ES2924917A1 - Flexible valuation procedure for renewable energy using hydrogen and blockchain technologies (Machine-translation by Google Translate, not legally binding) - Google Patents

Abstract

The following procedure refers to a flexible valorization method of renewable energy that uses the combination of simultaneous receivers based on hydrogen technologies and cryptocurrency mining systems, including the regulation of electrical distribution networks through positive, negative or negative energy balance. null. In particular, the procedure starts from the production of energy through renewable technologies and its storage through systems of electrolyzers and hydrogen compressors. Once the hydrogen vector energy storage system is filled, the energy is used in the Blockchain recovery system through ASICs or GPUs, or it can be used to meet the demand of the distribution network in which it is integrated. The flexible recovery system that is presented also allows, in the same way, to take energy from the network in periods of excess production of renewable energy or deficit of self-produced energy, both to produce and store hydrogen and to recover energy, stored or network, in the Blockchain valuation system itself, resulting in the aforementioned flexible regulation of the electricity network. (Machine-translation by Google Translate, not legally binding)

Description

DESCRIPTION

Flexible recovery procedure for renewable energy using hydrogen and blockchain technologies

The recovery process begins with the production of electrical or thermal energy through any renewable energy source, typically photovoltaic solar energy or wind energy as they are the most commonly used types, although it can also be applied to sources such as thermal solar energy, biomass, biogas, geothermal, etc.

Next, the renewable energy produced is used to meet the energy needs of the installation instead of the site, so that the energy generated is offset against that consumed in real time through the corresponding computerized energy management system.

The recovery of the renewable hydrogen generated at the facility can be carried out, either through its direct production for immediate use in an industrial process or for services, or for its storage in the corresponding hydrogen compression and pressure storage system.

In the event that the hydrogen energy storage system is full, or the direct production system for the immediate use of said gas is inactive, the surplus energy from the renewable installation is used in the Blockchain valorization system, which can perform the use of energy by mining cryptocurrencies through integrated circuit equipment for specific applications (ASICs) or through generic computer equipment, such as graphics cards (GPUs) and their aggregation devices (mining rigs).

This combined system of hydrogen and Blockchain technologies is adjustable and flexible in terms of the recovered energy, depending on the number of recovery operating equipment and its energy consumption configuration, so that part or all of the energy can be recovered. surplus renewable energy, or take additional energy from the network to increase the load of the installation if necessary, producing a negative, null or positive energy balance, respectively, depending on the needs of the network and the supply and distribution facilities of hydrogen.

For this, the corresponding automatic measurement, regulation and industrial control systems of the devices are used, through which the combined use and distribution of energy through the different devices is managed. This also includes the corresponding energy management and recovery software for the procedure described.

Components and subsystems

The proposed procedure comprises the following components and subsystems:

1. Renewable energy facility, defined as any energy production facility whose primary energy source can be regenerated by natural means.

2. System of regulation and treatment of the electrical energy produced in the renewable installation, by means of DC/AC inverter equipment and/or synchronizing the signal with that of the network.

. Cryptocurrency mining computer system, which uses electrical energy to process, encrypt and decrypt the transaction codes of the block chain in exchange for an economic reward.

. Automatic regulation and control system of the installations, where the complete flexible energy recovery process and its corresponding sub-processes are monitored and managed, which includes:

a. Computer system for energy management and recovery for the procedure described, which shows, through the corresponding dashboards, real-time monitoring of the flexible energy recovery process. b. Management software that also has the corresponding database to store the information related to the energy produced, the energy consumed, the energy recovered in the form of hydrogen or cryptocurrencies and the online payments made, being able to be implemented online through through executable applications on computer devices and mobile phones. . Hydrogen production electrolyzer system, in which electrical energy is used to dissociate water into hydrogen and oxygen for later use.

. Hydrogen compression and storage system, which uses electrical energy to compress and distribute hydrogen for immediate use or store it for later use.

. Electrical distribution network with adjustable capacity, through which the installation is supplied with energy and the excess energy produced is recovered.

Claims (1)

1. Procedure for the flexible recovery of renewable energy through the combined use of hydrogen and Blockchain technologies, characterized by the regulation, management and monetization of energy through renewable technologies, its storage through systems of electrolyzers and hydrogen compressors and its regulation flexible through ASIC or GPU type cryptocurrency mining devices, as well as through its online implementation through the corresponding software and management computer system.