Paul Angerame to build the markets, businesses, and resources necessary for organizational expansion, Paul Angerame has collaborated with a global leadership team of professionals. He is well experienced in the use of electric vehicles, electrification, and updating electrical utilities. He also has extensive knowledge of renewable energy and infrastructure.
Paul Angerame filed a patent application on July 7, 2022, for his idea of an Internet of Things energy device for a microgrid architecture that uses renewable energy. According to Paul Angerame, the most recent concept intends to simplify installation and operation, promote increased use of renewable energy, lower the cost of installation and maintenance, and address the need for expensive centralized control.
The development of renewable energy sources poses the biggest danger to the current infrastructure. Since renewable energy sources are fragile, ineffective management can significantly contribute to system instability. The core centralized design needs to be updated immediately because it is out-of-date and inefficient. The market is moving more and more in favor of a decentralized, distributed energy resource management model. Among them are businesses that produce components for renewable energy sources like solar, wind, and hydro. There is widespread consensus that, in contrast to the centralized grid model, energy suppliers and consumers should be as close as is practicable.
Electricity experts can add extra energy produced by renewable energy sources to the grid using a range of system components. The infrastructure of the grid, however, cannot support the increasing proportion of renewable energy sources due to the cost, difficulty, and administration of renewable energy technology. The market has therefore recognized the need of boosting consumer adoption of renewable energy sources and the need for an upgraded pro-customer device that gives improved microgrid control and a strategy for managing the energy infrastructure.
In order to improve the administration, two-way communication, and Internet of Things capabilities of microgrids, Paul Angerame most recent invention largely focuses on these areas. Another goal of the present approach is to encourage individuals to power their residences, places of employment, and other similar facilities with renewable energy.
It has been made public that Paul Angerame has developed a plan for sustaining a hybrid electrical system that draws power from fossil fuels and renewable energy sources from pro-consumers. The approach should include the development of a sizable number of IoT energy devices with control units configured to monitor the transfer of renewable energy stored in a storage unit to one or more energy loads. It should also include the creation of a hybrid electrical system. The technique also involves connecting the various IoT energy devices to an aggregated platform through an external network, where the platform is operationally connected to the infrastructure of the hybrid electricity grid; and computing each IoT energy device’s on-time over a specified period, where the on-time is the amount of time each IoT energy device may deliver renewable energy to the hybrid electricity grid.
In one application of the technology, the external network could be a LoRaWan or Wi-Fi network. The configuration of the network control system enables the communication between the control unit and the aggregator server in both ways. Other phases of the method involve getting data from the aggregator server on the readiness and charge of various IoT energy devices and sending instructions to one or more of those various IoT energy devices to supply the control unit with renewable energy. The aggregator server may additionally choose one or more of the various IoT energy devices based on their readiness and charge level as well as general instructions based on anticipated short-term energy needs. These extra operations include calculating the energy usage both now and in the near future for the hybrid power grid architecture.
Now, a storage component is present in every IoT energy device, which in one implementation of the idea is a rechargeable battery. A home’s energy loads may include one or more appliance usages.
Another element of an IoT energy device is the management of the distribution of renewable energy produced by one or more renewable energy sources to one or more energy loads and electrical grid infrastructure. The IoT energy device’s control unit is set up to establish a connection with an aggregator server. It is made to control how renewable energy is distributed from a storage unit to one or more energy loads and the grid infrastructure.
An external network with one model of the IoT energy gadget could be a Wi-Fi or LoRaWAN network. The control unit is configured to communicate with the aggregator server about the storage unit’s charge level, the IoT energy device’s readiness, and instructions for transferring the renewable energy in the storage unit to the infrastructure of the electrical grid. The network controller creates a link for two-way communication between the control unit and the aggregator server. The control unit is set up to evaluate both the IoT energy device’s readiness and the amount of battery charge in the storage unit.
Facility managers can utilize IoT devices like smart thermostats and lighting systems to track the real-time energy usage of a facility and change the energy use schedule for some of the electronics to lower demand during peak hours.
The Internet of Things (IOT) energy device, or more specifically, an IOT energy device for managing consumption in a microgrid architecture based on renewable energy, is the primary subject of Paul Angerame’s patent application.
