Abstract—The problem of implementing modern technologies into the electric power industry is quite relevant in the world. The article considers the models of decentralized platforms providing services for energy distribution and trade, their main advantages and disadvantages. The basic principles of tokenization were developed, which allow optimizing of the energy systems and concentration of the crowd funding process for the construction of new generation facilities. I. INTRODUCTION owadays, an entire "ecosystem" of companies has been formed around the concept of a distributed ledger, which build their work using internal accounting units. Thanks to the technology of the distributed registry, it becomes possible to optimize the generating and trading process of power capacities, which ensures a high demand from companies from all over the world. The aim of the work is to identify the most optimal model for the operation of the decentralized energy platform to increase the efficiency of the generation and distribution of electric power. In order to systematize the obtained data, we use methods of retrospective, current and prospective analysis and synthesis of theoretical and practical material. The peculiarity of blockchain technology lies in the fact that the network ledger is updated every time as a transaction occurs. Suppliers and consumers determine the variables of a given transaction by allocating the specific parameters, address of sender, sum and amount of energy, as well as other necessary information, after which the variables are The material has been prepared with the results of studies carried out at the expense of funds provided under the grant of the Bank Santander. combined with detailed information on other transactions conducted during the same period of time to create a new block data. If any information relating to a particular transaction is subsequently changed as a result of unauthorized interference or due to data transmission errors, the algorithm will report an error. There are allocated characteristics among the merits of the blockchain technology: reduction of transaction costs; ensuring maximum transparency of operations; reducing the overall complexity of transactions; storage of accurate data on all transactions performed. The shortcomings of the technology are mainly due to the lack of the necessary infrastructure and regulatory component: an undefined status of tokens (special kind of virtual currency that represent an asset or utility) – accounting units of the system, which are used, among other things, to purchase goods; lack of a regulatory framework for dispute resolution in some countries of the world; possible technical problems and failures in the initial stages of the technology introduction; complete loss of control over the tokens (system currency) in circulation in the case of cyberattacks. From the point of view of the electricity market, it should be noted that all energy transactions can be accurately recorded for certain suppliers and consumers. Controlling the distributed and consumed energy will inevitably lead to its most effective use, and also enable producers to plan generation in advance. These features become more sustainable under the system of Smart Grid operations. The platform of blockchain-options trading can provide a necessary level of automation using the smart contracts, which will reduce the costs and helps to directly connect consumers and suppliers of energy. N Design of models for the tokenization of electric power industry basing on the blockchain technology Andrew Varnavskiy Financial University under the Government of the RF, Leningradsky Prospekt 49, Moscow, Russia Email: AVVarnavskiy@fa.ru Vladislav Trubnikov Financial University under the Government of the RF Leningradsky Prospekt 49, Moscow, Russia Email: vladtrubnikov95@gmail.com Ulia Gruzina Financial University under the Government of the RF Leningradsky Prospekt 49, Moscow, Russia Email: ymgruzina@fa.ru Anastasia Buryakova Financial University under the Government of the RF Leningradsky Prospekt 49, Moscow, Russia Email: AOBuryakova@fa.ru Artur Rot Wroclaw University of Economics, ul. Komandorska 118/120, 53-345 Wroclaw, Poland Email: artur.rot@ue.wroc.pl Ekaterina Sebechenko Financial University under the Government of the RF Leningradsky Prospekt 49, Moscow, Russia Email: EVSebechenko@fa.ru Communication Papers of the Federated Conference on Computer Science and Information Systems pp. 45–50 DOI: 10.15439/2018F330 ISSN 2300-5963 ACSIS, Vol. 17 c 2018, PTI 45