The model's output statistics showed how energy was distributed among the consumers and made it possible to analyze capital and operational expenditures.ĪnyLogic helped represent the energy system holistically, connecting different systems and entities in one model. The heat went to households, whereas electricity could go to households or to the grid.
It is one of the most cost-efficient methods for reducing carbon emissions.ĮIFER engineers used AnyLogic to model and optimize a co-generation energy system’s behavior and find out how its various energy sources interact.Īn agent-based model represented the co-generation plant's electricity and heat production, households, and other tertiary sector consumers. This process involves the simultaneous generation of electricity and useful heating, cutting production costs overall. Using cloud coverage scenarios, EIFER showed the impact meteorological conditions could have on the electricity system.Ĭase #2: Optimization for Local Energy System Management ProblemĮIFER researchers study not only new ways of energy generation but also existing ones, namely co-generation. This lead the analysts to discover that under certain circumstances thermal power generation during times of cloud cover could cause system imbalances.ĪnyLogic modeling helped simulate the influence of photovoltaic solar on the island’s current energy system.
#Anylogic electricity how to#
After the inclusion of solar panels in the model, experiments were run to understand the effect they could have on the whole system and how to avoid blackouts or brownouts.Ī scenario with the island partly covered by clouds was designed to test system stability. The area with the lowest voltage (the consumer level) was chosen for the implementation of photovoltaic solar. The current system comprised three grid levels based on voltage. As part of its work to reduce oil dependency and help cut costs, EIFER wanted to test how the inclusion of photovoltaic solar power would affect classical energy systems in such territories. With AnyLogic, the institute also modeled the handling of emergency situations that might affect a decentralized energy system.Ĭase #1: Smart Grid Modeling on Island Systems – Demand Side Flexibility ProblemĮnergy production on island territories is expensive and often depends on the cost of oil.
#Anylogic electricity software#
The software allowed the design of multiscale models, representing all parts of the energy system, and allowed the investigation of the causes and effects of phenomena throughout a system. EIFER engineers chose AnyLogic simulation modeling to determine how localized systems with various novel features could be implemented.
Local energy grids are often more at liberty to accommodate power storage, renewable energy sources, and smart technology related to demand forecasting. Localized energy systems, unlike classical ones, do not need to transmit electricity over long distances, as they are located close to the load they serve. It works on the decentralization of energy systems in various territories and promotes renewable energy sources. The European Institute for Energy Research (EIFER) is a joint research center created by Karlsruhe Institute of Technology and EDF.
0 kommentar(er)
