Patent ID: 12254472

DETAILED DESCRIPTION OF THE INVENTION

Renewable energy generation may originate from multiple power generation systems. In a preferred embodiment, wind-turbine and solar harnessing devices are the preferred methods of generating power from natural resources. To deliver off-grid wireless networking functionality, modular system architecture such as solar panels, wind turbines is paramount for distribution, maintenance, and ease-of-implementation.

Generated power is transmitted to and through available controllers to invert the power into usable and stable voltages, then being delivered to energy storage devices contained within the modular housing system. Energy storage devices may exist in the form of lithium-ion, lithium-phosphate, vanadium redox, and/or hydrogen battery cells. In a preferred embodiment, the system is self-powered by the system's own power generators and energy storage system.

This fully integrated system generates the following services: non-fungible token (NFT) transactions via RECs, tokens, or fiat currency; off-grid smart contract computations for user accounts connected via the provided wireless network; off-grid omni-token mining, minting, staking, and/or burning functions; wireless and mesh networking connectivity for off-grid and long-range Wi-Fi 802.11 standard broadcast routers; Web 3.0 decentralized application computing operations and bridge to Web 2.0 (Global Internet) connection.

With excess power generation utilized for REC services, transactable RECs can be converted to stablecoin tokens for wider transaction availability. RECs generated from the system may be transacted/sold under commonly used tax-incentivized vehicles, such as power-purchase agreements (PPA) and REC-arbitrage. A novelty of integrated token distribution computations from local blockchain processing involves REC-to-stablecoin network trading for open-market transactions. In one example, 1 megawatt-hour (MWh) of excess energy generated equals 1×MWh of a REC, valued at local electricity market rates. Within tradeable RECs of open-market credit purchase agreements, the 1 MWh REC may be transacted by a purchaser with stablecoins or internally purchased with equivalent stablecoin value, to promote the available access of produced renewable energy.

Connected accounts to the token-redistribution system will be incorporated into a locally cached database and processing server(s) and integrated into SafeMoon native blockchain operations. All Web 3.0 decentralized transactions with token exchanges, NFT marketplaces, and omni-chain operations are stored and cached into the local digital ledger architecture, which is then transmitted to the native global decentralized ledger architecture.

Within the modular system, arrays of computational processing devices—mainly consisting of graphic processing units (GPU) and/or application-specific integrated circuit (ASIC) equipment—innervate power supply operations from the energy storage systems. For example, in one embodiment the processors monitor the charge contained in the energy storage systems and, at a certain preset level, trigger the energy storage systems to deliver a preset number of MWh to the power substation, then remotely verify receipt of payment for each delivery and related REC generation/receipts. Within the onboarded servers/GPUs, locally cached and encrypted software of the primary blockchain is installed and replicated for high-availability operations. All transactable data, local to the system deployment, will be stored in the local chain ledger(s)—to include power generation supply, renewable energy credit generation and transactions, local-NFT transactions, wireless NFT-identification (ID) account interoperations, and local token transaction operations.

The onboarded GPU servers or other processors house the locally cached and processing blockchain, as well as conduct mining, minting, staking, or burning operations to expand local liquidity volume. Upon reaching predesignated monetary thresholds, the local liquidity value may be either transacted for stablecoin, such as USDT, USDC, or BUSD tokens, native network and blockchain ecosystem processing coins, such as Bitcoin, Ethereum, exchange coins, etc., or for SafeMoon created or other custom integrated tokens via the Web 2.0 Internet connection proxy.

Excess energy generated from the system is continuously monitored and stored via the installed redundant ledger. This energy is tagged as REC eligible via chain-enabled smart contracts and made available for purchase on the open market, which may then be transactable through local power substations, energy storage transfer systems, centralized exchanges, decentralized exchange environments or alternative buying power controls regulated by compliance offices. The onboarded computational devices automate the REC transaction process through the Web 2.0 Internet connection proxy. The capital generated from the purchase is deposited into off-system accounts that are connected to and monitored by the system via the internet, allowing the ledger to capture the entire transaction data onto the local processing chain.

Wireless network operations may traverse long-range Wi-Fi extended networks to create a centralized routing topology to community areas and/or allow each connected device to route wireless traffic for optimal Web 3.0 (tokenomic/smart-contract) or Web 2.0 (802.11 standard) bandwidth usages. Long-range Wi-Fi protocols that may be incorporated into the onboarded processing routers may consist of OpenWrt, LoRaWAN, Sigfox, or other peer-to-peer enabled or point-to-point radio wave communications. Available energy storage systems will always have capacity to provide required power to the onboarded router(s) and antennas to operate the requisite long-range Wi-Fi protocols.

Wi-Fi equipped devices such as smart phones, laptops, servers, remote sensing, or 802.11 standard network adapter-enabled digital systems may connect to the wireless local area network (WLAN) if within geographic reach. Network transmission distances will vary on router, antenna, and network protocol used. Upon connecting to the local access point(s) AP, users will be prompted to create a NFT-ID account and/or SafeMoon Wallet account to utilize the network functionality of standard Internet services, regulated by local Internet service providers, and/or Web 3.0 decentralized application services through SafeMoon blockchain operations and smart-contracts. Local APs of the WLAN configuration may be user endpoints if configured with mesh-networked protocols, downloaded through the local device.

DETAILED DRAWING DESCRIPTION

FIG.1shows an embodiment of the inventive energy-to-token redistribution system10wherein a plurality of power generators20transmit generated electricity to a blockchain system30, such blockchain system comprising energy storage systems31, processors32containing blockchain integrated smart contracts, transceivers33and a Web. 2.0 Internet connection proxy34and Web 2.0 gateway, whereby the electricity is transferred to the energy storage systems and thereby via power transmission line51to a power substation50, as executed via off and on-chain smart contracts, for resale to the public power grid. All related transactions, such as sales of power when delivered to the power substation, are stored in a redundant ledger on the processors32, with all such transactions and ledger entries automatically communicated via transceiver33to wireless endpoints40and/or via Web 2.0 proxy34/Web 2.0 gateway35. In an embodiment relying on wireless transmission, the wireless endpoint(s) will then provide internet connectivity.

FIG.2shows an embodiment of a blockchain distributed network60comprising the blockchain system ofFIG.1, wherein the blockchain system creates one REC for each MWh of generated power transmitted from the energy storage systems31, makes such RECs and, optionally, associated NFTs available for purchase to REC/NFT purchasers80and effects a transfer70of each such REC to such purchasers, thereby creating fiat-to-token transaction data90, which data is stored in the redundant ledger on the processors32.

INDEX OF PARTS

10Energy-to-token redistribution system20Power generators30Blockchain system31Energy storage system32Processor33Transceiver33A Transceiver cabling34Web 2.0 internet connection proxy35Web 2.0 gateway36Blockchain integrated smart contracts40Wireless transceiver endpoints50Power substation51Power transmission line60Blockchain distribution network70REC80REC/NFT purchasers90Fiat-to-token transaction data

The references recited herein are incorporated herein in their entirety, particularly as they relate to teaching the level of ordinary skill in this art and for any disclosure necessary for the commoner understanding of the subject matter of the claimed invention. It will be clear to a person of ordinary skill in the art that the above embodiments may be altered or that insubstantial changes may be made without departing from the scope of the invention. Accordingly, the scope of the invention is determined by the scope of the following claims and their equitable equivalents.