Energy Option Systems
EOS has evolved over 25 years of professional engineering consulting and design and construction experience from a series of highly engineered models of equipment, processes, economic feasibility and collected databases.It has a highly graphic interface that responds visually and numerically in real-time to system changes.The EOS can define energy outcomes at any location on earth by predicting solar energy, surface temperature, visible light and photosynthetic growth rate profiles for any hour of every day of the year. It uses this data toderive maximum, minimum and mean annual profiles of heating, cooling, lighting and photosynthetic plant growth energy.The EOS consolidates project information provided by the developer including building physical, thermal, and land-use properties and integrates that data with occupancy use profiles including, holiday, waking, sleeping,and day excursions to calculate typical energy consumption profiles. It has an energy distribution model that similarly responds to maximum heat load predictions by defining thermal network configurations, losses andcosts.The EOS has an Energy Centre core that responds to energy consumption profiles by defining multi-use energy conversion processes for scenarios ranging from simply buying energy wholesale and distributing it to residents to an electrical generation, co-generation or tri-generation power station.
Since the combination of adjusting parameters is infinite the EOS has a scenario manager which instantly returns the systems major parameters to one of six definable scenarios. In this way, intuitive tweaking of individual major parameters can be compared to six different and recoverable base cases. These include:
Mean Global Surface Solar Power and Temperature Profile
Models the mean daily solar power and corresponding maximum and minimum surface temperature at any geographic latitude on Earth.
Community Heating Energy Distribution
Models various community heating underground piping network configurations
Energy and Power Load Profile
Models the mean and peak hourly and monthlyprofile of the total electrical energy loadincluding Lighting, Cooling, Heating and HotWater.
Carbon Equivalent Emissions
Models the annual carbon equivalent emissions of the grid-supplied electrical load and the energy centre load.
Co/ Tri Generator PowerStation
Models the conversion a blend of natural gasand digester gas to electrical power, heat andchilled energy by co/tri-generation engines.
Digester Gas
Models the conversion of available recycledorganic waste streams to digester gas andcalculates digester capacity.
Energy Centre Cashflow
The annual cash flow of the energy centre iscalculated against consumer peak and off-peakelectricity tariffs that can be adjusted andadditionally discounted for residents within thedevelopment.
The Modelling Produces the Following Data
- Heat source
- Overall System Thermal Efficiency
- Total Energy Input Required
- Return Heating Fluid Temperature
- Overall Energy Distribution ( Energy and Percentile)
- Heat Energy Loss by Conduction to the Earth
- Pumping Power
- Service Load
- Total Energy Load and Losses
- Overall Supply and Install Costs
- Pre-insulated Pipe Cost
- Pipe Fitting Cost
- Installation of Labour and Trenching Cost
- Total Pipe System Cost
- Overall Energy Sales Revenue
- Income from Heat Energy Sales
- Simple Payback Period
- Graphic Display of Energy Distribution
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0418 325 891