1. Energy Aware & Energy Efficient Production for Enhancing Commercial Value of Electric Power produced from a Renewable Energy Power Production Facility

2. Abstract
Reducing energy inefficiencies at manufacturing plants can be effected by making production systems consume less energy without sacrificing on quality and production output
This project will be multi-faceted and will need development of discrete event simulation approach to enable energy aware production coordination.
Methods of identifying machine operational modes and analysis of manufacturing energy efficiency using power signatures will be developed.

3. Metodología
The invention includes communication structure and coordination mechanism for establishing a relationship with another power production facility such that when excess electrical power is produced by the wind turbine facility, the excess may be provided to the power.
A tracking mechanism keeps track of the amount of potential energy that was not expended at the other facility and places this amount in a virtual energy storage account for the benefit of wind energy storage facility.
When a wind turbine power production facility experiences a shortfall in its power production output it may make a request to the other source of electric power and increase its power output on behalf of the wind turbine facility called virtual energy storage mechanism.
Renewable Power exchange Mechanism creating a market for trading renewable units of power which have been converted to premier power and are guaranteed by secondary sources of power to provide a reliable source of power to the power grid as and when required.

4. Plan Layout

5. Virtual Energy Storage Mechanism

6. Justification of Research
combining renewables and energy efficiency to improve sustainability of energy development.
Ensues increase in awareness of energy production and consumption in the owner of the installation and also often with the public who can see or might interact with the technology.
introduces demand-side energy savings measures.
From the supply-side perspective, a switch to renewables supports sustainable energy generation and contributes to reducing dependency on imported energy.

7. COMMON BARRIERS TO IMPLEMENTATION OF ENERGY EFFICIENCY MEASURES till Date…
Policy and regulatory barriers
Lack of information and awareness of the potential for energy efficiency
Lack of industry initiatives to emphasize energy management
Lack of technical capacity to identify, appraise, develop and implement energy efficiency projects
Financial and investment barriers
Technology barriers

8. Our Concern for Energy Efficiency Today…
Enacting legislation relating to energy efficiency
Deciding the state budget for promoting and conducting energy efficiency activities
Promoting energy awareness and disseminating useful information on energy efficiency measures
Allocating the budget and carrying out energy efficiency programs in relation to government-owned assets

9. Budget and Schedule Schedule Budget Literature Review Data Collection
Data Analyzing
Conferences
Budget
Self Financial Support and application for research scholarship
Full time PhD

10. Conclusion
reduce significantly the negative impacts of energy use on the environment and human well-being, and increase the availability of primary energy reserves while achieving maximum benefits in terms of outputs from the available energy.
Indeed, the combined effect of supply and demand-side energy efficiency improvement means that the load on generating facilities is lowered, and this can help keep older systems and equipment in good condition.

11. References
[S.K. Singh, M.P. Singh, and D.K. Singh, “A survey of Energy-Efficient Hierarchical Cluster-based Routing in Wireless Sensor Networks”, International Journal of Advanced Networking and Application (IJANA), Sept.–Oct. 2010, vol. 02, issue 02, pp. 570–580.
Caffal, C. (1995). Energy Management in Industry. Centre for the Analysis and Dissemination of Demonstrated Energy Technologies (CADDET), The Netherlands. Analyses series 17, December.
Borchert, N. (2001a). Team Industries Cashes in on Energy Efficient Inverter Technology. National Electrical Manufacturers Association (NEMA).
[Bloss, D., R. Bockwinkel and N. Rivers. (1997). Capturing Energy Savings with Steam Traps. Proc. ACEEE Summer Study on Energy Efficiency in Industry, American Council for Energy Efficient Economy, Washington DC.
Barnish, T. J., M. R. Muller, and D. J. Kasten (1997). Motor Maintenance: A Survey of Techniques and Results. Proceedings of the 1997 ACEEE Summer Study on Energy Efficiency in Industry. American Council for an Energy-Efficient Economy, Washington, D.C.