Electric network topology and method of transmission of electric energy

The purpose of the work is to reduce losses and increase energy saving in electric networks. To achieve this goal, a multilevel topology of the electrical network and an asynchronous method for transferring electrical energy between nodes including a load, energy sources, energy storage devices connected in an appropriate manner are proposed. It is shown by the mathematical method that this network topology allows using energy storage devices controlled appropriately and using tele-information technologies to optimize the balance of electric energy in the network, achieving equality of the generated and consumed electricity. Such a network topology and a method of transmitting electrical energy can be the basis of digital technologies in the energy sector (ENERNET).

local electric network, energy storage, topology, ENERNET

1. Farafontov DV. Experimental evaluation of the model of optimal control of an electric energy. Internet Energy: The Future of the Electricity Industry Has Come. DigitalEnergy. 2018;5:17-24.

2. Belov VF., Rozhkova storage .Modern HIGH Technologies. 2016;5:20-26.

3. Kobets BB., Volkova IO. Innovative development of the electric power industry based on the SmartGrid concept.M . IAC Energy, 2010.

4. Smolentsev NI., Kondrin SA. Superconducting electrokinetic energy storage for local electric networks. Proceedings of the higher educational institutions. Energy sector problems. 2017;19(3-4):53-60.

5. AJ. Arsenio Experimental Setup and Efficiency of Zero-Field-Cooled ZFCYBCO Magnetic Bearings. IEEE Transactions on Applied Superconductivity. 2017;27(4):3601105.

6. Lin X., Lei Y., Zhu Y A Novel Super conductinq magnetic Energy Storage system design based on a Three-Level T-type Converter and ITS Energy-Shaping Control Strategy. Electric Power Systems Research.2018;162:64-73.

7. Smolentsev NI., Kondrin SA., Bondarev YL., Gilmetdinov MF., Kazantsev AM., Sirekanyan VV.Some Issues of development and mathematical Modeling of superconducting electrokinetic. Energy Storage Unit. IOP Conference Series: Earth and Environmental Science Сер. "Innovations and Prospects of Development of Mining Machinery and Electrical Engineering Power Supply of Mining Companies" 2017.

8. Bayat H. Energy management system for smart house with multi-sources using pi-ca controller. Afrakhte 4th Iranian Conference on Renewable Energy and Distributed Generation CREDG 2016;4:24-31.

9. Sun Q., Zhang Y., Ma. Zhang, H.D. A Novel Energy Function-Based Stability Evaluation and Nonlinear Control Approach for Energy Internet. IEEE Transactions on Smart Grid. 2017;8(3):1195-1210.

10. Fotuhi-Firuzabad M., Moeini-Aghtaieh M., Zareipour HA. Probabilistic Energy Management Grid2017;8(5):2217-2227.

11. Smart Power Grids - Talking about a Revolution. IEEE Emerging Technology Portal, 2009.

12. Loskutov AB., SosninaEN.,Loskutov AA.“Method for the transmission of electrical energy”, Patent for the invention of the Russian Federation N. 2475918, IPC H02J4/00 RU. Publ. 02.20.2013, Bull.N. 5.

13. Chivenkov AI., Krakhmalin IG.“A method for transmitting electrical energy of three-phase AC voltage and a system for its implementation”. Patent for the invention of the Russian Federation N. 2337451, IPC H02J3/00, publ. 10/27/2008; RU. Bull. N.30.

14. Beckermann Jens, HeinbockelStefan.“Device and method for the formation, storage and transmission of electrical energy”. Patent for the invention of the Russian Federation N. 2496208, IPC H02J7/34, publ. 10.20.2013, RU. Bull. N. 29.

15. Raul EV. Prospects for the use of energy storage for 0.4 kV power supply networks. Vestnik MPEI. 2013.