Jumat, 11 November 2011

Multi-Coal Fired Boiler Optimum Control


Multi-Coal Fired Boiler Optimum Control uses a proprietary algorithm from MHI. It monitors the characteristics of coal and the status of combustion in the boiler based on the heat balance of each heating surface of the boiler to support optimum control. This function runs on an operator station (OPS) from DIASYS Netmation.

Features

  • A large number of successful deliveries
    Since the first delivery in 1997, a large number of Multi-Coal Fired Boiler Optimum Control systems have been delivered for Mitsubishi supercritical-pressure variable-pressure once-through boilers.
    Parts of this system have also been delivered for drum type boiler plants.
  • Changing parameters is not necessary when coal types are switched
    The control parameters of the boiler are automatically set based on estimates of the state of the heating surfaces of the boiler. Consequently, changing parameters whenever a different coal type or coal type group is used is no longer necessary.
    Multi-Coal Fired Boiler Optimum Control can automatically set the control parameters for a boiler even when blended coal is used.
  • Shorter adjustment period when a new type of coal is used
    Even when a new type of coal is decided to be used, if it can be burned mechanically by adjusting combustion, Multi-Coal Fired Boiler Optimum Control can reduce or even eliminate the APC adjustment period.

Functions

Multi-Coal Fired Boiler Optimum Control offers the following functions.
Item Brief description
Characteristics change by coal type
(heat absorption characteristics, generated heat)
Estimation of the heat absorption distribution
(heat absorption index)
If the heat absorbed by each heating surface is estimated, the control parameters can be adjusted for the heat absorbed by the boiler. Consequently, compared to the case where the control parameters are switched based on a coal type group, more precise control parameters can be fed.
Adjustment for generated heat If the heat absorbed by each heating surface is estimated, the heat input from the coal and air and the heat output to the gas at the boiler exit can be calculated online. Based on the heat input and output, the generated heat can be estimated, and the fuel parameters can be adjusted in a precise manner.
Estimation of the moisture content of the coal The moisture content of the coal can be estimated from the heat balance in the mill. Using this estimation along with the mill current and roller lift, you can get the characteristics of the columnar coal and automatically set the parameters related to the mill, such as the mill exit temperature, the rotation speed of the mill rotating classifier, and the oil pressure of the mill pressure device.
Estimation of the mill load ratio By using model calculations based on a mill model, the hard grove index (HGI) can be estimated. By using this estimation along with the estimate of the moisture content of the coal, you can adjust the reference capacity of the mill, and you can estimate the mill load ratio from the actual amount of supplied coal.
Boiler characteristics change over time Estimation of the cleanness of the heating surfaces If the heat absorbed by each heating surface is estimated, the thermal conductivity can be calculated online. As the combustion in the boiler continues, the thermal conductivity decreases. Optimum timing of activating soot blowers should be based on time and also on the thermal conductivity as a good indicator.

System Configuration

  • Real-time calculation based on fuzzy logic
    The state of heating surfaces can be estimated based on fuzzy logic. The effect of a coal type can be calculated with high precision in real time from the absorbed heat.
  • Constructed from software logic
    The whole Multi-Coal Fired Boiler Optimum Control can be constructed with DIASYS software logic using the Mitsubishi Interpreter DDC Oriented Language (Mitsubishi IDOL).
  • Easy extension from a preexisting system
    Except for a few sensors(Note), all sensors necessary for Multi-Coal Fired Boiler Optimum Control are already built into a plant control unit (APC).
(Note) RH spray water flow meter, primary RH entrance steam flow meter, and denitrification entrance gas temperature sensor

Specifications


Hardware specifications

The specifications of the hardware necessary for Multi-Coal Fired Boiler Optimum Control are as follows.
Item Specification
Model DIASYS Netmation(duplexed CPU, single PIO system)
Structure IP-33(dust-proof, water-proof)
Conditions 0 - 54 deg C / 90%RH or less
Num of boards/Dimensions 1board / 800mm(W) x 800mm(D) x 2300mm(H)
Insulation resistance 500VDC / 5MΩ or greater
Power supply-FG or I/O modules-FG
Withstand
voltage
Power supply-FG 2000VAC/1minute
Digital I/O terminal-FG 1500VAC/1minute
Analog I/O terminal-FG 500VAC/1minute
Coating External,internal,channel base : Munsell 5Y7/1(half gloss)
Other feature Dedicated maintenance tool and gateway device
(to interface with systems other than DIASYS Netmation)

Software specifications

The specifications of the software necessary for Multi-Coal Fired Boiler Optimum Control are as follows.
Item Variable-pressure
once-through boiler
Constant-pressure
once-through boiler
Drum boiler
Description lunguage Mitsubishi Interpreter DDC Oriented Language(IDOL)
Operating speed 100msec
Number of control roops Depends on the mounted features and existing system.
Absorbed heat quantity index Available(load change test with at least 3 coal types is required) Not available
Heating value adjustment Availbale Not available
Heating surface fouling Detected
Moisture percentage in coal Detected(estimated for each mill)
Mill load factor Detected(estimated for each mill)

Metering System




General System Configuration

Metering System consists of flow meter, flow calculator panel, G/C and HMI application softwares. Flow calculator panel has flow computer, PLC, G/C Controller.
Flow compuer performs  calculation of flowing density, volume correction, mass flowrate, corrected volume flowrate and energy flowrate by refering to gas component,  pressure, temperature  in case of natural gas.  PLC performs automatic meter run switching or manual valve operation. Also PLC communicates with upper control system like MCS or RTU. HMI application enables user to easlily operate system. Please refer to Metering Software part for more details.
Gas Metering System General Configuration Diagram
Metering System Panel

Metering Panel (or Flow Calculator Panel)  is different as system configuration or user requirements. However basically includes flow computer, G/C controller and PLC.

Flow Computer Panel
Flow Calculator Panel
Flow Computer Panel

Gas Chromatograph
The gas chromatograph is used to obtain on-line composition information of selected process streams for current process operation. The gas chromatograph must operate automatically with a high degree of reliability, require a minimum of maintenance, and perform the desired analysis within the required time. Gas composition is used for density calculation and energy calculation.
The analyzer includes a chromatographic column(s), sample injection and switching valves, a detector, a temperature controller, flow controls for the carrier and detector medium(s), and the necessary electronics. The controller function may be separate or may be in the field with the analyzer, which thereby becomes a stand-alone gas chromatograph. Both systems provide analog outputs for concentration data and digital outputs for alarms, external stream select, and other external functions.
The thermal conductivity detector (TCD) is the most widely used because of its universal response to all components and its simplicity. The detector measures the thermal conductivity of the gas passing through it. The carrier gas is selected to have a thermal conductivity different from the components being measured. Helium or hydrogen is normally used for this reason.
GC ( Gas Chromatograph General Configuration )
GC (Gas Chromatograph) Panel
Gas Chromatograph Panel
Applied Standard
  • Orifice Meter : AGA 3, ISO 5167
  • Turbine Meter : AGA 7
  • Ultrasonic Meter : AGA 9
  • Density & Compressibility Calculation : AGA 8
  • Energy Calculation : ISO 6976