Main mechanisms of blockchain technology implementation in digital technologies application

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G.G.Shvachych,, Dnipro University of Technology, Dnipro, Ukraine, email: This email address is being protected from spambots. You need JavaScript enabled to view it.

B..Moroz,, Dnipro University of Technology, Dnipro, Ukraine, email: This email address is being protected from spambots. You need JavaScript enabled to view it.

..Pobochii,, Ukrainian State University of Science and Technology, Dnipro, Ukraine

.P.Timchenko,, Lviv University of Trade and Economics, Lviv, Ukraine

V.D.Kozenkova,, Dnipro State Agrarian and Economic University, Dnipro, Ukraine

V.V.Busygin,, VUZF University (Higher School of Insurance and Finance), Sofia, the Republic of Bulgaria

повний текст / full article

Naukovyi Visnyk Natsionalnoho Hirnychoho Universytetu. 2022, (3): 168 - 172


Purpose. To analyze the basic principles of blockchain technology implementation, highlighting the algorithms for reaching consensus in the blockchain network to ensure its reliability; to identify key problems in the implementation of such technology and suggest ways to overcome them; to perform a systematic analysis of the blockchain technology contradictions and suggest ways to eliminate them.

Methodology. The research used the basics of economic analysis of economic entities to compare their managements centralized and decentralized models. This approach showed that another wave of transformation of business and social models has unfolded in recent years, caused by the next-generation digital technologies involving the economys transition to the digital area. Revealing the blockchain technology mechanisms is based on modern databases and peer-to-peer computer networks, covering in detail the main means of contradictions, application, and implementation of blockchain technology.

Findings. The main results of these studies are obtained in the digital economy. The paper shows that digital technologies open up a wide range of opportunities for different sectors of the economy. The research highlights the features and principles of distributed registry technology (Blockchain) applications. It is shown that as a decentralized data registry, blockchain technology is the most discussed and relevant topic in the digital economy.

Originality. The paper further developed the main component of the digital economy, which is progressing most intensively, the distributed ledger technology (Blockchain). The paper analyzed its strengths, such as cost reduction, increased security, and transparency of transactions that attracted the attention of various sectors of the economy. The authors approach for eliminating the revealed mechanisms of contradictions, application, and implementation of blockchain technology is presented. The definition of the digital economy, digital technologies in the economy, and end-to-end digital technologies have been improved to clarify the understanding of the economic management decentralization problems. That showed that the digital economy has several subtleties associated with insufficient research and comprehension of technical implementation and flexibility.

Practical value. The research results will be useful for expanding ideas about the blockchain technology implementation in different sectors of the economy, accompanied by lower costs, increased security and transparency of economic entities, and improving their economic efficiency and development in digital technologies application. The blockchain technologies implantation at the enterprises of the mining and metallurgical industry allows making the production and sales of products more efficient and transparent, and at the same time significantly reduces the human factor.

Keywords: digital technologies, contracts, investments, Blockchain, security, transparency, transactions, data register, software


1. Swan, M. (2015). Blockchain: Blueprint for a New Economy. OReilly Media. ISBN-10: 9781491920497.

2. Zavorotny, . (2018). Analysis of practice of blockchain technology application in financial management. Politechnical Student Journal, 27.

3. Box, S., & West, J. K. (2016). Economic and Social Benefits of Internet Openness. SSRN Electronic Journal.

4. Morton, H. (2017). Blockchain Technology: An Emerging Public Policy Issue. NCSL (National Conference of State Lagislatures) LegisBrief, 25(44). Retrieved from

5. Shvachych, G., Ivanov, R., & Busygin, V. (2019, October). Blockchain technology as a means of improving enterprise efficiency, Proceedings of 10th International scientific-practical conference on banking economics, (pp. 364-368). PolesGU. Retrieved from

6. Vajdi, K. (2017). In Estonia, digital signatures have 350 million transactions; more than in the rest of the EU. Ideje.Hr. Retrieved from

7. Allison, I. (2016, March 4). Guardtime secures over a million Estonian healthcare records on the Blockchain. International Business Times UK. Retrieved from

8. Keyless Signature Infrastructure (n.d.). KSI. Retrieved July 22, 2021, Retrieved from

9. Allison, I. (2016, March 4). Guardtime secures over a million Estonian healthcare records on the Blockchain. International Business Times UK. Retrieved from

10. ENISA (2016). Distributed Ledger Technology & Cybersecurity Improving information security in the financial sector. ENISA (European Network and Information Security Agency). Retrieved from

11. Klein, D., & Klein, D. (2018, April 11). Masterchain of the Central Bank of the Russian Federation: is there something fundamentally new in the state blockchain? CryptoFox. Retrieved from

12. Cain, D. (2019, July 10). Big Data Synchronization: 5 Ways to Ensure Big Data Accuracy. Medium. Retrieved from

13. Gimenez-Aguilar, M., de Fuentes, J.M., Gonzalez-Manzano, L., & Arroyo, D. (2021). Achieving cybersecurity in blockchain-based systems: A survey. Future Generation Computer Systems, 124, 91-118.

14. Tyagi, N. (2020). Top 10 Big Data Technologies | Analytics Steps. Analyticssteps.Com. Retrieved from

15. He, Y., Ye, N., & Zhang, R. (2021). Analysis of Data Encryption Algorithms for Telecommunication Network-Computer Network Communication Security. Wireless Communications and Mobile Computing, 2021, 1-19.

16. Kazmirchuk, S., Ilyenko, A., Ilyenko, S., Prokopenko, O., & Mazur, Y. (2020). The Improvement of Digital Signature Algorithm Based on Elliptic Curve Cryptography. Advances in Computer Science for Engineering and Education III, 327-337.


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