2. GROUP MEMBERS
Names Reg Numbers
Waheed Khan 17BNELE0858
Nihal Ahmad 17BNELE0832
Syed Muhammad Ammar Shah 17BNELE0842
Supervisor
Engr. Muhammad Riaz
Energy Management for Grid
Connected Microgrids
3. November-December 2020
LITERATURE REVIEW
• Literature review from major writings and other
sources on energy management
in microgrid.
January-February 2021
PROBLEM FORMULATION
• Problem formulation and
mathematical model .
March - May 2021
MATLAB CODE
• Using MATLAB for writing code
, math and computation.
June-July 2021
RESULTS & RESEARCH PAPER
• Simulation results , thesis & writing
research paper.
Project Timeline 10
UET Bannu Campus III
7. Flowchart Explanation
1. First our system will get all the known paramters
( Tariff, No of consumers, set of appliances etc )
2. It will perform energy management by using
Mixed Integer Linear Programming.
3. It will compare the total load curve and self
generated energy.
4. If the load curve is satisfied then it will run all the
appliances.
5. If the load curve is not satisfied then it will share
its demand with the trading center.
8. Conclusion
8
UET Bannu Campus III
Up till now in this research ;
The system model for grid connected microgrid is
drawn.
Mathematical model for grid energy manangement in
grid conneted microgrid using mixed integer linear
programming is written.
Flowchart is drawn.
10. García Vera, Yimy E., Rodolfo Dufo-López, and José L. Bernal-Agustín. "Energy
management in microgrids with renewable energy sources: A literature
review." Applied Sciences 9.18 (2019): 3854.
Murty, V. V. S. N., and Ashwani Kumar. "Multi-objective energy management in
microgrids with hybrid energy sources and battery energy storage
systems." Protection and Control of Modern Power Systems 5.1 (2020): 1-20.
Roslan, M. F., et al. "Microgrid control methods toward achieving sustainable
energy management." Applied Energy 240 (2019): 583-607. Xu, Lie, and Dong
Chen. "Control and operation of a DC microgrid with variable generation and
energy storage." IEEE transactions on power delivery 26.4 (2011): 2513-2522.
Kakigano, Hiroaki, Yushi Miura, and Toshifumi Ise. "Low-voltage bipolar-type
DC microgrid for super high quality distribution." IEEE transactions on power
electronics 25.12 (2010): 3066-3075.
References
10
UET Bannu Campus III