SEIT 2019
The 9th International Conference on Sustainable Energy Information Technology
The 9th International Conference on Sustainable Energy Information Technology (SEIT-2019) aims to bring together academia, industry, research scholars, business entrepreneurs, practitioners, managers, and policy makers responsible in delivering advanced sustainable energy solutions for competitive advantage and cost savings in modern industrial and business sectors. The conference will act as a platform for the dissemination of current technologies in intelligent sustainable energy, as well as act as a forum for the strategic next steps in smart grid adaptation.
SEIT 2019 will be held in Halifax Nova Scotia, Canada. Halifax is located on the east coast of Canada and is approximately a 6-hour flight from London, UK and a 2-hour flight from Toronto, Ontario. Halifax is a vibrant and modern city which is home to multiple academic institutions and where visitors can enjoy a variety of activities and entertainment from whale watching to Jazz festivals to world-class cuisine. Halifax is also home to the Maritime Museum of the Atlantic which contains the world largest collection of Titanic artifacts. Nova Scotia is a picturesque province with many National and Provincial parks, and as stated in the Guinness Book of World Records, has the highest tides in the world.
There will be opportunities to attend interactive, high quality, peer reviewed sessions, which will provide detailed insights from forward thinkers working in the themes of the conference. The conference will include a number of specialized workshops as well. Additionally there will be an exhibition for both international businesses and markets to display their latest products and services and to undertake a range of networking opportunities.
The goal of the SEIT-2019 conference is to provide an international forum for scientists, engineers, and managers in academia, industry, and government to address recent research results and to present and discuss their ideas, theories, technologies, systems, tools, applications, work in progress and experiences on all theoretical and practical issues arising in sustainable energy information technology.
Advanced Techniques for Energy Applications
- Advanced Control algorithms for applications
- Big data, Machine Learning and other Expert Systems applications
- IT for energy applications
- Optimization techniques for energy applications
Energy Efficiency
- Advanced Control algorithms for applications
- Eco Systems
- Economic water (re)use
- Efficient circuit design for energy harvesting
- Efficient energy production methods
- Efficient use of energy in the oil and gas industries
- Efficient data centers
- Energy & sustainability
- Energy efficient power and cooling infrastructure
- Energy recycling
- Energy saving products
- Energy harvesting, storage, and recycling
- Interdisciplinary empirical, analytical and optimization research in applied ergonomics and sustainability
- Power-efficient delivery and cooling
- Productivity and energy efficiency
- Sustainable energy system operational strategies
Energy Policy
- Deregulation and Electric Power Market
- Energy policy
- Market Modeling and Design
- Regulatory Issues and Standards
- Security of Supply
Environmental
- Carbon emission methods
- Carbon footprints
- Carbon metering and user feedback
- Climate and ecosystem monitoring
- Climate change
- Climate globalization
- Environment and social policies
- Environmental issues arising from sustainable energy technologies
- Environmental management systems
- Environmental pollution and work hazards
- Ergonomics and benchmarking
- Using IT to reduce carbon emissions
Green Sustainability
- Analytical research in applied ergonomics and green sustainability
- Combinatorial research in applied ergonomics and green sustainability
- Empirical research in applied ergonomics and green sustainability
- Experimental research in applied ergonomics and green sustainability
- Exploratory research in applied ergonomics and Green Sustainability
- Green business practices
- Green process for competitive Advantage Survey and Review Research in Applied Ergonomics and Green Sustainability
- Green Strategy and Synchronized Transformation
- Green Technology
Power Quality, Power Electronics and Electric Machines
- Conventional Power plants
- Electric Machines design, modeling, simulation, analysis and testing
- Electric Drives
- Electromagnetic Compatibility (EMC)
- Power Quality and Filtering Techniques
- Power Electronics devices (FACTS, STATCOMS, etc.)
- UPS
Power Systems
- Electric Energy Education and Teaching
- EPower System Modeling and Simulation
- Power System Operation and Control
- Power System Planning and Management
- Security Assessment and Risk Analysis
- Transmission and Distribution Systems
Renewable Energies
- Geothermal, Biomass and Thermal solar power plant
- Hydrogen, Fuel cells, Energy Carriers and Electric Storage
- Integration of Renewable energy
- Ocean and Tidal energy
- PV energy
- Small Hydro power plant
- Wind energy
Sensing & Monitoring
- Advanced metering infrastructure
- Fault diagnosis
- Monitoring tools for power and performance
- Power leakage and dissipation
- Power-aware networking
- Power-aware algorithms and protocols
- Power-aware applications
- Power-aware middleware, software and hardware
- Sensors for climate monitoring
Smart Systems
- Electric Vehicles
- Smart Buildings
- Smart Urban Development
- Smart Energy Consumption
- Smart Energy Management Systems and Demand Side Applications
- Smart Grid and Microgrids
- Smart Transportation and Manufacturing
General
- Sustainable Energy