Peter Ghanem Patent application: INTERNET OF THINGS (IOT) ENERGY DEVICE
Peter Ghanem more advanced and sophisticated grid is replacing the current electrical utility grid in the US. The proliferation of renewable energy sources poses the biggest threat to the infrastructure that is currently in place. Because renewable energy sources are unstable, poor management can result in severe grid instabilities. The initial centralized design is out of date, deteriorating, and urgently needs to be upgraded. A decentralized model using distributed energy resources is becoming the preferred approach in the market. These include producers of clean energy, including solar, wind, and hydro. In contrast to the centralized grid paradigm, there is now Paul angerame widespread agreement that energy sources and consumers should be as close as practicable.
Paul Angerame Shows Electricity pro consumers can transmit extra energy produced by renewable energy sources to the grid using a balance of system devices. However, the grid’s infrastructure cannot support the growing proportion of renewable energy sources due to the high cost, complicated installation, and management requirements of such equipment. As a result, the need for an upgraded pro-consumer device that enables better control of microgrids and a strategy for managing the energy infrastructure is recognized in the industry, as is the need to encourage customers to use renewable energy sources.
Due to this reason, the main goal of the current invention, introduced by Peter Ghanem, is to provide a micro-grid with improved management, two-way communication, and Internet of Things capabilities. Another goal of the current idea is to encourage Peter Ghanem people to use renewable energy sources to power their houses, offices, and other similar structures.
According to Peter Ghanem the goals of the current invention include the ease of installation and management of the device. The idea is to make it possible for people to use renewable energy on a large scale, make installation and management more affordable, and avoid the need for expensive centralized solutions.
In one aspect, a technique introduced by Peter Ghanem, for maintaining a hybrid electricity grid infrastructure based on fuel-based electricity and renewable energy input from pro-consumers has been revolutionized. The strategy includes providing a number of IoT energy devices. Each IoT energy device includes a control unit configured to control the distribution of renewable energy stored in a storage unit to one or more energy loads and the hybrid electricity grid infrastructure. The method also includes the steps of connecting the various IoT energy devices to the Peter Ghanem aggregator server through an external network, where the aggregator server is operationally connected to the infrastructure of the hybrid electricity grid; and determining the flow of each of the various IoT energy devices for a predetermined period, where the on-time is the length of time for which the respective IoTenergy device can feed the renewable energy to the hybrid electricity grid.
One use of the technology uses a LoRoWan or Wi-Fi network as the external network. The network controller is set up to enable two-way communication between the control unit and the aggregator server. The method also includes data acquisition receiving the state of charge and readiness of the various IoT energy devices from the aggregator server and transmitting instructions to one or more of the various IoT energy devices to deliver the renewable energy to the control unit. The method can also include steps for the aggregator Peter Ghanem server to identify one or more of the many IoT energy devices based on their readiness and state of charge and for the aggregator server to generate instructions based on the short-term projected energy demands. These additional steps include determining the hybrid electricity grid infrastructure’s current and short-term projected energy demands.
The storage unit, a rechargeable battery in one technique implementation, is added to each IoTenergy IoT. Appliances used in a home make up one or more energy loads.
In another aspect, an IoT energy device is disclosed for managing the distribution of renewable energy produced from one or more renewable energy sources to one or more energy loads and an electricity grid infrastructure. The IoT energy device includes: a control unit configured to control the distribution of renewable energy stored in a storage unit to one or more energy loads and an electricity grid infrastructure, the control unit is configured to connect to an aggregator server;
A Wi-Fi network or a LoRoWan network may be used as the external network in one implementation of the IoT energy device. The network controller is set up to establish a connection for two-way communication between the control unit and the aggregator server, with the control unit additionally set up to transmit information about the storage unit’s state of charge and the readiness of the IoTenergy device to the aggregator server, as well as to receive instructions from the latter on how to offload the renewable energy in the storage unit to the electrical grid infrastructure. The control unit is set up to evaluate the IoT energy device’s readiness and the storage unit’s state of charge.
The Internet of Things (IoT) energy device, specifically an IoT energy device for regulating demand in a microgrid architecture based on renewable energy, is the focus of Peter Ghanem patent application.
