Role of control and instrumentation in thermal power plant.
Use of various instruments for the measurements of flow, pressure and temperature in industries.
Thermal plant instrumentation and controlShilpa Shukla
Detail working description of each components used in A Thermal or Coal based Plant for generation of electricity. Controlling and automation is described.
Turbine Stress Control Logic, Calculation & WorkingTahoor Alam Khan
Turbine Stress Control is one of the complex logics of BHEL turbine. This presentation clearly explains the Logic, working, calculations and influence of the same on operation of steam turbine. For further details and understanding, I can be reached on tahoorkhn03@gmail.com.
Thermal plant instrumentation and controlShilpa Shukla
Detail working description of each components used in A Thermal or Coal based Plant for generation of electricity. Controlling and automation is described.
Turbine Stress Control Logic, Calculation & WorkingTahoor Alam Khan
Turbine Stress Control is one of the complex logics of BHEL turbine. This presentation clearly explains the Logic, working, calculations and influence of the same on operation of steam turbine. For further details and understanding, I can be reached on tahoorkhn03@gmail.com.
Thermal Power Plant Simulator, Cold, warm and Hot rolling of Steam TurbineManohar Tatwawadi
The presentation describes the cold rolling, warm rolling and hot rolling and synchronising of steam turbine. The Temperature Matching Chart for Turbine metal and Steam is also discussed in the presentation
Boiler Water Circulation Pumps
1 SCOPE
2 CHOICE OF TYPE AND NUMBER OF PUMPS
2.1 Need for Continuous Flow
2.2 Pump Reliability
3 CHOICE OF DRIVER
4 DUTY CALCULATIONS
5 CHOICE OF SEAL
5.1 Mechanical Seals
5.2 Soft-packed Glands
5.3 Construction Features
5.4 Guarding
6 CONSTRUCTION FEATURES
6.1 Vertical Glandless Wet-stator Motor Pumps
7 LAYOUT
7.1 Non-return Valves
7.2 Reducers at Pump Connections
7.3 Glandless Pumps for System Pressures
Exceeding 60 bar abs
7.4 Access round Glandless Pumps
7.5 Cooling Water Supply
8 RECOMMENDED LINE DIAGRAMS
8.1 Horizontal Pumps in Category 1
8.2 Vertical Wet-stator Motor Pumps in Category
APPENDICES
A PROPERTIES OF WATER AT THE SATURATION LINE
B ANNEX TO API 610, 6TH EDITION 1981:
VERTICAL GLANDLESS WET-STATOR MOTOR PUMPS
C ANNEX TO API 610, 6TH EDITION 1981:
HORIZONTAL BACK PULL-OUT PUMPS FOR BOILER
WATER CIRCULATION DUTY
FIGURES
3.1 NPSH CORRECTION FOR WATER
3.2 VELOCITY OF SOUND IN WATER AT 50 BAR
(NO BUBBLES)
3.3 VELOCITY OF SOUND IN WATER AT 50 BAR
(WITH 3% VAPOR CONTENT)
8.1 RECOMMENDED LINE DIAGRAM HORIZONTAL PUMPS - CATEGORY 1
8.2 RECOMMENDED LINE DIAGRAM HORIZONTAL PUMPS - SOFT PACKED GLAND INSTALLATION
8.3 RECOMMENDED LINE DIAGRAM HORIZONTAL PUMPS - MECHANICAL SEAL INSTALLATION
8.4 RECOMMENDED LINE DIAGRAM VERTICAL WET STATOR PUMPS - CATEGORY 2
BIBLIOGRAPHY
The presentation is based on the discussions of starting operations of a coal based thermal power plant. This presentation is based on the in-house training to the operation engineers of the thermal power plant. It describes the activity chart for the starting of boiler, Turbine and synchronising of Generator, picking up the load etc.
The writeup details the Heat Balance of BHEL 210 MW Turbine Cycle. The Input and Output steam condition of Turbines, Extractions, Deaerator, LP Heaters, Condensers etc have been computed as per the specifications of the turbine manufacturer
Boiler Follow Mode: The boiler is divorced from the generation control, which means the steam turbine utilizes stored energy in the boiler to provide immediate load response. The boiler must then change firing rate to bring pressure back to setpoint.
Turbine Follow Mode: Turbine control valves maintain a set pressure while the boiler fires to maintain load. Drawback here is a slower generation response. There are variations with this scheme, in that the turbine control valves can be fully opened at higher loads to minimize the energy penalty associated with the DP loss across them. In that case, it has been called sliding-pressure control, or even cascade control.
Coordinated Control: In general, you provide various logic schemes to move the steam turbine valves for quick load response, as well as fire the boiler for the anticipated energy requirements of the boiler (generally via an energy balance equation).
ROLE OF C & I IN FERTILIZER PRODUCTION PLANTGaurav Rai
Role of control and instrumentation in fertilizer production plant.
use of different instruments in measurement of pressure, flow and temperature in fertilizer plant.
Thermal Power Plant Simulator, Cold, warm and Hot rolling of Steam TurbineManohar Tatwawadi
The presentation describes the cold rolling, warm rolling and hot rolling and synchronising of steam turbine. The Temperature Matching Chart for Turbine metal and Steam is also discussed in the presentation
Boiler Water Circulation Pumps
1 SCOPE
2 CHOICE OF TYPE AND NUMBER OF PUMPS
2.1 Need for Continuous Flow
2.2 Pump Reliability
3 CHOICE OF DRIVER
4 DUTY CALCULATIONS
5 CHOICE OF SEAL
5.1 Mechanical Seals
5.2 Soft-packed Glands
5.3 Construction Features
5.4 Guarding
6 CONSTRUCTION FEATURES
6.1 Vertical Glandless Wet-stator Motor Pumps
7 LAYOUT
7.1 Non-return Valves
7.2 Reducers at Pump Connections
7.3 Glandless Pumps for System Pressures
Exceeding 60 bar abs
7.4 Access round Glandless Pumps
7.5 Cooling Water Supply
8 RECOMMENDED LINE DIAGRAMS
8.1 Horizontal Pumps in Category 1
8.2 Vertical Wet-stator Motor Pumps in Category
APPENDICES
A PROPERTIES OF WATER AT THE SATURATION LINE
B ANNEX TO API 610, 6TH EDITION 1981:
VERTICAL GLANDLESS WET-STATOR MOTOR PUMPS
C ANNEX TO API 610, 6TH EDITION 1981:
HORIZONTAL BACK PULL-OUT PUMPS FOR BOILER
WATER CIRCULATION DUTY
FIGURES
3.1 NPSH CORRECTION FOR WATER
3.2 VELOCITY OF SOUND IN WATER AT 50 BAR
(NO BUBBLES)
3.3 VELOCITY OF SOUND IN WATER AT 50 BAR
(WITH 3% VAPOR CONTENT)
8.1 RECOMMENDED LINE DIAGRAM HORIZONTAL PUMPS - CATEGORY 1
8.2 RECOMMENDED LINE DIAGRAM HORIZONTAL PUMPS - SOFT PACKED GLAND INSTALLATION
8.3 RECOMMENDED LINE DIAGRAM HORIZONTAL PUMPS - MECHANICAL SEAL INSTALLATION
8.4 RECOMMENDED LINE DIAGRAM VERTICAL WET STATOR PUMPS - CATEGORY 2
BIBLIOGRAPHY
The presentation is based on the discussions of starting operations of a coal based thermal power plant. This presentation is based on the in-house training to the operation engineers of the thermal power plant. It describes the activity chart for the starting of boiler, Turbine and synchronising of Generator, picking up the load etc.
The writeup details the Heat Balance of BHEL 210 MW Turbine Cycle. The Input and Output steam condition of Turbines, Extractions, Deaerator, LP Heaters, Condensers etc have been computed as per the specifications of the turbine manufacturer
Boiler Follow Mode: The boiler is divorced from the generation control, which means the steam turbine utilizes stored energy in the boiler to provide immediate load response. The boiler must then change firing rate to bring pressure back to setpoint.
Turbine Follow Mode: Turbine control valves maintain a set pressure while the boiler fires to maintain load. Drawback here is a slower generation response. There are variations with this scheme, in that the turbine control valves can be fully opened at higher loads to minimize the energy penalty associated with the DP loss across them. In that case, it has been called sliding-pressure control, or even cascade control.
Coordinated Control: In general, you provide various logic schemes to move the steam turbine valves for quick load response, as well as fire the boiler for the anticipated energy requirements of the boiler (generally via an energy balance equation).
ROLE OF C & I IN FERTILIZER PRODUCTION PLANTGaurav Rai
Role of control and instrumentation in fertilizer production plant.
use of different instruments in measurement of pressure, flow and temperature in fertilizer plant.
This provides General layout of thermal power plant , Coal Handling Plant and its cycles, Unloading, Conveying ,Crushing and Crushing Mechanism In Coal handling plant
The slide show was prepared for educating general public on ill effects of Coal based Thermal power plants, and devastation caused by mining.
Literature available through net and other sources have been referred to for the publications.
Data presented, especially on human health, has been substantiated by recent publication “A report by Physicians for Social Responsibility” by Physicians of US, a group which included Nobel Laureates.
Alternate sources of electricity production also indicated
Thermal Power Plant - Full Detail About Plant and Parts (Also Contain Animate...Shubham Thakur
A thermal power station is a power plant in which the prime mover is steam driven. Water is heated, turns into steam and spins a steam turbine which drives an electrical generator. After it passes through the turbine, the steam is condensed in a condenser and recycled to where it was heated; this is known as a Rankine cycle. The greatest variation in the design of thermal power stations is due to the different fossil fuel resources generally used to heat the water. Some prefer to use the term energy center because such facilities convert forms of heat energy into electrical energy.[1] Certain thermal power plants also are designed to produce heat energy for industrial purposes of district heating, or desalination of water, in addition to generating electrical power. Globally, fossil fueled thermal power plants produce a large part of man-made CO2 emissions to the atmosphere, and efforts to reduce these are varied and widespread.
For Video on Themal Power Plant (Animated Working Video) :- https://www.youtube.com/watch?v=ouWOhk1INjo
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I am a Diploma in Mechanical Engineer with 25 years of experience in Oil & Gas,Power Plant(Combined cycle & Thermal),Steel,Cement,Material Handling. Returned from Abu-Dhabi(Combined cycle power project) under HYUNDAI Engg & Constrn.
I had overseas experience in Saudi Arabia,U.A.E,China.
I have 25 years hands – on experience in Construction, Operation, maintenance, commissioning, Overhauling, Fault diagnosis & trouble shooting of large capacity of All Rotating & Static Equipments, Install, align, dismantling, examine and re-assembling, adjust and repair or replace of defective parts of mechanical equipment, such as Boiler,Turbine,Large Gear & centrifugal pumps, Compressors, Turbochargers, Heat exchangers, HFO & lub oil separators, all types of Valves, and other general mechanical maintenance works. I will do independently , as well as team work.
I would like to discuss further suitability to my position at an interview stage to work in your esteemed organization.
Innovative Project Management Practices,Project Management,Cut Time and Cost Overruns,Power Sector,Theory plus Practice,Learning by Doing,Enhance your decision making, Annual Losses in India due to delays cost Rs 125000 crores or USD 25 billion,PERT/CPM.
CONTENTS
Measurements
Significance of Measurement system
Fundamental methods of Measurement
The generalized measurement system
Definitions & basic concepts
Errors in Measurements
Sources of errors
Accuracy Precision
Resolution
Linearity
Hysteresis
Impedance loading
Introduction to Transducers
Classification of transducers
Capacitive
Inductive
Resistive
Electromagnetic
Piezoelectric
Photoconductive
Photovoltaic
This is a brief presentation on the types of instrumentation that can be used for the measurement and verification of various airflow parameters with specific references to the Healthcare Industry
Unit-3 Instrumentation and control in mechanical engineering and other basic subject which contain instruments and their working under the syllabus of RGPV UNIVERSITY Bhopal.
Industrial Training at Shahjalal Fertilizer Company Limited (SFCL)MdTanvirMahtab2
This presentation is about the working procedure of Shahjalal Fertilizer Company Limited (SFCL). A Govt. owned Company of Bangladesh Chemical Industries Corporation under Ministry of Industries.
Water scarcity is the lack of fresh water resources to meet the standard water demand. There are two type of water scarcity. One is physical. The other is economic water scarcity.
CFD Simulation of By-pass Flow in a HRSG module by R&R Consult.pptxR&R Consult
CFD analysis is incredibly effective at solving mysteries and improving the performance of complex systems!
Here's a great example: At a large natural gas-fired power plant, where they use waste heat to generate steam and energy, they were puzzled that their boiler wasn't producing as much steam as expected.
R&R and Tetra Engineering Group Inc. were asked to solve the issue with reduced steam production.
An inspection had shown that a significant amount of hot flue gas was bypassing the boiler tubes, where the heat was supposed to be transferred.
R&R Consult conducted a CFD analysis, which revealed that 6.3% of the flue gas was bypassing the boiler tubes without transferring heat. The analysis also showed that the flue gas was instead being directed along the sides of the boiler and between the modules that were supposed to capture the heat. This was the cause of the reduced performance.
Based on our results, Tetra Engineering installed covering plates to reduce the bypass flow. This improved the boiler's performance and increased electricity production.
It is always satisfying when we can help solve complex challenges like this. Do your systems also need a check-up or optimization? Give us a call!
Work done in cooperation with James Malloy and David Moelling from Tetra Engineering.
More examples of our work https://www.r-r-consult.dk/en/cases-en/
Forklift Classes Overview by Intella PartsIntella Parts
Discover the different forklift classes and their specific applications. Learn how to choose the right forklift for your needs to ensure safety, efficiency, and compliance in your operations.
For more technical information, visit our website https://intellaparts.com
Student information management system project report ii.pdfKamal Acharya
Our project explains about the student management. This project mainly explains the various actions related to student details. This project shows some ease in adding, editing and deleting the student details. It also provides a less time consuming process for viewing, adding, editing and deleting the marks of the students.
Explore the innovative world of trenchless pipe repair with our comprehensive guide, "The Benefits and Techniques of Trenchless Pipe Repair." This document delves into the modern methods of repairing underground pipes without the need for extensive excavation, highlighting the numerous advantages and the latest techniques used in the industry.
Learn about the cost savings, reduced environmental impact, and minimal disruption associated with trenchless technology. Discover detailed explanations of popular techniques such as pipe bursting, cured-in-place pipe (CIPP) lining, and directional drilling. Understand how these methods can be applied to various types of infrastructure, from residential plumbing to large-scale municipal systems.
Ideal for homeowners, contractors, engineers, and anyone interested in modern plumbing solutions, this guide provides valuable insights into why trenchless pipe repair is becoming the preferred choice for pipe rehabilitation. Stay informed about the latest advancements and best practices in the field.
Cosmetic shop management system project report.pdfKamal Acharya
Buying new cosmetic products is difficult. It can even be scary for those who have sensitive skin and are prone to skin trouble. The information needed to alleviate this problem is on the back of each product, but it's thought to interpret those ingredient lists unless you have a background in chemistry.
Instead of buying and hoping for the best, we can use data science to help us predict which products may be good fits for us. It includes various function programs to do the above mentioned tasks.
Data file handling has been effectively used in the program.
The automated cosmetic shop management system should deal with the automation of general workflow and administration process of the shop. The main processes of the system focus on customer's request where the system is able to search the most appropriate products and deliver it to the customers. It should help the employees to quickly identify the list of cosmetic product that have reached the minimum quantity and also keep a track of expired date for each cosmetic product. It should help the employees to find the rack number in which the product is placed.It is also Faster and more efficient way.
Hybrid optimization of pumped hydro system and solar- Engr. Abdul-Azeez.pdffxintegritypublishin
Advancements in technology unveil a myriad of electrical and electronic breakthroughs geared towards efficiently harnessing limited resources to meet human energy demands. The optimization of hybrid solar PV panels and pumped hydro energy supply systems plays a pivotal role in utilizing natural resources effectively. This initiative not only benefits humanity but also fosters environmental sustainability. The study investigated the design optimization of these hybrid systems, focusing on understanding solar radiation patterns, identifying geographical influences on solar radiation, formulating a mathematical model for system optimization, and determining the optimal configuration of PV panels and pumped hydro storage. Through a comparative analysis approach and eight weeks of data collection, the study addressed key research questions related to solar radiation patterns and optimal system design. The findings highlighted regions with heightened solar radiation levels, showcasing substantial potential for power generation and emphasizing the system's efficiency. Optimizing system design significantly boosted power generation, promoted renewable energy utilization, and enhanced energy storage capacity. The study underscored the benefits of optimizing hybrid solar PV panels and pumped hydro energy supply systems for sustainable energy usage. Optimizing the design of solar PV panels and pumped hydro energy supply systems as examined across diverse climatic conditions in a developing country, not only enhances power generation but also improves the integration of renewable energy sources and boosts energy storage capacities, particularly beneficial for less economically prosperous regions. Additionally, the study provides valuable insights for advancing energy research in economically viable areas. Recommendations included conducting site-specific assessments, utilizing advanced modeling tools, implementing regular maintenance protocols, and enhancing communication among system components.
Welcome to WIPAC Monthly the magazine brought to you by the LinkedIn Group Water Industry Process Automation & Control.
In this month's edition, along with this month's industry news to celebrate the 13 years since the group was created we have articles including
A case study of the used of Advanced Process Control at the Wastewater Treatment works at Lleida in Spain
A look back on an article on smart wastewater networks in order to see how the industry has measured up in the interim around the adoption of Digital Transformation in the Water Industry.
Courier management system project report.pdfKamal Acharya
It is now-a-days very important for the people to send or receive articles like imported furniture, electronic items, gifts, business goods and the like. People depend vastly on different transport systems which mostly use the manual way of receiving and delivering the articles. There is no way to track the articles till they are received and there is no way to let the customer know what happened in transit, once he booked some articles. In such a situation, we need a system which completely computerizes the cargo activities including time to time tracking of the articles sent. This need is fulfilled by Courier Management System software which is online software for the cargo management people that enables them to receive the goods from a source and send them to a required destination and track their status from time to time.
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ROLE OF CONTROL AND INSTRUMENTATION IN THERMAL POWER PLANT
1. Summer Training Project Report
“Overview and Role of C & I in Thermal Power Plant”
Submitted by:
GAURAV RAI
IET, BUNDELKHAND UNIVERSITY
JHANSI (UP)
2. Power plant C&I (IPC) systems
&
Tending to Zero Forced Outage
by
Internalization of Best Practices
3. 1.Some definitions & basics of Pressure, Flow & Temp. measurement
2. Categorization of C&I systems based on location of application
3. Division of power plant C&I systems based on functionality & type of
application
4.Evolution of C&I systems and latest trend in technology
5.Reliance Power at a glance and maintenance practices of C&I systems
6. Some case studies
5. Terminology
Accuracy : Closeness with which an instrument reading approaches the
true value of the variable being measured.
Precision : A measure of reproducibility of the measurements; i.e. given
a fixed value of a variable, precision is a measure of the degree which
successive measurements differ from one another.
Sensitivity : The ratio of output signal or response of the instrument to a
change of input or measured variable.
Resolution : The smallest change in measured value to which the
instrument will respond.
Error : Deviation from the true value of the measured variable.
6. Repeatability refers to the ability of a pressure sensor to provide the
same output with successive applications of the same pressure.
Hysteresis is a sensor's ability to give the same output at a given
pressure while increasing and decreasing the pressure.
7. Pressure : Definitions
Definition: Force per unit area
Absolute pressure
Atmospheric pressure
Differential pressure
Gauge pressure
Importance : Pressure measurement is critical for safe and optimum operation of
processes such as steam generation, hydraulic equipment operation, air
compression, vacuum processing etc.
8. Zero Reference , Gauge, Absolute, Atmospheric Pressure
Any pressure above atmosphere is called gauge pressure
Any pressure below atmosphere is a vacuum (negative gauge pressure)
Absolute pressure (psia) is measured from a perfect vacuum
Differential Pressure has no reference to either absolute vacuum or atmospheric pressure
9. Units
The SI unit for pressure is the Pascal (Pa);1Pa= 1 N·m-2
Non-SI unit pound (Lb) per square inch (psi) and bar are commonly
used
Pressure is sometimes expressed in grams-force/cm2or as kgf/cm2
(KSC)
1 atm=1.03 ksc=14.696 psi=760mmHg=10000 mmWC
=101325 Pa
Standard pressure:Pressure of normal (standard) atmosphere is defined as
standard pressure
10. Pressure Measuring devices
Manometers
using water ,mercury and other liquids of known density
For measuring low pressures.
Mechanical/Elastic Pressure Sensors
Electrical Pressure Transducers
For measuring pressure of all ranges for telemetering purposes.
Manometer:
A simple pressure standard
May be used for gauge, differential, and absolute measurements with a suitable reference.
Useful mainly for lower pressure work because the height of the column of mercury will
otherwise become very high.
The difference in column heights gives the pressure reading
12. Electrical Pressure Sensors
1. Potentiometer Sensor
2. Inductive
3. Capacitive
4. Piezoelectric
5. Strain Gauge
Usually generate output signals in the mV range (spans of 100 mV to 250
mV).
In transmitters, these are amplified to the voltage level (1to 5 V) and
converted to current loops, usually 4-20 mA dc
13. Pressure Switches
Applications
Alarm (Status)
Shutdown (Hi/Lo Limits)
Control (ON/OFF)
A “switch” is an instrument that automatically senses some process variable
(such as pressure) and provides an on/off signal relative to some reference
point.
Sensing
Element
Conditioning
Circuit
Bourdon Tube
Bellows
Diaphragm
Strain Gauge
Mechanical Switch
Transistor
Set Point
14. High Pressure In High Temperature
* When high process temperatures are present, various methods of
isolating the pressure instrument from the process are used.
* These include siphons, chemical seals with capillary tubing for
remote mounting, and purging.
Snubbers & its use
Chemical Seal
Siphon
15. Pressure Snubbers
To filter out pressure spikes, or to average out pressure pulses, snubbers
are installed between the process and the instrument
Instrument indicates avg pr.
Snubber Before use After use
when one is interested in the measurement of fast, transient pressures
(such as to initiate safety interlocks on rising pressures), snubbers must not be
used, as they delay the response of the safety system.
16. Chemical Seal or diaphragm Protector
Chemical seals are used when media can falsify the pressure
measurements due to high temperature, high viscosity or their
property to crystallise
17. Siphon
A siphon is a coiled tube. This coil provides a large cooling surface and the trap
created prevents the condensate from draining away.
A siphon is required for hot condensing. fluids, such as steam, to assure a
liquid trap.
It is used to prevent live steam from entering and damaging the device.
It is used to protect the instrument from hydraulic or thermal shocks.
The two most common forms of siphon tube are the 'U' and Pigtail types.
18. Types of flow meters:
1. Orifice Flow meter
2. Vortex flow meter
3. Ultrasonics flow meter
4. Coriolis Mass Flow meter
5. Major issues for selecting flow meters
Orifice Flow-meters
Several sensors rely on the pressure drop
or head occurring as a fluid flows by a
resistance. The relationship between flow
rate and pressure difference is determined
by the Bernoulli equation.
19. Orifice Flow-meters
• An orifice plate is a restriction with an opening smaller than the pipe
diameter which is inserted in the pipe; the typical orifice plate has a
concentric, sharp edged opening.
• Because of the smaller area the fluid velocity increases, causing a
corresponding decrease in pressure.
• The flow rate can be calculated from the measured pressure drop across
the orifice plate, P1-P3.
• The orifice plate is the most commonly used flow sensor, but it creates a
rather large non-recoverable pressure due to the turbulence around the plate,
leading to high energy consumption.
20. Venturi Tube
The change in cross-sectional area in the venturi tube causes a pressure
change between the convergent section and the throat, and the flow rate can
be determined from this pressure drop. Although more expensive that an
orifice plate; the venturi tube introduces substantially lower non-
recoverable pressure drops
21. Pitot Tubes
Pitot tubes were invented by Henri Pitot in 1732 to measure the
flowing velocity of fluids. Basically a differential pressure (dp) flow meter,
a pitot tube measures two pressures: the static and the total impact
pressure.
Pitot tubes are used to measure air flow in pipes, ducts, stacks, and
liquid flow in pipes, open channels.
While accuracy and rangeability are relatively low, pitot tubes are simple,
reliable, inexpensive, and suited for a variety of environmental
conditions, including extremely high temperatures and a wide range of
pressures.
22. Pitot Tubes
A single-port pitot tube can measure the flow velocity at only a single point in the
cross-section of a flowing stream.
The probe must be inserted to a point in the flowing stream where the flow
velocity is the average of the velocities across the cross-section, and its impact
port must face directly into the fluid flow.
23. Pitot Tubes
The point velocity of approach (VP) can be calculated by taking the square root
of the difference between the total impact pressure (PT) and the static pressure
(P) and multiplying that by the C/D ratio, where C is a dimensional constant and
D is density:
The pitot tube measures the static and dynamic (or impact) pressures of the fluid
at one point in the pipe.
The flow rate can be determined from the difference between the static and
dynamic pressures which is the velocity head of the fluid flow.
24. Vortex Flow-meters
This measuring principle is based on the fact that vortices are
formed downstream of an obstacle in a fluid flow, e.g. behind a
bridge pillar.
This phenomenon is commonly known as the Kármán vortex street.
25. Vortex Flow-meters
This is detected by a sensor, such as capacitive sensor and fed to
the electronic processor as a primary, digitized, linear signal.
Capacitive sensors with integrated temperature measurement can
directly register the mass flow of saturated steam as well.
Universally suitable for measuring liquids, gases and steam
Largely unaffected by changes in pressure, temperature and
viscosity
High long-term stability (lifetime K factor), no zero-point drift
No moving parts
Marginal pressure loss
26. Ultrasonic flow-meters
Swimming against the flow requires more power and more time than
swimming with the flow. Ultrasonic flow measurement is based on this
elementary transit time difference effect.
Two sensors mounted on the pipe simultaneously send and receive ultrasonic
pulses.
At zero flow, both sensors receive the transmitted ultrasonic wave at the same
time, i.e. without transit time delay.
When the fluid is in motion, the waves of ultrasonic sound do not reach the two
sensors at the same time.
27. Ultrasonic flow-meters
This measured "transit time difference" is directly proportional to the flow
velocity and therefore to flow volume.
By using the absolute transit times both the averaged fluid velocity and the
speed of sound can be calculated.
Ultrasonic flow meters measure the difference of the propagation time (transit
time) of ultrasonic pulses propagating in (normally an inclination angle around
30 to 45° is used) flow direction and against the flow direction.
This time difference is a measure for the averaged velocity of the fluid along
the path of the ultrasonic beam
28. Ultrasonic flow-meters
Advantages:
With homogeneous fluids, the principle is independent of pressure,
temperature, conductivity and viscosity
Usable for a wide range of nominal diameters Direct meter
installation on existing pipes
Non-invasive measurement
No pipe constrictions, no pressure losses
No moving parts. Minimum outlay for maintenance and upkeep
29. Coriolis Mass Flow-meters
If a moving mass is subjected to an oscillation perpendicular to its
direction of movement, Coriolis forces occur depending on the
mass flow.
A Coriolis mass flow meter has oscillation measuring tubes to
precisely achieve this effect.
Coriolis forces are generated when a fluid (= mass) flows through
these oscillating tubes. Sensors at the inlet and outlet ends register
the resultant phase shift in the tube's oscillation geometry.
30. Coriolis Mass Flow-meters
The processor analyzes this information and uses it to compute
the rate of mass flow.
Advantage
This principle is used in a huge range of industry sectors,
including pharmaceuticals, chemicals and petrochemicals, oil and
gas, food etc.
31. Major issues for selecting flow-meters
Accuracy
Repeatability
Linearity
Reliability
Range/Span
Dynamics(Response time)
Safety
Maintenance
Cost
33. Thermocouple
IT IS BASED ON ‘SEEBECK’ EFFECT WHICH SAYS THAT
WHEN HEAT IS APPLIED TO A JUNCTION OF TWO
DISSIMILAR METALS AN ‘EMF’ IS GENERATED WHICH CAN
BE MEASURED AT THE OTHER JUNCTION
T/C Connection
COMPENSATING CABLE
HOT JUNCTION
TO DDC CARDS
TERMINAL END CJC BOX
34. Thermocouple
Types of T/C:E,J,K,T,R,S,B
K (Chromel & Alumel; Ni-Cr &Ni-Al) Type: mostly used in power plant for low
temp. application )
R (Platinum & Platinum-Rhodium) Type: Used for high temp. application. Highly
resistant to oxidation & corrosion
Advantages: - Disadvantages: -
- Low Cost - Sensitivity low & low voltage output
- No moving parts, less likely to be broken. susceptible to noise
-Wide temperature range. - Accuracy not better than 0.5 °C
-Reasonably short response time. - Requires a known temperature
- Reasonable repeatability and accuracy. reference
35. RESISTANCE THERMOMETER (RTD)
THE RESISTANCE OF A CONDUCTOR CHANGES WHEN ITS
TEMPERATURE IS CHANGED .THIS PROPERTY IS UTILISED TO
MEASURE THE TEMPERATURE.
Rt = Ro (1+βdT)
WHERE β = TEMP CO- EFFICIENT OF RESISTANCE ; dT = TEMPERATURE DIFFERENCE
When discussing RTDs, following must be considered:
• Wiring configuration (2, 3 or 4-wire)
• Self-heating
• Accuracy RTD types:
• Stability 1. Platinum (Range -200 °C to 600 °C )
• Repeatability 2. Copper (Range -100 °C to 100 °C )
• Response time 3. Nickel (Range -60 °C to 180 °C )
36. THERMISTORS
THERMISTORS ARE GENERALLY COMPOSED OF SEMICONDUCTOR
MATERIALS.THEY HAVE A NEGATIVE COEFFICIENT OF TEMPERATURE SO
RESISTANCE DECREASES WITH INCREASE IN TEMP.
Making use of Negative Temperature Coefficient characteristics,
thermistor and can be applied in temperature compensation, inrush current
limit, precision temp. control (temp. coefficient very large compared to RTC
& T/C) etc.
BIMETALLIC THERMOMETERS
ALL METALS EXPAND OR CONTRACT WITH TEMPERATURE
THE TEMPERATURE COEFFICIENT OF EXPANSION IS NOT THE SAME FOR
ALL METALS AND SO THEIR RATES OF EXPANSION AND CONTRACTION
ARE DIFFERENT
USAGE: IN PROCESS INDUSTRIES FOR LOCAL TEMPERATURE MEASUREMENTS
OVERLOAD CUTOUT SWITCH IN ELECTRICAL APPARATUS
37. ACOUSTIC PYROMETER
Acoustic Pyrometer is a non-contact measurement device that obtains
highly accurate instantaneous gas temperature data in any area of the
boiler, helping improve combustion efficiency.
For measurement of temperatures across large spaces of known distance in
a noisy, dirty and corrosive environment such as a coal-fired utility boiler, or
a chemical recovery boiler.
The Velocity of Sound in a medium is proportional to the Temperature.
LOCAL INDICATION
LIQUID IN GLASS THERMOMETER
MERCURY IN STEEL THERMOMETER
BIMETALLIC THERMOMETER
38. 1.Field instruments/ input & output instruments
a) Various measuring instruments like Transmitters, RTD,
Thermocouples, Pr. & temp. gauges, speed & vibration pick
ups etc. (Analog inputs)
b) Various Pr., Temp. & limit switches, for Interlock , protections
& feedback of control element (Binary inputs)
c) Output devices like solenoids, EP converters, Positioners
etc. for controlling final control element
d) Final control elements like Power cylinder, Pneumatic/
motorized actuators etc.
39. 2. Control Systems
a) Various control cabinets for acquiring field signal (both analog &
binary inputs), processing the signals as per control logic and
issuing output command to output devices (Binary & analog).
b) Various control desk devices like command consoles, Push button
modules, indicators, recorders, CRTs, PC based Operator Work
Stations (OWS) etc. for human machine interface for monitoring &
control of the plant
c) Power supply system(UPS)/ chargers with battery backups to
ensure uninterrupted power supply of desired quality for the
control system
40. 3. Analyzers
The availability, reliability & efficiency of boiler unit hinge around the
close control of chemical regimes of working fluid i.e. water/steam as well
as combustion in the boiler. The instruments monitoring the chemical
regimes and combustion are generally called analytical instruments. These
instruments fall under three category
i) Water/ Steam Analyzers
ii) Gas analyzers
iii) Smoke monitors
HIGH PURITY WATER IS ESSENTIAL TO MINIMISE
SCALING
CORROSION
CARRY OVER
EMBRITTLEMENT
41. ANALYZERS AND MEASURMENT LOCATION
a) ON LINE gas analyzers for measurement of flue gas oxygen, carbon
mono-oxides, carbon di-oxides, oxides of sulpher & nitrogen at various
location of boiler.
b) ON LINE analyzers for measurement of conductivity, pH, silica, dissolved
oxygen, phosphate, hydrazine, chloride, sodium etc. at various points in
the water & steam cycle of boiler & turbine area (SWAS-steam & water
analysis system).
c) ON-LINE opacity monitors for measurement of dust concentration in flue
gas
d) ON LINE analyzers for measurement of conductivity, pH, silica, dissolved
oxygen etc. at various ION exchangers of DM plant .
42. TYPICAL VALUES OF CHEMICAL PARAMETERS BEING MEASURED (SWAS)
SAMPLE PARAMETER UNIT LIMIT
DM WATER a) Conductivity
b) Cation Conductivity
µS/cm <0.3
Condensat
e pump
discharge
(CEP)
a) Conductivity
b) Cation Conductivity µS/cm <5
<0.3
c) pH 9.0-9.2
d) Na+
ppb <5ppb
e) Dissolve oxygen (DO) ppb <10
Economize
r Inlet
a) Conductivity
b) Cation Conductivity
µS/cm <5
<0.3
c) Hydrazine
ppb
10-20
Boiler
water
a) Conductivity
µS/cm 100
b) pH 9.1-9.4
c) Silica ppb 100
Sat & Main steam a) Conductivity
b) Cation Conductivity µS/cm <5
<0.3
45. 4. Laboratory Instruments & Setup
a) Different standard instruments with traceability up to national standard .
These insts. include Standard Gauges, Multimeters, Resistance boxes,
mA sources, oscilloscope, signal generator etc. for calibration of
measuring instruments.
b) Dead Weight tester, Comparator, Temperature bath, Vacuum pump,
manometer, soldering stations etc.
c) Test benches with standard power supply sockets (e.g. 24VDC, 48VDC,
220VDC, 110VAC, 230VAC etc.) in each bench depending on
requirement.
d) Laboratory should be air-conditioned with monitoring of temp., humidity
and barometric pressure. Also, proper provision for handling electronic
cards (floor mats, ESD protective bags/ anti static bags etc.)
46. 4. Laboratory Instruments & Setup
Essential Tools/ Infrastructure for Repairing & testing
1. IN-CITCUIT IC TESTER
2. ESD WORK STATION
3. ULTRASONIC CARD CLEANER
4. STORRAGE OSCILLOSCOPE
5. LOGIC ANALYSER
6. THERMOCOUPLE SIMULATOR
7. VIDEO PATTERN GENERATOR
8. EPROM PROGRAMMER
47. C&I systems of Boiler
- FSSS (Furnace safeguard supervisory system)
- Open loop control system (interlock & protections) of
boiler auxiliaries
- Secondary Air Damper control system (SADC)
- Hydrastep for drum level measurement
- Measurements, Protection & Control of Coal Feeders
48. FSSS
FUNCTIONS OF F.S.S.S
1. FURNACE PURGE SUPERVISION
2. OIL GUNS ON/OFF CONTROL
3. PULVERISERS/FEEDERS ON/OFF CONTROL
4. SECONDARY AIR DAMPERS CONTROL
5. FLAME SCANNER INTELLIGENCE
6. BOILER TRIP PROTECTIONS
49. FSSS
WHY AT ALL A PROTECTIVE SYSTEM IS REQUIRED FOR THE
BOILER?
THE BOILER’S FURNACE IS CONTINUOUSLY FED WITH HIGH
CALORIFIC VALUE ATOMISED FUEL WHICH IS IN THE PROCESS OF
CONTINUOUS BUT CONTROLLED COMBUSTION.
COMBUSTION-THE PROCESS
COMBUSTION IS A RAPID BURNING OF OXYGEN WITH FUEL RESULTING
IN RELEASE OF HEAT. AIR IS ABOUT 21% OXYGEN AND 78% NITROGEN BY
VOLUME. MOST FUELS CONTAIN CARBON, HYDROGEN AND SULPHUR. A
SIMPLIFIED COMBUSTION PROCESS COULD BE
CARBON+OXYGEN=CARBONDIOXIDE+ HEAT
HYDROGEN+DO =WATER VAPOUR + HEAT
SULPHUR +DO =SULPHURDIOXIDE+ HEAT
WHICH MEANS THAT THE FINAL DESIRED PRODUCT OF THE PROCESS
IS HEAT WHICH WE REQUIRE TO BOIL THE WATER
50. FSSS
COMBUSTION-THE PROBLEM : WHEN THIS CONTROLLED BURNING
GOES OUT OF CONTROL DUE TO AN IMBALANCE IN THE FUEL/AIR RATIO,
THERE IS EITHER A FUEL RICH MIXTURE OR A FUEL LEAN MIXTURE. IN
BOTH CASES THE FLAME QUALITY BECOMES POOR. THERE IS A CHANCE
OF FUEL ACCUMULATION WHICH CAN LATER ON IGNITE SUDDENLY AND
CAUSE EXPLOSIONS.
SO FSSS IS USED FOR SAFE AND ORDERLY STARTUP AND
SHUTDOWN OF BOILER THROUGH VARIOUS INTERLOCKS AND
PROTECTIONS
THE PROTECTIVE SYSTEM IN THE BOILER IS DESIGNED
BASICALLY TO PREVENT OCCURRENCE OF SUCH SITUATIONS BY
TAKING ADVANCE ACTIONS.
51. N.F.P.A Guide line & Boiler Protection
N.F.P.A- National Furnace Protection Association, USA
Deals with protection for various types of furnace
Protection of Pulverized fuel fired boiler is governed by Section-85c
Different categories of protection:
a) Mandatory, b)Mandatory & automatically generated, c) Optional
but alarm has to be there
52. BOILER FLAME & FLAME SCANNERS
It looks rather static, but in reality
the fire energy fluctuates rapidly. The Fuel and
Oxygen in the uncontrolled fire constantly
burn as in small explosions and
then sucks new Fuel & Oxygen to the
flames. This process causes the flame
flicker.
Flicker frequency for oil
flame is more than that of coal flame.
54. FLAME SCANNERS
-UV Scanners
-Visible Range Scanners (Safe scan-1&2)-Used for both Oil & Coal Flame
-IR Scanners (UR600 of ABB)
SAFE FLAME SCANNER
55. C&I systems of Turbine
- ATRS (Automatic Turbine Runup system)
- Turbine Governing System
- Turbovisory Instruments & turbine protections
- Interlock, Protection & Control of HPBP system
- Open loop control system (interlock & protections) of
turbine auxiliaries
- Interlock & protections of Seal Oil & Stator water system
56. C&I systems for control & MIS
-Automatic Control System (ACS)
-DATA Acquisition system(DAS)
-Distributed Digital Control Monitoring
and Information System
57. AUTOMATIC CONTROL SYSTEM & POWER PLANT CONTROL LOOP
PROCESS: Process refers to the method of changing or refining raw
materials to create the desired end product. The raw materials may
undergo physical, chemical, or thermal state changes during the Process.
Process is of Two Types :
A) Continuous and B) Batch
Continuous Process is one where the change of state of Input into Output
occurs continuously.
Ex.: Power Plant Process, Petroleum Industry etc.
Batch Process is one where a Batch of the Product is produced and the
Process stops till production of next Batch is started.
Ex.: Automobile Production
58. AUTOMATIC CONTROL SYSTEM & POWER PLANT CONTROL LOOP
PROCESS CONTROL: Process control techniques are developed over the
years to have
Quality of the end product
Economy of production
Ability to cater to emergencies and bring the process to safe shutdown.
CONTROLLED CONDITION: The physical quantity or condition of a
process or machine which is to be controlled
CONTROL SYSTEM: An arrangement of elements interconnected and
interacting in such a way that it can maintain some condition of a
process or machine in a prescribed manner
59. AUTOMATIC CONTROL SYSTEM & POWER PLANT CONTROL LOOP
OPEN AND CLOSED LOOP CONTROL:
A Closed Loop Control (CLCS) is one where a Process
Variable is measured, compared to a Set Value and action is
taken to correct any Deviation or Error from Set Value. The
continuous Measurement of PV and its’ comparison to Set Point
closes the Loop.
An Open Loop Control(OLCS) is one where the PV is not
compared with Set Value and action taken, but action is taken
without regard to conditions of PV.
60. AUTOMATIC CONTROL SYSTEM & POWER PLANT CONTROL LOOP
OPEN LOOP CONTROL:
Open Loop Control is accomplished by the following means:
Group Control
Sub-Group Control
Sub-Loop Control
Drive Level Control
Programmable Logic Control(PLC)
Group Control : Start and Stoppage of a Group of equipment is
accomplished by Group Control(GC).
Ex. :CEP GC, Equipment Cooling GC etc.
61. AUTOMATIC CONTROL SYSTEM & POWER PLANT CONTROL LOOP
OPEN LOOP CONTROL:
Sub-Group Control : Start and Stoppage of an equipment with its’
associated auxiliaries in Step-Sequence manner is done by Sub-Group
Control. Operator intervention is not required in Sub-Group Control(SGC).
Sub-Loop Control: Start and Stoppage of auxiliaries of an equipment is
carried out by Sub-Loop Control(SLC)
Drive Level Control : Start and Stop or Opening and Closure of a Drive is
carried out by Drive Control. The Drive logic shall have Protection, release
,auto and manual commands and these are executed as per pre-determined
logic.
62. AUTOMATIC CONTROL SYSTEM & POWER PLANT CONTROL LOOP
CLCS TERMINOLOGY:
Desired Value or Set Point : The value of the variable/parameter which needs
to be controlled at the required condition.
Process Variable(PV) : The present value of the Parameter of Process at that
particular instant. This is sometimes referred as Measured Value.
Error/Deviation : It is the Difference between Set Point and Process Variable,
and can be +ve or –ve. It has three components: a) Magnitude b) Duration and
c) Rate of change.
Controller : A Controller is a device that receives data from a Measurement
Instrument, compares the data with the Set Point and if necessary, signals a
Control element to take Corrective action. This Corrective action ensures that
the PV shall always be maintained at the Set Value.
The Controller can be a) Electronic, b) Pneumatic and c) Hydraulic type.
63. AUTOMATIC CONTROL SYSTEM & POWER PLANT CONTROL LOOP
Controller types: Functionally, Controllers can be
a) Continuous and b) Step Controllers.
Depending on the control loop; controller action can be adjusted as (i)
Direct acting:-Increase of process value increases controller output
(ii) Reverse acting:- Increase of process value decreases controller
output
Control Element : The Control or Correcting Element is the part of the
Control System that acts to physically change the Manipulated Variable.
Ex. : Control Valves, Louvers or Dampers, Solenoids, Pump Motors
etc.
64. AUTOMATIC CONTROL SYSTEM & POWER PLANT CONTROL LOOP
Bump less Transfer : The arrangement where the transfer from auto to
manual mode does not affect the process.
Proportional Control : The Proportional (P) action responds only to a
change in the magnitude of Error(e) i.e. controller output changes by an
amount which is proportional to error.
Output change of Controller in % = (Error change in %)(Gain), where
Gain is called the Controller gain. The reciprocal of Gain is termed as
Proportional Band(PB) and is expressed in %.
Proportional Band(PB): The change in deviation required to cause the
output of the controller to change from one extreme to the other.
Integral Control : In Integral Control, the Controller output is a function of
the Duration of Error(e).
65. AUTOMATIC CONTROL SYSTEM & POWER PLANT CONTROL LOOP
Hence, the Controller output is the time Integral of Error and the time set is
Integral Action Time(IAT) i.e. IAT can be defined as time taken for the integral
action to change output by the same amount as the proportion action .
Usually, both P and I Controls are combined and the Controllers are tuned to
minimize Error(e) and controller is termed as PI controller.
Derivative Control : Derivative or Rate Controller’s output is Proportional to the
rate of change of Error(e). The Control action is termed as D. The action is to
apply an immediate response that is equal to the P+I action that would have
occurred some time in the future.
66. AUTOMATIC CONTROL SYSTEM & POWER PLANT CONTROL LOOP
Important Closed Loop Controls in a Thermal Power Plant:
a) Furnace Draft Control
b) Boiler Drum Level Control
c) HOT well & D/A level control
d) Main Steam Temperature Control
e) Air and Fuel Flow to Boiler Control
f) SH & RH spray control
g) Coordinated Master Control(CMC)
h) Turbine Speed, Pressure and Load Control
67. AUTOMATIC CONTROL SYSTEM & POWER PLANT CONTROL LOOP
Coordinated Master Control
This is an integrated automatic control of unit operation. There is a
continuous co ordination between boiler and turbine control to maintain a
balance between steam generation and steam consumption.
• Boiler Follow Mode (BFM)
• Turbine Follow Mode (TFM)
• Co-ordinated Master Control (CMC)
• Runback Mode
68. AUTOMATIC CONTROL SYSTEM & POWER PLANT CONTROL LOOP
Boiler Follow Mode (BFM)
• Unit load control from turbine local load set point
• Change in turbine load set point will modulate turbine CVs
• Boiler master output gets corrected to maintain throttle pr dev.
• Boiler control will follow turbine control
• BLI signal as feed forward signal for boiler firing rate control
• Result - Boiler acts as throttle pr controller where turbine is in load controller mode
69. AUTOMATIC CONTROL SYSTEM & POWER PLANT CONTROL LOOP
Turbine Follow Mode (TFM)
• Unit target load set point goes to boiler master
• Change in BLI will modulate turbine CVs
• Boiler master output gets corrected to maintain Unit load dev.
• Turbine control will follow boiler control
• Load deviation as feed orward signal for boiler firing rate control
• Result - Boiler acts as load controller where turbine is in pressure controller mode
70. AUTOMATIC CONTROL SYSTEM & POWER PLANT CONTROL LOOP
Coordinated Master Control
• Unit load is set from unit master.
• Unit master demand is limited by unit capability , TSE margins and unit max/min load
set points.
• Unit target load is derived from unit master after the limitations.
• Unit target load is used as feed forward signal to the boiler firing rate control.
• Turbine control utilises the unit load as turbine load set point after adapting the same
by steam generation delay.
• In TG throttle pressure is maintained by correcting the BMD output depending on the
throttle pr dev.
• Result: Balance is achieved between steam generation and steam consumption
PROPER COORDINATION BETWEEN BOILER CONTROL AND TURBINE
CONTROL
71. DATA ACQUISITION SYSYTEM-DAS
WHY DAS IS REQUIRED IN THERMAL POWER PLANTS ?
SAFE & RELIABLE OPERATION OF THE UNIT OR EQUIPMENTS
ASSIST CONTROL ROOM OPERATORS BY PROVIDING TIMELY
ANNUNCIATION OF ALL ABNORMAL CONDITIONS
PROVIDE DETAILED INFORMATION ON THE PLANT PERFORMANCE
PROVIDE MANAGEMENT WITH ACCURATE RECORDS ON THE PAST
PLANT PERFORMANCE FOR ANALYSIS
72. DATA ACQUISITION SYSYTEM
3 MAJOR FUNCTIONS OF DAS:
DATA ACQUISITION
DATA PROCESSING
DATA REPRESENTATION
The Major Parts
Process Control Units ( PCU )
Computer Interface Unit ( CIU )
Termination Units ( TU )
Buffer Terminal Cabinets ( BTC )
73. DATA ACQUISITION SYSYTEM
TYPES OF DATA (Input): Analog & Digital
Analog inputs:
1. Thermocouple Input ( mV )
K-Type T/C ( Cr-Al ) : For temp < 600 Deg C& used in Flue Gas path
after FSH outlet.
R-Type T/C ( Pt-Pt-Rh ) : For temp > 600 Deg C used in PSH & FSH
region of FG path.
2. RTD Input ( Resistance )
Pt-100 RTD : For Brg. Temp measurement.
Cu-53 RTD : For HT motor & Generator Stator winding temp.
measurement.
74. DATA ACQUISITION SYSYTEM
Analog inputs:
3. 4 – 20 Ma Input
Coming from Pr. / Flow Transmitters.
Coming from Signal Distribution Cards of automatic control system
4. 0 – 10 Volt Input
Coming from ATRS cabinets
Used for Turbine Brg. Temp. /Vibration measurement.
DIGITAL INPUTS
These are coming directly from switches or relay contacts of other
systems (FSSS, ATRS, ACS etc.)
75. DATA ACQUISITION SYSYTEM
DIGITAL INPUTS (TYPES)
LOW RESOLUTION : The scanning time of inputs is 1
second.
HIGH RESOLUTION : The scanning time is 1
millisecond. These are called
Sequence Of Events ( SOE )
Inputs.
PULSE INPUT : For calculation of Total Coal
Flow, Total Air Flow etc.
76. DATA ACQUISITION SYSYTEM
FUNCTIONS OF DAS:
Alarm Management.
Production of hardcopy print outs in different printers.
Operator Guidance Messages.
Graphic Displays of plant sub-systems.
Trending of analog variables on recorders.
Sequence Of Events ( SOE ) recording following unit /
equipment trip conditions.
Efficiency calculations
77. DATA ACQUISITION SYSYTEM
DATA PROCESSING: It has the following parts
COMPUTER PROCESSING UNIT ( CPU )
BULK ( SOLID STATE ) MEMORY WITH BATTERY BACKUP
MAGTAPE UNIT
COMMUNICATION CABINET & MODEM
MOVING HEAD DISC DRIVE
VIDEO HARD COPIER
TREND RECORDER
UNIT CONTROL DESK & PROG. ROOM CRT
PRINTERS
78. DATA ACQUISITION SYSYTEM
Features:
REAL TIME VARIABLE CALCULATION
Summing, Subtraction, Maximum , Minimum, Averaging,
Hourly & Daily integration, rate of changes & comparison
of limits etc.
ON-LINE DATABASE EDITION
1. Assign points to any process parameter
2. Scan, Off-scan , Delete , Activate , inactivate a
process parameters , calculated points when reqd.
3. Change the Engg. Unit
4. Change the range , alarm limits & dead bands
5. Change the scan frequency
6. Review total analog and digital points depending on its
quality flag like alarm , channel failure , off-scan etc.
79. DATA ACQUISITION SYSYTEM
ALARM MANAGEMENT:
All the analog points which cross their normal limits or all the digital points
which go into their alarm state come on the alarm CRT with associated time
& blink as long as the alarms remain unacknowledged.
Alarm will come in RED colour
If all the pages are full (normally no. of alarm pages & alarm per page is
predefined) and any new alarm comes , then oldest alarm will disappear
from the alarm page as FIFO basis
Alarm print out will be available in alarm printer
80. DATA ACQUISITION SYSYTEM
DATA REPRESENTATION:
Printed outputs of displays /collection of data in different formats
like :
1. Copy Screen
2 Alarm Print out
3. Log Print out
CRT Displays
1. Alarm CRT display
2. Utility CRT display
81. DATA ACQUISITION SYSYTEM
DATA REPRESENTATION:
TYPES OF TREND LOG PRINOUTS
TIME ACTIVATED
EVENT ACTIVATED
DEMAND LOGS
SOE PRINTOUT
TIME ACTIVATED LOG:
Automatic Triggered Logs
Sample frequency is 1 Hour.(Normally)
Time of trigger can be specified
82. DATA ACQUISITION SYSYTEM
TIME ACTIVATED LOG:
Max. 15 nos. of points can be assigned
Normally printed in the logging printer in UCB
Examples :
1. Shift Log
2. Efficiency Log
3. Boiler Drum / Tube Metal Temp. Log
4. FSH / RH Metal temp. excursion Log
EVENT ACTIVATED LOG:
Automatic Triggered Logs
Used for Unit or Equipment Outage Analysis
Minimum Sample frequency is 10 seconds.
83. DATA ACQUISITION SYSYTEM
EVENT ACTIVATED LOG:
Max. 36 points can be assigned in a log
Logs are triggered by a Trip flag
Normally printed on Logging Printer in UCB
Pre & Post triggered points can be specified
Examples :
1. Post Trip Analysis Log ( PTL )
2. TG. Shutdown Analysis Log
3. Boiler Startup Log.
4. Turbine / Generator Diagnostic Logs
84. DATA ACQUISITION SYSYTEM
DEMAND LOG:
Not Automatic Triggered Logs
Logs can be printed on operator’s demand
Sample frequency is generally 1 Hour.
Logs are printed in Logging Printer in UCB
85. DATA ACQUISITION SYSYTEM
SEQUENCE OF EVENTS ( SOE )
THE MAIN FEATURES ARE:
Determines First Cause Of Trip
Determines sequence of events or alarms
Scanning Time is 1 millisecond.
It is a Stand Alone System
Max. 256 nos. of Protection related digital points can be assigned
Automatic Triggered when any point in alarm
86. DDCMIS
WHAT IS DDCMIS ?
DISTRIBUTED DIGITAL CONTROL MONITORING & INFORMATION
SYSTEM
Distributed means there is no centralized control and control is spread
across multiple units
Digital means processing of process information is done in digital form using
micro-processor based hardware
MIS interfaces the human with process using computers
87. DDCMIS
TECHNOLOGICAL BACKGROUND
PROGRESS OF INSTRUMENTATION USED TO IMPLEMENT AUTOMATIC
PROCESS CONTROL
LOCAL PNEUMATIC CONTROLLERS
MINIATURIZED AND CENTRALIZED PNEUMATIC CONTROLLERS AT
CONTROL PANELS AND CONSOLES
SOLID-STATE CONTROLLERS
COMPUTERISED CONTROLS
DISTRIBUTED MICROPROCESSOR BASED CONTROL
89. DDCMIS
MAN-MACHINE INTERFACE AND PLANT INFORMATION SYSTEM (MMIPS)
LATEST STATE-OF-THE-ART WORKSTATIONS AND SERVERS BASED ON OPEN-
ARCHITECTURE AND INDUSTRY STANDARD HARDWARE AND SOFTWARE TO
ENSURE BETTER CONNECTIVITY.
e.g. HARDWARE FROM COMPAQ/DIGITAL, HP, SUN MICRO-SYSTEM OR OTHER
MAJOR SUPPLIERS (LESS DEPENDENCE ON THE C&I SYSTEM SUPPLIER IN
THE LONG RUN)
OPERATING SYSTEM WINDOWS-NT, OPEN-VMS OR UNIX.
PROVISION OF LVS
CONNECTION TO OTHER SYSTEM THROUGH STATIONWIDE WAN
90. DDCMIS
MMIPIS FUNCTIONALITIES
VARIOUS PLANT EQUIPMENT OPERATION
OPERATOR INFORMATIONS THROUGH VARIOUS DISPLAYS
ALARMS, LOGS, HISTORICAL AND LONG TERM STORAGE.
PERFORMANCE AND OTHER CALCULATIONS
91. DDCMIS
DATA COMMUNICATION SYSTEM
LOCAL SYSTEM BUS – It is just lines on the backplane of control panel to
which all the modules are connected directly. It serves as communication
medium between the modules.
INTRAPLANT BUS(IPB) – It is a coaxial cable which runs through all the
panels of control system and interconnects them.
LOCAL AREA NETWORK(LAN) – It is a network of computers which are
connected to a single point (HUB).
FOR ALL BUSES REDUNDANCY IS PRESENT
93. DDCMIS
PROGRAMMING & MMIPIS M & S
CONFIGURATION SYSTEM CLOCK
SG- C&I BOP- C&I TG- C&I
SYSTEM SYSTEM SYSTEM
DCS
CONTROL SYSTEM
94. DDCMIS
SG-C&I SYSTEM
BURNER MANAGEMENT SYSTEM (BMS)
SOOT BLOWER CONTROL SYSTEM (SBC)
SECONDARY AIR DAMPER CONTROL SYSTEM (SADC)
AUXILIARY PRDS CONTROLS (APRDS)
TG-C&I SYSTEM
ELECTRONIC TURBINE PROTECTION (ETP)
AUTOMATIC TURBINE RUN-UP SYSTEM (ATRS)
AUTOMATIC TURBINE TESTING SYSTEM (ATT)
ELECTRO- HYDRAULIC TURBINE CONTROL SYSTEM (EHTC)
TURBINE STRESS CONTROL SYSTEM (TSC)
LP BYPASS SYSTEM (LPBP)
HP BYPASS SYSTEM(HPBP)
GLAND STEAM PRESSURE CONTROL
GENERATOR AUXILIARY MONITORING PANEL (GAMP)
95. DDCMIS
BOP-C&I SYSTEM
CONSISTS OF OPEN LOOP CONTROL SYSTEM (OLCS) AND CLOSED LOOP
CONTROL SYSTEM (CLCS)
OLCS - THE SEQUENCE CONTROL, INTERLOCK OF ALL THE PLANT SYSTEMS WHICH
ARE NOT COVERED IN THE SG-C&I AND TG-C&I. THIS INCLUDES MAJOR AUXILIARIES
LIKE FD/ID/PA FANS, AIR-PREHEATER, BFP/CEP/CWP/ BCWP , DMCWP/CLCWP AND
ELECTRICAL BREAKERS.
CLCS - THE MODULATING CONTROL FOR VARIOUS IMPORTANT PLANT PARAMETERS,
LIKE FW FLOW (DRUM LEVEL), FURNACE DRAFT, COMBUSTION CONTROL (FUEL FLOW
AND AIR FLOW), PA HDR PRESSURE CONTROL, DEAERATOR/HOTWELL/HEATER LEVEL
CONTROLS ETC.
96. DDCMIS
WHY DDCMIS ?
VERY HIGH FLEXIBILITY FOR MODIFICATION IN CONTROL STRATEGY
VERY HIGH SELF-DIAGNOSTIC
VERY LOW DRIFT (ONLY IN I/O CARDS) , HENCE NO NEED OF FREQUENT
RE-CALIBRATION
MUCH HIGHER RELIABILITY (BASED ON MTBF)
BETTER LONG TERM SUPPORT DUE TO CHANGING TECHNOLOGY
MUCH BETTER OPERATOR INTERFACE
97. DDCMIS
SALIENT FEATURES OF DDCMIS
INTEGRATED PLANT CONTROL FOR SG, TG AND BALANCE OF PLANT
CONTROL
IT MAY BE REMEMBERED THAT HISTORICALLY THE TERM DDCMIS USED
REFER TO THE SO-CALLED “BOP-C&I” . THE SG-C&I, i.e. FSSS etc. TG-C&I i.e.
ATRS, TURBINE PROTECTION etc. ORIGINALLY WERE NOT CONSIDERED
UNDER DDCMIS OR DCS AS PER MANY SUPPLIERS. ONLY RECENTLY THE
TYPE OF SYSTEMS FOR ALL THE SYSTEMS HAVE BECOME SIMILAR (WITH
SOME DIFFERENCE WHICH WILL BE DISCUSSED LATER), WE TEND TO
CONSIDER THESE SYSTEMS UNDER DDCMIS.
98. DDCMIS
SALIENT FEATURES OF DDCMIS
INTEGRATED PLANT OPERATION THROUGH FULLY INTERCHANGEABLE
OPERTAOR WORK STATIONS (OWS) FOR SG, TG AND BALANCE OF PLANT
PROVISION OF EXTENSIVE SELF-DIAGNOSTICS
USE OF LARGE VIDEO SCREENS FOR PROJECTIONS OF VARIOUS PLANT
MIMICS ETC.
PROVISION OF FAULT ALARM ANALYSIS TO GUIDE THE OPERATOR TO THE
MOST LIKELY EVENT
PROVISION OF ADEQUATE RELIABILITY AND AVAILABILITY WITH PROPER
REDUNDANCY IN SENSOR, I/O AND CONTROLLER LEVELS.
99. Global & National Power Scenario
Global:
Global electricity consumption 69% higher in 2020 than 2003
80% of energy provided from thermal sources
Emerging trend from Thermal to Hydel and Renewable Energy sources
Indian:
Total installed capacity only 1362 MW in 1947
Per Capita consumption 631 units (2005-06) only with installed capacity of 1,77,000
MW
GDP growth of 8%, power growth required 10%
To add 1,00,000MW capacity by 2017
Liberalizations of the sector
100. KEY THRUST AREAS
Zero Human Error
Implementation of trip committee recommendations judiciously / rigoro
Identification of trip committee recommendations of other stations
which are relevant and implement them
Implementation of operation memorandum wherever applicable
Dissemination of information about best practices followed across
Reliance Power and other Power Stations
Providing proper environment for C&I equipment to reduce probability
card and equipment failure
103. Major factors contributing to C&I outage in 2009-10:
1. Control System related failure
2. Field Device Failure
3. Soft ware/Card Failure
4. Power Supply/Relay failure
5. Human error
104. All ‘unit protections’ are provided with 2/3 logic and audio visual
alarm is provided on 1/3 to operator on actuation of any one sensor
wherever possible with proper approval.
Use of headless RTD in tripping circuit of ID/PA/FD fans & BFPs.
Resistance mapping of critical solenoids including cable during
overhauls and monitoring trend to identify any defects.
Marking of trip related devices and Junction Boxes marked in RED
color.
Regular calibration of all important instruments which have a bearing
on unit safety, reliability and efficiency. Instruments are calibrated
against standard instruments with traceability to NABL.
105. BEST PRACTICES COMPILED/ADOPTED IN Reliance Power C&I
For handling of electrostatic sensitive electronic hardware, electrostatic
bags, wrist straps and other ESD handling devices are employed in control
panels and lab. All Laboratories are provided with ESD proof workstations.
Disable removable drives of servers and workstations.
Single source responsibility for software backup of DCS and storage in fire
proof cabinets in two different locations.
Detailed work instruction are prepared and followed for working on all trip
related devices.
106. A single source responsibility is fixed for the generation and maintenance
of system passwords so as to maintain system security
Internal quality inspection for critical checks during overhauls to ensure
quality in overhaul works
Near miss situations are monitored and analyzed. The learning from this
area used to formulate strategies to avoid spurious outages.
All power supply voltages are monitored with a fixed periodicity and
maintained within /- 10% of the rated value.
107. Other important actions taken for forced outage
reduction
Rerouting of control & power cables in hot zones
Panel power supply monitoring in regular intervals.
CER/UCB temperature and humidity monitoring online. Insisting for
performance of the A/C system
Checking and tightening power supply cables during overhaul
Ensuring healthiness of cabinet cooling fans.
108. Panel cooling fans supply segregation from system supply with MCB /
fuse.
Cleaning of air filters on panels periodically
Servo valve replacement/ servicing in hydraulic drives.
Individual fuse protection in 220VDC MFT for HOTV, LOTV, HORV,
Scanner emergency air damper solenoids