce energy costs by 15–30%, enhance comfort, and inform strategic decisions, maximizing efficiency and sustainability.
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Condition-Based Everything:
Asset Assess is revolutionising facilities management in Australia by introducing a condition-based approach that enhances operational efficiency and reduces costs. Our platform employs real-time data for fault detection, improving energy management, maintenance operations, and capital planning. Facilities benefit from greater asset reliability, reduced maintenance time, and significant cost savings.
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Calibrating Expectations: A Modern Approach to HVAC Commissioning
This article discusses the challenges faced in HVAC systems from design to operation, highlighting gaps in commissioning and fitout integration. It emphasises the need for continuous commissioning to optimise performance and reduce energy consumption. Asset Assess offers data-driven solutions to ensure ongoing effectiveness, improving comfort and lowering operating costs.
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ENERGY FLEXIBILITY: THE NEXT ENERGY EFFICIENCY FRONTIER
Australia aims for net-zero emissions by 2050, emphasizing energy flexibility alongside renewable sources like wind and solar. Buildings can act as thermal batteries, optimizing energy use during price fluctuations. Implementing strategies in HVAC systems can yield significant cost savings and enhance grid stability, supporting a sustainable energy future. Credit Jason Jarvinen for providing some valuable…
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CASE STUDY – SURGICAL CENTER ENERGY OPTIMISATION
Established in 1988, a day surgery center faced challenges in maintaining optimal environmental conditions for surgical operations due to an ineffective building automation system. To address this, Asset Assess implemented a Fault Detection and Diagnostics (FDD) platform, resulting in a 46% reduction in energy consumption, improved environmental control, and sustained compliance with healthcare standards.
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FDD ANALYSIS FOR VRF SYSTEMS MONITORING
Variable Refrigerant Flow (VRF) systems, essential in modern HVAC technology, offer efficient heating and cooling. Despite their popularity, they face challenges in Fault Detection and Diagnostics (FDD) due to limited data access. Recent advancements allow for more comprehensive diagnostics, enhancing VRF system performance and enabling proactive maintenance for improved longevity and efficiency.
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HARNESSING FAULT DETECTION AND DIAGNOSTICS (FDD) TO ENSURE OPTIMAL BUILDING VENTILATION PERFORMANCE
The built environment must ensure safe indoor air quality, yet ventilation systems often degrade, compromising health and energy efficiency. Fault Detection and Diagnostics technology enhances maintenance, measurement, and verification of these systems, addressing issues promptly and ensuring compliance with standards. This proactive approach contributes to safer, healthier indoor spaces for all occupants.
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HOW FAULT DETECTION AND DIAGNOSTICS EMPOWERS EXECUTIVE UPLINE REPORTING
Asset Assess’s Fault Detection and Diagnostics (FDD) platform equips executives with essential insights for facilities management, enabling effective reporting on asset performance and sustainability. By centralizing data and tracking KPIs, the platform enhances transparency and showcases ROI, aiding in risk management and customized reporting tailored for various stakeholders.
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HEAT PUMPS VS INSTANTANEOUS GAS HEATING SYSTEMS AND BOILERS: THE FUTURE OF LARGE-SCALE WATER HEATING
Large-scale water heating in high-rise apartments, hospitals, and commercial properties is shifting from gas boilers to energy-efficient heat pumps. These systems offer simultaneous heating and cooling, recapture waste energy, and significantly reduce Scope 1 greenhouse gas emissions. Integration with thermal energy storage amplifies energy savings and lowers grid demand, enhancing overall efficiency.
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FLYWHEEL ENERGY STORAGE SYSTEMS: A KEY COMPONENT IN BUILDING ENERGY EFFICIENCY AND CARBON REDUCTION
Flywheel Energy Storage Systems (FESS) provide efficient, sustainable energy storage for grid-interactive buildings like hospitals, universities, and commercial properties. Offering advantages such as longevity, fast response times, and lower environmental impact, FESS enhances energy resilience and supports carbon reduction goals, making it a superior alternative to traditional battery storage solutions.
Intelligent Insights : Efficient Buildings 