Multi Microgrid Systems Projects

Multi-Microgrid Systems Projects focuses on the core of electricity generation that serves for a variety of real-life applications. A pool of Microgrid forms into a Multi Microgrid i.e., MMG. In case if a Microgrid operates by itself, then it is in island mode else. It is a grid-connected mode.

By the time, the mode of operation can be either self-run or manual. When there is enough power, then the grid will be on the island. Now that each Microgrid consists of distributed generation (DG) and renewable energy to supply power to their loads.

Know about the Topology in MMG

• Radical or Star topology 
• Information exchange through Bus
• Mesh 
• Information shared by interconnected links
• Daisy-chain 
• Information transfer via Peer-to-Peer 

   In earlier days, the smart meters in Multi -Microgrid Systems Projects measures the power. In this way, we can screen the system, and it also supports web based online screening. To be common, an MMG design composes two flows, such as 1. Power flow, and 2. Information flow.

   The power flow carries electricity while information flow carries smart meter readings of voltage, and so on. From such information, the work’s goal as control and monitor is handled by means of vital measures. 

Objective functions in Multi-Microgrid

• Cost parameters 
• Power usage 
• Power savings
• Energy transfer
• User satisfaction 
• Load management (both critical and non-critical)
• Serve energy demand
• Lack of power 
• Transmission loss
• Power in transmission lines
• Abnormal voltage variation
• Other metrics
• Immediate power failure
• Greenhouse gas emission 
• Excess energy usage 

   To be sure that the multi Microgrid can be either centralized or distributed. In the case of a large scale, the central system is better. Since it can be a server equipped with an autonomous method to make a decision, this defines to create the MMG into smarter, and hence it seems to support with the following.

Study Areas in Multi-Microgrid

• Secondary voltage control 
• Coordinated demand response
• Virtual power plants 
• Grid monitoring with a smart meter
• Hierarchical energy management with MMG clusters
• Switchover operation 
• Cooling strategies with HVAC

   In simple, an MMG system generates energy without any break. But there occurs fault due to some defeats in the lines that may be of nature like storm and others. To point out that the grid faces a critical issue to solve it. In order to deal with such things, a set of new methods are here.  

Energy Management methods in Multi Microgrid System Projects 

• Model-free reinforcement learning 
• Deep neural network 
• Double deep Q-learning 
• Type II fuzzy 
• Deep RNN learning 
• Deep-NN with LSTM
• Deep deterministic policy gradient
• Noncooperative and Stackelberg game theory 

   An MMG consists of details about the amount of generation, weather data, and so on. In this way, the data from the grid points out the performance of the system. Since it does not ease to construct a real MMG setup and hence a set of the dataset is here for testing.     

Dataset for Processing Multi-Microgrid system

• AMPds
• BERDS
• BLOND
• BLUED
• ECO
• GREEND
• COOLL
• many more 

   Beyond this, the MMG connects with wireless networks simulation for data transfer and others. The networks as Green Edge Computing, Internet of Microgrids, etc.  So by now, fix your goal and then prepare a layout for it. Still, many more ideas may be in your mind for phd projects in networking. Do not delay reaching us since your idea is new only when no one else thinks it. If your thought is put up, then your ideas will not be new anymore.

As soon as you begin to grow your goal, it will be yours forever………

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