Turbine controllers are a type of embedded control equipment that is suitable for small turbomachinery. They are suitable for different types of waste heat power generation, waste to energy, biomass, solar thermal power generation, and industrial drag sets, which can provide control strategies such as isolated operation, thermal implicated regulation, aid admission regulation, and sliding pressure operation. The controlled parameters are mainly unit speed, power, and pressure. The intelligent turbo-controller acquires operation-related parameters at real time such as unit rotational speed. After an adequate amount of feedback, regulation of valve open angle, and computing, using analog channels to generate valve position control signals, and changing and adjusting the valve opening, the set’s controlled parameters are finally kept within a specified range. Industrial components are used for the controller hardware, placing it in line with military standard GJB/Z35-93, and its immunity to electromagnetic interference is in line with GJB151A, HJB34-1990, and IEC61000-4 standards, ensuring that the controller can operate steadily and reliably in an industrial environment in the mid- and long-term.
The T80/T80C single/dual channel general turbine control module is a type of small turbomachinery control equipment that is mainly suitable for different types of turbo-generator sets and industrial drag sets that are of 12MW and below. Industrial components are used for the controller hardware, which are in line with the military GJB/Z35-93 standards, and its immunity to electromagnetic interference is in line with GJB151A、HJB34-1990 and IEC61000-4, ensuring that the controller can operate steadily and reliably in an industrial environment in the mid- and long-term.
The T50 economical turbine controller is suitable for different types of small industrial turbine sets with single-valve control.
• Real time: Real time acquisition of industrial process control data from the site of subject control, real time calculation and output of suitable control commands, and eventually causing the controlled parameters of the controlled subject fulfill the requirements of the control system.
• Diversity: The control portion is configured with many types of I/O signal processing circuits, completing the logic processing CPU (Central Processing Unit) and completing the data exchange communications port.
• Short cycle: Uses the FPGA (Field Programmable Gate Array) controller to process I/O signals in real time. The control cycle for normal regulating operations is shorter than 50ms.
• Functional completeness: The controller and ancillary equipment is able to provide functions such as field I/O signal processing, adjustment of control algorithm, operating of display controls, and data exchange communication.