EZ Blockchain Partners With Texas-Based Oil Provider to Monetize Wasted Natural Gas With Bitcoin – Mining Bitcoin News

While a number of media pundits and politicians have been talking about Bitcoin’s energy consumption, there’s been a myriad of firms working toward green solutions well before all the controversy. Unfortunately, critics don’t highlight the amount of renewables miners use or the cogeneration applications. One project called EZ Blockchain has partnered with the Texas-based oil and gas service provider, Silver Energy to monetize wasted natural gas with bitcoin, while reducing emissions.

Monetizing Stranded Gas and Reducing Emissions With Bitcoin

A firm called EZ Blockchain recently detailed that the company has partnered with Silver Energy, an oil and gas provider based in Texas. According to the firm, the team installed Silver Energy’s first mining site at the company’s Alberta, Canada location in February 2021.

After the installation of Microbt Whatsminers, EZ Blockchain said that the project reached around 1 megawatt of power consumption. All of the power is “processed from 250 MCFd of stranded natural gas using a gas-electric generator,” the company’s blog post notes.

EZ Blockchain’s setup at Silver Energy’s site.

“Today oil and gas producers are implementing Bitcoin mining in the oil field as a part of their ESG policy more often,” the cofounder and CEO of EZ Blockchain, Sergii Gerasymovych said in the report. Gerasymovych added:

Bitcoin mining’s enormous power consumption can solve environmental problems caused by gas flaring and leaking wells. Since Silver Energy is an oil and gas service company, it was a natural symbiosis for EZ Blockchain to work with them.

Natural gas is a byproduct of oil extraction and oil providers either have to flare the gas or use it in some other way. The World Bank estimates 5.3 trillion cubic feet of natural gas is flared annually into the atmosphere.

EZ Blockchain’s manufacturing production line designs and manufactures mobile data centers that act as a flare…

Read More