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Heat Source Optimal Control System
Control System that Maximizes the Energy-saving Impact for a Heat Source System
The operation configuration for maximizing the energy-saving impact on heat source systems varies depending on the conditions of outside air and loads. Manual configuration cannot always optimize the operation in accordance with the ever-changing outside conditions.
With optimized control based on simulations, this technology maximizes the impact of energy saving for heat source systems.
Impacts of Utilizing the Heat Source Optimal Control System
- This system maximizes energy savings from heat source systems, and helps reduce running costs and CO2 emissions.
- It automatically collects various measurement and computational data, and then makes operating records and energy saving volumes visible, contributing to a further improvement in operation.
Configuration of the Heat Source Optimal Control System
The heat source optimal control system consists of two subsystems, HSSsim and GPPECO.
HSSsim, heat source simulator
- HSSsim is energy simulation software that supports any heat source system.
- With it's nonlinear mathematical programming it can perform computational optimizations.
GPPECO, heat source optimal control software
- This software is designed to reflect upon the simulation results from HSSsim in order to control operations in a smooth and safe manner.
- It features monitoring and heat source optimal control capabilities.
Flow diagram
Features of the Heat Source Optimal Control System
Achieving optimal control
Based on the results of computational optimization with the HSSsim heat source simulator, the system delivers optimal control in accordance with the ever-changing outside conditions.
Various control modes
The system has the capability to keep a stabilized operation and to switch between optimal and fixed control modes.
Real-time energy saving display
The system provides a real-time display of the computed volume of energy savings relative to a reference system.
Screenshot of energy saving volume comparison
Example estimation with HSSsim
| R1 | R2 | Operation Pattern | Cold Water Pump Cooling Water Pump |
Optimized Operation | Annual Energy Use for Operation | |
|---|---|---|---|---|---|---|
| 1 | Constant-rate turbo | Constant-rate turbo |
R1  R2 |
Constant flow | - | Reference |
| 2 | Variable flow | - | -15% | |||
| 3 | Inverter turbo |
R2 R1 (Inverter machine prioritized) |
Variable flow | - | -20% | |
| 4 | Applied | -30% |
Optimized control provides a 30% better energy-saving operation than a reference system.
(Energy-saving effects may vary depending on system.)
HSSsim heat source simulator enables examination and control of an optimal system.
Flow of Control
Heat source optimal control system
- PLC (Programmable Logic Controller) collects measurements.
- GPPECO determines optimal settings based on the collected measurements.
- The monitoring system writes the optimal settings into PLC.
- PLC controls the plant based on the optimal settings.
Reduction of Environmental Loads (Other technologies & services)
