Development a policy for the production of Bitcoins with renewable energy sources
Development a policy for the production of Bitcoins with renewable energy sources
Bitcoin, the first decentralized digital currency introduced by an anonymous person or group since 2008, has attracted worldwide attention. A significant number of economists have introduced Bitcoin as a new phenomenon in the 21st century that could reduce global inflation. Given the tens of thousands of digital currencies that have emerged since the advent of Bitcoin and its price growth trend over more than a decade, which are signs of the growth of this business. In addition to being money, Bitcoin has always been considered a tool for investing and storing value, which is why it is called digital gold.One of the most important problems in the production or extraction of Bitcoins is the high-powerconsumption by miners. If the energy sources of electricity generation are supplied by non-renewable energy sources, in addition to emitting air pollutant gases, it will increase greenhouse gases and consequently contribute to climate change.In this research, based on the idea of the authors, which is that the economic support of Bitcoin is energy, a strategy for producing Bitcoin from renewable energy sources is considered. First, the amount of electrical energy consumption by Bitcoin production is calculated based on statistical data, and then based on the price of electricity in different countries of the world and its global average, the base price of Bitcoin is calculated.In the following, four scenarios are proposed for the production of Bitcoin by electricity supplied from non-renewable energy sources. These scenarios include coal-fired steam power plants, natural gas-fired power plants, natural gas/oil gas-fired power plants, and dual-cycle (steam and gas cycles) natural gas-fired power plants. Based on the amount of electricity required to produce one Bitcoin, the amount of pollutants emitted to produce Bitcoin and its social costs are calculated. These costs should be added to the base cost of Bitcoin production ifnon-renewable energy sources are used to produce Bitcoin.Then, renewable energy sources for Bitcoin production based on the price of electricity generated by renewable energy sources are examined.Based on the analyses, how to choose the best renewable energy source to produce Bitcoin is presented as a scenario.This article briefly answers two key questions: 1. At what price of Bitcoin is it cost-effective for governments to produce it? 2. What is the best renewable energy source to produce it? These two questions can be useful in creating a roadmap and strategy for economists and governments.Future EnergyOpen Access Journalhttps://doi.org/10.55670/fpll.fuen.3.2.2May2024| Volume 03| Issue 02| Pages 16-23Journal homepage: https://fupubco.com/fuenISSN 2832-0328
16-23
Aliehyaei, Mehdi
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Tofighi, Ali
fc294c78-e21f-4e99-b56b-b474af4193b1
Rosen, Marc A.
d5f2c8e8-af63-4c89-9fab-01e8a9713359
Afshari, Hamed
9b100cdf-8459-432b-a743-4b7c1ae64337
Gheisari, Soulmaz
ec5925da-f424-4f49-8b72-d4d045ee7ba6
Safari, Amir
a80c2b8b-7e79-432a-9967-322a8201b1df
May 2024
Aliehyaei, Mehdi
b321e9bd-4b1b-4167-989e-2f270373b7c4
Tofighi, Ali
fc294c78-e21f-4e99-b56b-b474af4193b1
Rosen, Marc A.
d5f2c8e8-af63-4c89-9fab-01e8a9713359
Afshari, Hamed
9b100cdf-8459-432b-a743-4b7c1ae64337
Gheisari, Soulmaz
ec5925da-f424-4f49-8b72-d4d045ee7ba6
Safari, Amir
a80c2b8b-7e79-432a-9967-322a8201b1df
Aliehyaei, Mehdi, Tofighi, Ali, Rosen, Marc A., Afshari, Hamed, Gheisari, Soulmaz and Safari, Amir
(2024)
Development a policy for the production of Bitcoins with renewable energy sources.
Future Energy, 03 (02), .
(doi:10.55670/fpll.fuen.3.2.2).
Abstract
Bitcoin, the first decentralized digital currency introduced by an anonymous person or group since 2008, has attracted worldwide attention. A significant number of economists have introduced Bitcoin as a new phenomenon in the 21st century that could reduce global inflation. Given the tens of thousands of digital currencies that have emerged since the advent of Bitcoin and its price growth trend over more than a decade, which are signs of the growth of this business. In addition to being money, Bitcoin has always been considered a tool for investing and storing value, which is why it is called digital gold.One of the most important problems in the production or extraction of Bitcoins is the high-powerconsumption by miners. If the energy sources of electricity generation are supplied by non-renewable energy sources, in addition to emitting air pollutant gases, it will increase greenhouse gases and consequently contribute to climate change.In this research, based on the idea of the authors, which is that the economic support of Bitcoin is energy, a strategy for producing Bitcoin from renewable energy sources is considered. First, the amount of electrical energy consumption by Bitcoin production is calculated based on statistical data, and then based on the price of electricity in different countries of the world and its global average, the base price of Bitcoin is calculated.In the following, four scenarios are proposed for the production of Bitcoin by electricity supplied from non-renewable energy sources. These scenarios include coal-fired steam power plants, natural gas-fired power plants, natural gas/oil gas-fired power plants, and dual-cycle (steam and gas cycles) natural gas-fired power plants. Based on the amount of electricity required to produce one Bitcoin, the amount of pollutants emitted to produce Bitcoin and its social costs are calculated. These costs should be added to the base cost of Bitcoin production ifnon-renewable energy sources are used to produce Bitcoin.Then, renewable energy sources for Bitcoin production based on the price of electricity generated by renewable energy sources are examined.Based on the analyses, how to choose the best renewable energy source to produce Bitcoin is presented as a scenario.This article briefly answers two key questions: 1. At what price of Bitcoin is it cost-effective for governments to produce it? 2. What is the best renewable energy source to produce it? These two questions can be useful in creating a roadmap and strategy for economists and governments.Future EnergyOpen Access Journalhttps://doi.org/10.55670/fpll.fuen.3.2.2May2024| Volume 03| Issue 02| Pages 16-23Journal homepage: https://fupubco.com/fuenISSN 2832-0328
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Accepted/In Press date: 16 July 2023
Published date: May 2024
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Local EPrints ID: 493963
URI: http://eprints.soton.ac.uk/id/eprint/493963
PURE UUID: 539e03f9-0909-4d98-a802-52ac603172e3
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Date deposited: 17 Sep 2024 17:08
Last modified: 21 Sep 2024 02:13
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Author:
Mehdi Aliehyaei
Author:
Ali Tofighi
Author:
Marc A. Rosen
Author:
Hamed Afshari
Author:
Soulmaz Gheisari
Author:
Amir Safari
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