ENERGY PROFILING SERVICES FOR CARBON NEUTRALITY PLANNING
SmartEPS has been developed and is supported by deeply experienced Mining and Production Engineers together with Energy and Carbon Managers, and is based on a modern digital platform and data processing with machine learning and AI.
Energy Profiling Services For Carbon Neutrality Planning
Technology-Based Digital Solution
SmartEPS has been developed and is supported by deeply experienced Mining and Production Engineers together with Energy and Carbon Managers, and is based on a modern digital platform and data processing with machine learning and AI. The toolset is designed for strategic planning and decision support – for profiling Energy and Greenhouse Gas Emissions over Life of Assets based on the expected work, production volume/rates, and related parameters.
The toolset deals with Scope 1, 2, and 3 carbon equivalent emissions together with production volumes and energy intensities.
Profiled allocation of expected Energy and Carbon over Life of Assets and operations
Understanding of which projects and focus areas will enable the required carbon transition pathway
Holistic prioritisation across operations and groups
Understanding of the financial impact of Carbon reduction choices (Capex, Opex, ROI)
Detailed project capturing and Registry
Projected impact of interventions
Energy reduction and efficiency with energy source or carrier exchange
Carbon Emissions reduction
Return on Investment of planned projects
Prioritised focus areas
Development of Energy and Carbon Targets
Dynamic tracking and visualisation of measures against clear Energy and Carbon Targets
Detailed representation of multiple Energy and Emission types
Transition Roadmap to Net Carbon Zero
Site Overall Carbon and Energy Emissions
SmartEPS has all the features needed to model and simulate your Carbon Transition pathway,
in enough detail to provide decision support and accurate planning.
Simulation and Modelling
Projects and Outputs
Advanced Scenario Modelling – predictive and prescriptive
Seamless grouping of analysis by sites, business units, divisions, and entity
Modern Cloud-based services and infrastructure
Machine Learning and Hybrid Models with Integrated AI
Intervention Project Portfolio Capture and Register Management
Ease of data input with database templates and production/asset setups
Highly scalable models and simulations – small to large and simple to complex
Automated accounting for complex interactive effects from combined projects 
Portable information and simulations to other systems
Scenarios based on master models
Scope 1, 2, and 3 emissions 
Fugitive and other emissions accounting
Power BI and Dashboard Reports
Access to Reports and Dashboards on all device types at any location
Whole facility, Unit Process, and sub-process specific models
Energy exchange impact is automated for energy and carbon
Expansive range of fossil fuels, renewable and alternative energy sources and carriers
Performance tracking of carbon transition roadmaps – against historical
Tracking of changes and user interactions in models
Models based on technology types (efficiency, fuels exchange, new processes, electrification)
All technical and financial parameters with outputs 
Presentation and report ready outputs
Precision and accuracy via transparency and control of simulation parameters
Selectable implementation and transition periods – ramp ups and maturity automated or manually defined 
Drill down and drill through capability
Engineering and technical basis for models and simulations – supported by Process, Mining, Energy, and Environmental Engineers
Project/Intervention Impacts ranking by selectable priorities
Integration of multiple users in model development
Accredited Measurement and Verification Processes within ISO 17020 Inspection Body
Life of Asset simulations and assessments including rehabilitation
Systems supported by Process and Energy Data Engineering, Data Science, Machine Learning
 Financial includes for example: ROI, MPV, MAC, Equivalent Energy Pricing, local currency.
Technical includes for example: emissions factors, automated energy conversion factors, multiple units of measures.
 Automated scaling – for ramp up of projects and tracking of completion targets.
 Complex intelligence when adding of projects by site and grouped across different operations.
 For Scope 3, it allows for engagement on emissions from upstream fuels and supply chain impacts.
Project Ranking View
ECS will assist you in developing an Energy Transition Roadmap Plan as shown below. The Roadmap will be accompanied by the energy transition and carbon abatement interventions and detailed and targeted performance outcomes.