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Item Upon - Thermal Plants
Third party car insurance offers you cover for any claim made against you, your driver if somebody else was driving or the registered owner of the vehicle. The road traffic act specifies that you are required to have a certain minimum amount of cover. All UK car insurance policies providing "third party cover" or more, will provide greater protection than the law requires. Whether you just have "third party only", "third party fire and theft" or "comprehensive" you will have this section.If you are to blame for causing an accident your insurer will pay for all sums of money that are awarded to those people (the third party) that you have killed or injured, or whose property you have damaged etc. This includes any legal costs incurred by either the victim's or your own solicitors.This whole question of third party cover becomes somewhat more complex when you are a passenger in your own vehicle and it is being driven by someone else. Provided that the driver is allowed to drive it, then it is the other person who is protected by this part of the policy and not you. Your insurance policy will list those who are insured to drive the vehicle, for example, named drivers, passengers, employer . Thus if you, as the passenger, were to be injured owing to the bad driving of the person driving your car, you have the legal right to claim compensation from the driver. Thus, in this situation, your third party insurance policy would 'indemnify' the driver, not you. You would end up claiming (and almost certainly winning) damages from the driver on your own third party policy. Don't forget that this works both ways. In the above scenario if the driver were killed or injured whilst driving on your policy then there would be no liability on your insurance company.Sadly, immaterial of who was behind the wheel, you cannot claim for accident damage to your vehicle under this section.If a thief takes your car and causes an accident (an all too often occurrence) this part of the policy
2. Overhead earth wire shielding or lightning To protect the outdoor substation equipment from lightning strokes.
3. Illumination system (lightning) - For switchyards - Buildings - Roads, etc. To provide illumination for vigilance, operation and maintenance.
4. Protection system - Protection relay panels - Control cables - Circuit breakers - CT’s, PT’s, etc. To provide alarm or automatic tripping of faulty part from healthy part and also to minimize damage to faulty equipment and associated system.
5. Control cabling For protective circuits, control circuits, metering circuits.
6. Power cables To provide supply path to various auxiliary equipments and machines.
7. PLCC system power line carrier current system - Line trap - Coupling capacitor - PLCC panels For communications, telemetry, tele control power line carrier protection, etc.
8. Fire fighting system - Sensors, detection system - Water spray system - Fire protection control Panels To sense the occurrence of fire by sensors and to initiate water power spray, to disconnect power supply to affected region to pin point location of fire by indication in control room.
9. J Cooling water system - Coolers - Water tanks This system is required for cooling the valves in HVDC substation.
10. DC batteries sets and battery chargers Auxiliary low voltage DC supply.
11. Auxiliary stand by power System - Diesel generator sets - Switch gear - Distribution system For supplying starting power, stand by power for auxiliaries.
12. Telephone system For internal and external Communication.
12. BUS BAR ARRANGEMENT IN SWITCHYARDS
There are several ways in witch the switchyard can be connected in the electrical layout of generating station, receiving station or a switchgear in a distribution system. The following aspects in general affect the selection of the scheme:
1. Degree of flexibility of operations desired.
2. Importance of load an
Wanna success at network marketing? Most of the forward looking marketing companies planning fresh ways of marketing their products as there are numerous ways to achieve success at network marketing. Network marketing changes the lives of people mainly due to newer and better technologies and innovative changes.It is clearly known that new marketing strategies are reliable and quick way to achieve success at network marketing. Network marketing provides golden opportunity for the individuals to flourish like anything by starting this business at least cost and work from home itself.The driving motivational forces behind these new marketing schemes are earning a fortune and success at network marketing. As the twenty-first century unfolds, network of systems that could help automate and simplify even the most difficult aspect of the business.Success at network marketing is attained through selecting a suitable company among various similar competing companies. Although this is a Herculean task to choose the best network marketing company, it is necessary to determine all the salient features about the companies. It is important to note that before making a choice to achieve success at network marketing and poured your hard earned money into this business, you ought to discuss in detail about the pros and cons of that particular company and then choose the opportunity that best suits your needs.In general network marketing is nothing but delegating the works to your subordinates. The working load should be distributed to your recruiters (representatives), who are recruiting representatives below them. The purchases as well as earning commissions on the purchases and sales of their representatives and your first down line commissions will be credited to your account. The main success at network marketing depends on the right choice of the company that they will be working for. In addition to this, you require to use a good support from your sponsor as well as from you
Electrical energy management system ensures supply of energy to every consumer at all times at rated voltage, frequency and specified waveform, at lowest cost and minimum environmental degradation. The switchgear, protection and network automation are integral parts of the modern energy management system and national economy.
The modern 3-ph, 50 Hz, AC interconnected system has several conventional and non-conventional power plants, EHV AC and HVDC Transmission system, Back to Back HVDC coupling stations, HV Transmission network, substations, MV and LV Distribution systems and connected electrical loads. The energy in electrical form is supplied to various consumers located in vast geographical area, instantly, automatically, and safely with required quality at all times. The service continuity and high quality of power supply have become very important.
For fulfilling the foresaid purpose, a state of the art, scientifically and technologically advanced SUBSTATION is required. Sub-Station is the load control center of the thermal plant where power at rated voltage, frequency and waveform is exported/imported as per requirements.
The substation at GHTP Lehra Mohabat has only one 220 KV switchyard. There are two output units each having a capacity of 210 MW. The generating voltage is limited to 15.75 KV and this voltage as stepped up by two-generator transformer 15.75/220 KV manufactured by BHEL. A part of 15.75 KV supply is fed to unit auxiliary transformer, which is stepped down to voltage 6.6 KV which is used to run the major auxiliaries of the plant.
After step up, the 220 KV output from the generator transformer is fed to either of the two bus bars through relays and circuit breakers and these are connected to various feeders through various equipments. DIFFERENT TYES OF EQUIPMENTS USED IN SUB-STATIONS
1. BUS-BARS: -
Bus bar is a term used for main bar of conductor carrying an electric current to which many connections may be made. These are mainly convenient means of connecting switches and other equipments into various arrangements.
At GNDTP there are two 220 KV bus bars. These are made of aluminium and all the incoming and outgoing supplies are connected through the bus bars.
2. LIGHTENING ARRESTORS: -
These are equipments designed to protect insulators of power lines and electrical installations from lightening surges by diverting the surge to earth and instantly restoring the circuit insulation to its normal strength with respect to earth.
3. CURRENT TRANSFORMERS: -
The main purpose of current transformer is to step down the current to a level that the indicating and monitoring instruments can read. When rated current flows through its primary winding, a current of nearly 1 amp will appear in its secondary winding.
The primary is so connected that the current being passes through it and secondary winding is connected to an ammeter. The CT steps down the current to the level of the ammeter.
4. POTENTIAL TRANSFORMER: -
These are used to step do the voltage to a level that the potential coils of indicating and monitoring instruments can read. These are also used to feed the potential coils of relays. The primary winding is connected to the voltage being measured and the secondary winding to a voltmeter. The PT steps down the voltage to the level of the voltmeter.
5. POWER TRANSFORMER: -
These are used to step up down the voltage from one a.c voltage to another a.c voltage level at the same frequency. Shunt reactor in EHV substations is to provide reactive power compensation during low loads.
6. WAVE TRAP: -
Wave trap is used to prevent high frequency signals from entering other zones.
7. INDICATING AND METERING INSTRUMENTS: -
Ammeters, voltmeters, watt meters, KWH meters, KVAR meters are installed in sub-station to watch over the currents flowing in the circuit and the voltages and the power loads.
8. ISOLATORS: -
One of the cardinal measures for ensuring full safety in carrying out work on equipment in electrical installations is to disconnect reliably the unit or the section on which the work is to be done from all other live parts of the installation. To guard against mistakes, it is necessary that apparatus, which makes a visible break in the circuit such as isolators, should do this.
Isolators do not have arc control devices therefore cannot be used to interrupt currents at which the arc will be drawn across the contacts. The open arc in these is very dangerous, in that it will not only damage the isolator or the equipment surrounding it but will also cause the flashover between the phase in other words, it will result in short circuit in the installation i.e. why isolators are used only for disconnecting parts after de-energizing them by opening their respective circuits by use of their circuit breakers.
9. EARTHING SWITCHES: -
Earthing switch is used to discharge the voltage on dead lines to earth. An auxiliary switch to provide interlock always accomplishes it.
10. CIRCUIT BREAKERS: -
Circuit breakers are mechanical devices designed to close o open contact or electrical circuit under normal or abnormal conditions. CB is equipped with a strip coil directly attached to relay or other means to operate in abnormal conditions such as over power etc. In GNDTP three types of CB are used. SF6 CB is used to control 220 KV in switchyard. VCB are used to control 6.6kv in switchgear & ABCB are used to control 415 KV in switchgear.
In sulphar puffer type SF6 CB is filled with SF6 gas at single pressure (4to6kgf/cm2). The pressure and gas flow required for arc extinction is obtained by piston action.
In double pressure type SF6 CB the gas from high-pressure system is released to into low-pressure system over the arc during the arc quenching process.
SPECIFICATIONS OF CB TYPE ELF-SL4-1
S. NO. SPECIFICATIONS RATINGS
1. Voltage 245KV
2. Normal current 3150 A
3. Lightening impulse withstand Voltage 1050V
4. Switching impulse withstand voltage 1050V
5. Short circuit breaking current 40KA
6. Short circuit withstand current And duration 40KA 3 sec
7. Line charging breaking current 125A
8. Operating sequence - First pole to clear factor 1.3
9. Supply voltage 220 V dc
10. Auxiliary circuit supply voltage 240 V dc
11. Air pressure 20.5 bar
12. Frequency 50 HZ
13. Mass 3800 kg
14. Rated current 1600 A
11. VARIOUS OTHER EQUIPMENTS
Shunt capacitors are used to provide compensation to reactive loads of lagging power factor.
Series reactors are used to reduce the short circuit current or starting currents. Neutral grounding resistors are used to limit the earth fault current.
Coupling capacitors are used to provide connection between high voltage line and power line carrier equipment.
Operating Voltage 230 V Rated current 2000 A Minimum short circuit current in bus bars 40 KV Minimum phase to phase clearance 2.5 M Number of horizontal levels of tubular bus bar/flexible bus bars 2.0 M Height of tubular bus-bar of first level above ground 6 m Height of tubular bus-bar of second level above ground 4 m Tubular aluminium bus bar AL ASTMB241 4”IPS (International pipe standard)
VARIOUS SUBSYSTEMS IN SUBSTATIONS AND THEIR FUNCTION
S.NO. SYSTEM FUNCTION
1. Substation Earthing (Grounding) System - Earth mat - Earthing spikes - Earthing risers To provide an earth mat for connecting neutral points, equipment body, support structures to earth. For safety of personnel and for enabling earth fault protection. To provide the for discharging the earth currents neutrals, faults, surge arrestors over-head shielding wires etc. with safe step- Potential and touch potential.
2. Overhead earth wire shielding or lightning To protect the outdoor substation equipment from lightning strokes.
3. Illumination system (lightning) - For switchyards - Buildings - Roads, etc. To provide illumination for vigilance, operation and maintenance.
4. Protection system - Protection relay panels - Control cables - Circuit breakers - CT’s, PT’s, etc. To provide alarm or automatic tripping of faulty part from healthy part and also to minimize damage to faulty equipment and associated system.
5. Control cabling For protective circuits, control circuits, metering circuits.
6. Power cables To provide supply path to various auxiliary equipments and machines.
7. PLCC system power line carrier current system - Line trap - Coupling capacitor - PLCC panels For communications, telemetry, tele control power line carrier protection, etc.
8. Fire fighting system - Sensors, detection system - Water spray system - Fire protection control Panels To sense the occurrence of fire by sensors and to initiate water power spray, to disconnect power supply to affected region to pin point location of fire by indication in control room.
9. J Cooling water system - Coolers - Water tanks This system is required for cooling the valves in HVDC substation.
10. DC batteries sets and battery chargers Auxiliary low voltage DC supply.
11. Auxiliary stand by power System - Diesel generator sets - Switch gear - Distribution system For supplying starting power, stand by power for auxiliaries.
12. Telephone system For internal and external Communication.
12. BUS BAR ARRANGEMENT IN SWITCHYARDS
There are several ways in witch the switchyard can be connected in the electrical layout of generating station, receiving station or a switchgear in a distribution system. The following aspects in general affect the selection of the scheme:
1. Degree of flexibility of operations desired.
2. Importance of load and
Successful entrepreneurs are the life blood of business in the United States and around the world. Every corporation, organization and banking system started with one person with an idea that blossomed into a thriving business.The entrepreneur spirit that drives a person to build a successful business from nothing is more than just intriguing. When we look at what characteristics or traits common among those that do succeed, we are able to design our own success.We are not passive. We are dynamic and powerful. The characteristics we display today are not who we will be tomorrow. We learn and shift and become more each day. We determine our destiny but we don’t achieve success in a vacuum. We look to those that have realized their dreams despite opposition and learn. We learn what it takes to live a successful life by learning about others.Every business owner or “would be” entrepreneur must be willing to learn what makes successful entrepreneurs achieve their goals. It’s not money or connections, it not support or a knack for selling ~ it is the actual character and drive of a person that determines whether or not they will succeed.The successful entrepreneur stands as our model for our own lives whether professional or personal – the traits and inner workings of the successful entrepreneur becomes a plum line for all of us that also dare to dream. Honestly, it is one thing to DREAM of starting your own business But it is our ACTIONS that actually get us there in the end.This list of traits or characteristics of the successful entrepreneur is in no way complete but it is a great way to get your mind and heart turned toward becoming a focused effective business owner. All through history, people that have risen to greatness in business have all exhibited these characteristics. Please don’t read down through and determine that you aren’t entrepreneur material. We all start with a dream and the drive but the deciding factor for success comes down t
At GNDTP there are two 220 KV bus bars. These are made of aluminium and all the incoming and outgoing supplies are connected through the bus bars.
2. LIGHTENING ARRESTORS: -
These are equipments designed to protect insulators of power lines and electrical installations from lightening surges by diverting the surge to earth and instantly restoring the circuit insulation to its normal strength with respect to earth.
3. CURRENT TRANSFORMERS: -
The main purpose of current transformer is to step down the current to a level that the indicating and monitoring instruments can read. When rated current flows through its primary winding, a current of nearly 1 amp will appear in its secondary winding.
The primary is so connected that the current being passes through it and secondary winding is connected to an ammeter. The CT steps down the current to the level of the ammeter.
4. POTENTIAL TRANSFORMER: -
These are used to step do the voltage to a level that the potential coils of indicating and monitoring instruments can read. These are also used to feed the potential coils of relays. The primary winding is connected to the voltage being measured and the secondary winding to a voltmeter. The PT steps down the voltage to the level of the voltmeter.
5. POWER TRANSFORMER: -
These are used to step up down the voltage from one a.c voltage to another a.c voltage level at the same frequency. Shunt reactor in EHV substations is to provide reactive power compensation during low loads.
6. WAVE TRAP: -
Wave trap is used to prevent high frequency signals from entering other zones.
7. INDICATING AND METERING INSTRUMENTS: -
Ammeters, voltmeters, watt meters, KWH meters, KVAR meters are installed in sub-station to watch over the currents flowing in the circuit and the voltages and the power loads.
8. ISOLATORS: -
One of the cardinal measures for ensuring full safety in carrying out work on equipment in electrical installations is to disconnect reliably the unit or the section on which the work is to be done from all other live parts of the installation. To guard against mistakes, it is necessary that apparatus, which makes a visible break in the circuit such as isolators, should do this.
Isolators do not have arc control devices therefore cannot be used to interrupt currents at which the arc will be drawn across the contacts. The open arc in these is very dangerous, in that it will not only damage the isolator or the equipment surrounding it but will also cause the flashover between the phase in other words, it will result in short circuit in the installation i.e. why isolators are used only for disconnecting parts after de-energizing them by opening their respective circuits by use of their circuit breakers.
9. EARTHING SWITCHES: -
Earthing switch is used to discharge the voltage on dead lines to earth. An auxiliary switch to provide interlock always accomplishes it.
10. CIRCUIT BREAKERS: -
Circuit breakers are mechanical devices designed to close o open contact or electrical circuit under normal or abnormal conditions. CB is equipped with a strip coil directly attached to relay or other means to operate in abnormal conditions such as over power etc. In GNDTP three types of CB are used. SF6 CB is used to control 220 KV in switchyard. VCB are used to control 6.6kv in switchgear & ABCB are used to control 415 KV in switchgear.
In sulphar puffer type SF6 CB is filled with SF6 gas at single pressure (4to6kgf/cm2). The pressure and gas flow required for arc extinction is obtained by piston action.
In double pressure type SF6 CB the gas from high-pressure system is released to into low-pressure system over the arc during the arc quenching process.
SPECIFICATIONS OF CB TYPE ELF-SL4-1
S. NO. SPECIFICATIONS RATINGS
1. Voltage 245KV
2. Normal current 3150 A
3. Lightening impulse withstand Voltage 1050V
4. Switching impulse withstand voltage 1050V
5. Short circuit breaking current 40KA
6. Short circuit withstand current And duration 40KA 3 sec
7. Line charging breaking current 125A
8. Operating sequence - First pole to clear factor 1.3
9. Supply voltage 220 V dc
10. Auxiliary circuit supply voltage 240 V dc
11. Air pressure 20.5 bar
12. Frequency 50 HZ
13. Mass 3800 kg
14. Rated current 1600 A
11. VARIOUS OTHER EQUIPMENTS
Shunt capacitors are used to provide compensation to reactive loads of lagging power factor.
Series reactors are used to reduce the short circuit current or starting currents. Neutral grounding resistors are used to limit the earth fault current.
Coupling capacitors are used to provide connection between high voltage line and power line carrier equipment.
Operating Voltage 230 V Rated current 2000 A Minimum short circuit current in bus bars 40 KV Minimum phase to phase clearance 2.5 M Number of horizontal levels of tubular bus bar/flexible bus bars 2.0 M Height of tubular bus-bar of first level above ground 6 m Height of tubular bus-bar of second level above ground 4 m Tubular aluminium bus bar AL ASTMB241 4”IPS (International pipe standard)
VARIOUS SUBSYSTEMS IN SUBSTATIONS AND THEIR FUNCTION
S.NO. SYSTEM FUNCTION
1. Substation Earthing (Grounding) System - Earth mat - Earthing spikes - Earthing risers To provide an earth mat for connecting neutral points, equipment body, support structures to earth. For safety of personnel and for enabling earth fault protection. To provide the for discharging the earth currents neutrals, faults, surge arrestors over-head shielding wires etc. with safe step- Potential and touch potential.
2. Overhead earth wire shielding or lightning To protect the outdoor substation equipment from lightning strokes.
3. Illumination system (lightning) - For switchyards - Buildings - Roads, etc. To provide illumination for vigilance, operation and maintenance.
4. Protection system - Protection relay panels - Control cables - Circuit breakers - CT’s, PT’s, etc. To provide alarm or automatic tripping of faulty part from healthy part and also to minimize damage to faulty equipment and associated system.
5. Control cabling For protective circuits, control circuits, metering circuits.
6. Power cables To provide supply path to various auxiliary equipments and machines.
7. PLCC system power line carrier current system - Line trap - Coupling capacitor - PLCC panels For communications, telemetry, tele control power line carrier protection, etc.
8. Fire fighting system - Sensors, detection system - Water spray system - Fire protection control Panels To sense the occurrence of fire by sensors and to initiate water power spray, to disconnect power supply to affected region to pin point location of fire by indication in control room.
9. J Cooling water system - Coolers - Water tanks This system is required for cooling the valves in HVDC substation.
10. DC batteries sets and battery chargers Auxiliary low voltage DC supply.
11. Auxiliary stand by power System - Diesel generator sets - Switch gear - Distribution system For supplying starting power, stand by power for auxiliaries.
12. Telephone system For internal and external Communication.
12. BUS BAR ARRANGEMENT IN SWITCHYARDS
There are several ways in witch the switchyard can be connected in the electrical layout of generating station, receiving station or a switchgear in a distribution system. The following aspects in general affect the selection of the scheme:
1. Degree of flexibility of operations desired.
2. Importance of load an
"Most children are raised by amateurs, not professionals." - Bryce's LawINTRODUCTIONWant to know what to expect of the work force in the years ahead? Look no farther than our schools or homes. Let me preface my remarks by saying that in addition to all of my other responsibilities, I was very active in my local Little League for a number of years where I served as coach, umpire, and on the local board of directors. Further, I have been very active locally in offering Masonic scholarships to High School students. In addition, my wife has been active in the local school system for the last ten years at the elementary, middle, and high school levels (this also included PTA and SAC). Although we probably won't win an award as the world's best parents, we made a point of becoming an important and influential part of our children's lives. We didn't take any special courses in parenting, we just got involved. But we are the exceptions as opposed to the rule.Prior to World War II, the country was immersed in an economic depression which put a strain on families and disrupted our society. Everyone in a family was expected to pitch in and do their part in order to survive, this included going to school and their place of worship. Some families suffered severe hardships during this period causing children to drop out of school and go to work. They didn't drop out as some form of rebellion or protest, but to simply earn money to help support the family. Consequently, many earned nothing higher than a Junior High diploma which was prized by many families. The point is, there was a sense of family back then and the people's hunger built character. They understood the value of a dollar, worked hard and squandered nothing. It was this generation that got us through the war and propelled the country towards economic success in the latter part of the 20th century.In the 1950's and 1960's, as the country was experiencing an economic boom, a
One of the cardinal measures for ensuring full safety in carrying out work on equipment in electrical installations is to disconnect reliably the unit or the section on which the work is to be done from all other live parts of the installation. To guard against mistakes, it is necessary that apparatus, which makes a visible break in the circuit such as isolators, should do this.
Isolators do not have arc control devices therefore cannot be used to interrupt currents at which the arc will be drawn across the contacts. The open arc in these is very dangerous, in that it will not only damage the isolator or the equipment surrounding it but will also cause the flashover between the phase in other words, it will result in short circuit in the installation i.e. why isolators are used only for disconnecting parts after de-energizing them by opening their respective circuits by use of their circuit breakers.
9. EARTHING SWITCHES: -
Earthing switch is used to discharge the voltage on dead lines to earth. An auxiliary switch to provide interlock always accomplishes it.
10. CIRCUIT BREAKERS: -
Circuit breakers are mechanical devices designed to close o open contact or electrical circuit under normal or abnormal conditions. CB is equipped with a strip coil directly attached to relay or other means to operate in abnormal conditions such as over power etc. In GNDTP three types of CB are used. SF6 CB is used to control 220 KV in switchyard. VCB are used to control 6.6kv in switchgear & ABCB are used to control 415 KV in switchgear.
In sulphar puffer type SF6 CB is filled with SF6 gas at single pressure (4to6kgf/cm2). The pressure and gas flow required for arc extinction is obtained by piston action.
In double pressure type SF6 CB the gas from high-pressure system is released to into low-pressure system over the arc during the arc quenching process.
SPECIFICATIONS OF CB TYPE ELF-SL4-1
S. NO. SPECIFICATIONS RATINGS
1. Voltage 245KV
2. Normal current 3150 A
3. Lightening impulse withstand Voltage 1050V
4. Switching impulse withstand voltage 1050V
5. Short circuit breaking current 40KA
6. Short circuit withstand current And duration 40KA 3 sec
7. Line charging breaking current 125A
8. Operating sequence - First pole to clear factor 1.3
9. Supply voltage 220 V dc
10. Auxiliary circuit supply voltage 240 V dc
11. Air pressure 20.5 bar
12. Frequency 50 HZ
13. Mass 3800 kg
14. Rated current 1600 A
11. VARIOUS OTHER EQUIPMENTS
Shunt capacitors are used to provide compensation to reactive loads of lagging power factor.
Series reactors are used to reduce the short circuit current or starting currents. Neutral grounding resistors are used to limit the earth fault current.
Coupling capacitors are used to provide connection between high voltage line and power line carrier equipment.
Operating Voltage 230 V Rated current 2000 A Minimum short circuit current in bus bars 40 KV Minimum phase to phase clearance 2.5 M Number of horizontal levels of tubular bus bar/flexible bus bars 2.0 M Height of tubular bus-bar of first level above ground 6 m Height of tubular bus-bar of second level above ground 4 m Tubular aluminium bus bar AL ASTMB241 4”IPS (International pipe standard)
VARIOUS SUBSYSTEMS IN SUBSTATIONS AND THEIR FUNCTION
S.NO. SYSTEM FUNCTION
1. Substation Earthing (Grounding) System - Earth mat - Earthing spikes - Earthing risers To provide an earth mat for connecting neutral points, equipment body, support structures to earth. For safety of personnel and for enabling earth fault protection. To provide the for discharging the earth currents neutrals, faults, surge arrestors over-head shielding wires etc. with safe step- Potential and touch potential.
2. Overhead earth wire shielding or lightning To protect the outdoor substation equipment from lightning strokes.
3. Illumination system (lightning) - For switchyards - Buildings - Roads, etc. To provide illumination for vigilance, operation and maintenance.
4. Protection system - Protection relay panels - Control cables - Circuit breakers - CT’s, PT’s, etc. To provide alarm or automatic tripping of faulty part from healthy part and also to minimize damage to faulty equipment and associated system.
5. Control cabling For protective circuits, control circuits, metering circuits.
6. Power cables To provide supply path to various auxiliary equipments and machines.
7. PLCC system power line carrier current system - Line trap - Coupling capacitor - PLCC panels For communications, telemetry, tele control power line carrier protection, etc.
8. Fire fighting system - Sensors, detection system - Water spray system - Fire protection control Panels To sense the occurrence of fire by sensors and to initiate water power spray, to disconnect power supply to affected region to pin point location of fire by indication in control room.
9. J Cooling water system - Coolers - Water tanks This system is required for cooling the valves in HVDC substation.
10. DC batteries sets and battery chargers Auxiliary low voltage DC supply.
11. Auxiliary stand by power System - Diesel generator sets - Switch gear - Distribution system For supplying starting power, stand by power for auxiliaries.
12. Telephone system For internal and external Communication.
12. BUS BAR ARRANGEMENT IN SWITCHYARDS
There are several ways in witch the switchyard can be connected in the electrical layout of generating station, receiving station or a switchgear in a distribution system. The following aspects in general affect the selection of the scheme:
1. Degree of flexibility of operations desired.
2. Importance of load an
Implementing an effective employee motivation program is something that most managers and human resource professionals struggle with on some level. The question always seems to come back to what methods and approaches one should use to get the most bang for their buck.There have been many, many studies on the subject over the years, ranging from the Hawthorne Studies that were conducted by Elton Mayo in the 1920's and 1930's, through the current day. They all reach the same basic conclusions. Some take 150 pages and others --like Frederick Herzberg's excellent One More Time: How Do You Motivate Employees article-- cover the bases in just a few pages.The gist of all of the data is that people are competitive creatures. They would like a certain equity in the workplace, but at the same time they crave personal recognition for doing their job well.Managers often view the Equity part of the equation as a Pay Equity situation. When in fact it really isn't. Unless there is a wide discrepancy in wages, Pay Equity is an answer that's too easy. Motivating employees is far more complex, and in many ways far simpler.What are the keys then to motivating your employees?It all starts with making their time at work interesting. Whether they will tell you or not, your employees like a challenge. They also like being part of the solution. So it's important to listen to them and to invite their contributions. Treat everyone as a human being, not just a number or like some small cog in a large wheel.Once you have them involved in the decision-making process --a real part of the team-- it is important to recognize their contributions. To reward their accomplishments.You can do this on an office or team level of course, but it is extremely important to recognize each individual who has made a special effort. Presenting individual awards during an office or team celebration is a very effective tool that you should not neglect. Not only will these sessi
2. Normal current 3150 A
3. Lightening impulse withstand Voltage 1050V
4. Switching impulse withstand voltage 1050V
5. Short circuit breaking current 40KA
6. Short circuit withstand current And duration 40KA 3 sec
7. Line charging breaking current 125A
8. Operating sequence - First pole to clear factor 1.3
9. Supply voltage 220 V dc
10. Auxiliary circuit supply voltage 240 V dc
11. Air pressure 20.5 bar
12. Frequency 50 HZ
13. Mass 3800 kg
14. Rated current 1600 A
11. VARIOUS OTHER EQUIPMENTS
Shunt capacitors are used to provide compensation to reactive loads of lagging power factor.
Series reactors are used to reduce the short circuit current or starting currents. Neutral grounding resistors are used to limit the earth fault current.
Coupling capacitors are used to provide connection between high voltage line and power line carrier equipment.
Operating Voltage 230 V Rated current 2000 A Minimum short circuit current in bus bars 40 KV Minimum phase to phase clearance 2.5 M Number of horizontal levels of tubular bus bar/flexible bus bars 2.0 M Height of tubular bus-bar of first level above ground 6 m Height of tubular bus-bar of second level above ground 4 m Tubular aluminium bus bar AL ASTMB241 4”IPS (International pipe standard)
VARIOUS SUBSYSTEMS IN SUBSTATIONS AND THEIR FUNCTION
S.NO. SYSTEM FUNCTION
1. Substation Earthing (Grounding) System - Earth mat - Earthing spikes - Earthing risers To provide an earth mat for connecting neutral points, equipment body, support structures to earth. For safety of personnel and for enabling earth fault protection. To provide the for discharging the earth currents neutrals, faults, surge arrestors over-head shielding wires etc. with safe step- Potential and touch potential.
2. Overhead earth wire shielding or lightning To protect the outdoor substation equipment from lightning strokes.
3. Illumination system (lightning) - For switchyards - Buildings - Roads, etc. To provide illumination for vigilance, operation and maintenance.
4. Protection system - Protection relay panels - Control cables - Circuit breakers - CT’s, PT’s, etc. To provide alarm or automatic tripping of faulty part from healthy part and also to minimize damage to faulty equipment and associated system.
5. Control cabling For protective circuits, control circuits, metering circuits.
6. Power cables To provide supply path to various auxiliary equipments and machines.
7. PLCC system power line carrier current system - Line trap - Coupling capacitor - PLCC panels For communications, telemetry, tele control power line carrier protection, etc.
8. Fire fighting system - Sensors, detection system - Water spray system - Fire protection control Panels To sense the occurrence of fire by sensors and to initiate water power spray, to disconnect power supply to affected region to pin point location of fire by indication in control room.
9. J Cooling water system - Coolers - Water tanks This system is required for cooling the valves in HVDC substation.
10. DC batteries sets and battery chargers Auxiliary low voltage DC supply.
11. Auxiliary stand by power System - Diesel generator sets - Switch gear - Distribution system For supplying starting power, stand by power for auxiliaries.
12. Telephone system For internal and external Communication.
12. BUS BAR ARRANGEMENT IN SWITCHYARDS
There are several ways in witch the switchyard can be connected in the electrical layout of generating station, receiving station or a switchgear in a distribution system. The following aspects in general affect the selection of the scheme:
1. Degree of flexibility of operations desired.
2. Importance of load an
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2. Overhead earth wire shielding or lightning To protect the outdoor substation equipment from lightning strokes.
3. Illumination system (lightning) - For switchyards - Buildings - Roads, etc. To provide illumination for vigilance, operation and maintenance.
4. Protection system - Protection relay panels - Control cables - Circuit breakers - CT’s, PT’s, etc. To provide alarm or automatic tripping of faulty part from healthy part and also to minimize damage to faulty equipment and associated system.
5. Control cabling For protective circuits, control circuits, metering circuits.
6. Power cables To provide supply path to various auxiliary equipments and machines.
7. PLCC system power line carrier current system - Line trap - Coupling capacitor - PLCC panels For communications, telemetry, tele control power line carrier protection, etc.
8. Fire fighting system - Sensors, detection system - Water spray system - Fire protection control Panels To sense the occurrence of fire by sensors and to initiate water power spray, to disconnect power supply to affected region to pin point location of fire by indication in control room.
9. J Cooling water system - Coolers - Water tanks This system is required for cooling the valves in HVDC substation.
10. DC batteries sets and battery chargers Auxiliary low voltage DC supply.
11. Auxiliary stand by power System - Diesel generator sets - Switch gear - Distribution system For supplying starting power, stand by power for auxiliaries.
12. Telephone system For internal and external Communication.
12. BUS BAR ARRANGEMENT IN SWITCHYARDS
There are several ways in witch the switchyard can be connected in the electrical layout of generating station, receiving station or a switchgear in a distribution system. The following aspects in general affect the selection of the scheme:
1. Degree of flexibility of operations desired.
2. Importance of load and local conditions.
3. Economic conditions, availability, and cost.
4. Technical conditions.
5. Maintenance, safety of personnel.
6. Simplicity.
7. Provision of extension.
8. Protective zones.
DUPLICATE BUS BAR ARRANGEMENT
The duplicate bus bar system provides additional flexibility, continuity of supply and permits periodic maintenance without total shut down. In the event of fault o n one bus the other bus can be used.
While transferring the power to the reserve bus, the following steps may be performed:
1. Close tie circuit breaker, i.e. bus coupler. The two buses are now at the same potential. 2. Close isolators on reserve bus starting from far end. 3. Open isolators o9n main bus starting from far end.
Each pole of the circuit breaker comprises one or more interrupts or arc extinguishing chambers. The interrupts are mounted on support insulators. The interrupts enclose a set of fixed and moving contact. The moving contacts can be drawn apart by means of the operating links of the operating mechanism. The operating mechanism of the circuit breaker gives necessary energy for opening and closing of contacts of the circuit breaker.
13. RELAYS
Relay is a device by means of which an electric circuit (trip or alarm circuit) is controlled (closed) by change in the other circuit. Relays are automatic. The function of relay in power supply system is to recognize a start out and to initiate the operation of CB or other devices to isolate the defective elements with minimum disturbance to the normal power supply system. The must operate at required speed and stability to prevent the current and voltage to exceed their limits.
A few relays with their international codes are mentioned below:
S. NO. CODES TYPES
1. 27 Instantaneous under voltage relay
2. 99 Composite motor protection relay
3. 64 Earth fault relay
4. 87M Differential relay for motors
5. 50N Earth fault relays with times for time delayed operation
6. 95 Fuse failure relay
7. 80 Auxiliary supply for DC supervision
8. 80B DC supply control supervision
9. 80A Relay for mains
10. 500/L Triple pole over current definite term
11. 98 Trip circuit supervision relay
12. 87 Triple pole circulating current
13. 63 Auxiliary relay for transformer fault indication
14. 33B Auxiliary relay for stop
15. 25 Check synchronizing relay
16. 52SC Instantaneous high set over current relay
17. 2B Static time delay relay
18. 51RYB Single pole (IDMTL) Inverse definite Minimum time over current relay.
THE FAULT CLEARING PROCESS
During abnormal or faulty conditions the relays sense the fault and close the trip circuit of the circuit breaker.
As the relay contact close, the trip circuit is closed and the operating mechanism of the CB opens and an arc is drawn between them. The arc is extinguished at some natural current zero of a.c. wave.
o Fault Occurs: - As the fault occurs the fault impedance being low, the currents increase and the relay get actuated. The moving part of the relay moves because of the increase in the operating torque. The relay takes some time to close its contacts.
o Relay contacts close, the trip CB closes and trip coil is energized.
o The operating mechanism starts operating for the opening operations. The CB contacts separate.
o Arc is drawn between the breaker contacts. The arc extinguished in the CB by suitable techniques. The current reaches final zero as the arc is extinguished.
SWITCHGEAR
The switchgear constitutes all parts or equipments of power plant whose function is to receive and distribute electric power. It comprises of the following:
· Assemblies of switching apparatus
· Protective and indicating metering devices
· Interconnecting bus bar systems and relevant accessories
Functions of Switchgear: -
The functions performed by switchgear are listed below: -
· To facilitate redistribution of load, inspection and maintenance of system. · To localize the effects of faults by operation of protective equipment so automatically disconnect faulty part from the system. · To break efficiently short circuits without giving rise to dangerous conditions.
The switchgear has the responsibility of transmitting the power from the generator to the grid. However plant also needs power for its working. It is mandatory not to use more than 10% of the power developed by the plant. So that all the auxiliaries and lightening system of the plant must be designed in such a way that there consumption is in the limit.
There are two bus bars placed in ducts, which supply power to the switchgear and are fed by two station transformers ST-I and ST-II. The rating of these identical bus bars is 6.6 KV, 3150 Amps, 50 Hz. These are known as C-I and C-II station buses respectively. The material of conductor is Aluminium. C-I station bus feeds US-IA & US-2A buses and C-II feeds US-IB & US-2B buses. C-I & C-II buses are also interlinked. These unit service buses feed the different kinds of load.
The auxiliary voltage for the ac supply system is 6.6 KV and 415 V. 6.6 KV supply system is provided with high resistance grounded neutral with provision of alarm/ trip. 415V auxiliary supply system has solidly/high resistance earthed neutral. All the electric motors of 150 KW rating or below are rated at 415 V and motors above 160 KW are rated at 6.6 KV.
GENERAL ELECTRICAL SUPPLIES IN THE PLANT
Electrical Auxiliary System
· AC Auxiliary supply system
· DC supply system
AC auxiliary supply system is used to feed all the AC auxiliaries installed in the plant.
The DC supply system which consists of 220 V DC, 110 V DC, +/- 24 V DC, 48 V DC etc. is used for control supplies as required for system control and protection equipment.
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