10/30/2014
JSC "NBI" has completed a project to implement a software-hardware complex at Novosalavatskaya CHPP.
The main objective of the project is: implementation of a software-hardware complex that allows configuring the technical-economic model of NSCHPP (digital twin of CHPP), which based on the given input data will enable:
- optimize operating modes of NSCHPP equipment;
- optimize load on operating equipment according to the given dispatch schedule based on marginal income increase criteria;
- select optimal composition of generating equipment;
- calculate lost profit due to emergency and urgent repairs;
- calculate fuel cost increase considering changes in fuel structure;
- determine optimal Pmin, Pmax while ensuring heat energy supply and meeting the electrical load dispatch schedule;
- provide capability to adjust energy characteristics during system operation;
- plan and optimize fuel consumption in advance;
- provide information for forming optimal VSVGO, RSV, BR applications;
- generate reports for user-specified time periods according to the list and specified formats;
- create and store user's own simulation modes in the System for subsequent analysis.
The result of the implemented project was the deployment of a hardware complex that accomplished all set tasks and established optimal operating modes in various WECM sectors..
The implemented system enabled scenario calculations of consumption volumes, RSV price generation at nodes, and forecasting of RSV prices and generation consumption volumes at various planning horizons.
- optimize operating modes of NSCHPP equipment;
- optimize load on operating equipment according to the given dispatch schedule based on marginal income increase criteria;
- select optimal composition of generating equipment;
- calculate lost profit due to emergency and urgent repairs;
- calculate fuel cost increase considering changes in fuel structure;
- determine optimal Pmin, Pmax while ensuring heat energy supply and meeting the electrical load dispatch schedule;
- provide capability to adjust energy characteristics during system operation;
- plan and optimize fuel consumption in advance;
- provide information for forming optimal VSVGO, RSV, BR applications;
- generate reports for user-specified time periods according to the list and specified formats;
- create and store user's own simulation modes in the System for subsequent analysis.
The result of the implemented project was the deployment of a hardware complex that accomplished all set tasks and established optimal operating modes in various WECM sectors..
The implemented system enabled scenario calculations of consumption volumes, RSV price generation at nodes, and forecasting of RSV prices and generation consumption volumes at various planning horizons.