A corona discharge is an electrical discharge brought on by the ionization of a fluid such as air surrounding a conductor that is electrically charged. Spontaneous corona discharges occur naturally in high-voltage systems unless care is taken to limit the electric field strength. A corona will occur when the strength of the electric field (potential gradient) around a conductor is high enough to form a conductive region, but not high enough to cause electrical breakdown or arcing to nearby objects. It is often seen as a bluish glow in the air adjacent to pointed metal conductors carrying high voltages, and emits light by the same property as a gas discharge lamp.
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Thursday, 14 May 2020
Corona
A corona discharge is an electrical discharge brought on by the ionization of a fluid such as air surrounding a conductor that is electrically charged. Spontaneous corona discharges occur naturally in high-voltage systems unless care is taken to limit the electric field strength. A corona will occur when the strength of the electric field (potential gradient) around a conductor is high enough to form a conductive region, but not high enough to cause electrical breakdown or arcing to nearby objects. It is often seen as a bluish glow in the air adjacent to pointed metal conductors carrying high voltages, and emits light by the same property as a gas discharge lamp.
Monday, 27 April 2020
Cooling water
Correct statement about cooling water used in condenser of steam power plant:
1. The colder the water the more is the efficiency
2. The warmer the water the more is the efficiency
3. Water temperature has no effect on efficiency
4. The cooling water should be used in very small quantity
Answer: 2. The warmer the water the more is the efficiency
Friday, 24 April 2020
Answers to Questions 1-7
1. A voltmeter connects in:
1. Series
2. Parallel
3. Any of these
4. None of these
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The correct answer is 2.
2. The form factor of sinusoidal alternating current is:
1. 0.97
2. 1.11
3. 3.54
4. 7.48
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The correct answer is 2.
3. If the span is increased, the sag will:
1. Increase
2. Decrease
3. Remain constant
4. None of these
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The correct answer is 1.
4. Voltage regulation of an alternator when connected to inductive load:
1. Positive
2. Negative
3. Zero
4. None of these
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The correct answer is 1.
5. Country with the highest uranium resources:
1. Australia
2. Canada
3. Namibia
4. Nigeria
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The correct answer is 1.
6. Which one of the following is not a part of DC Machines:
1. Commutator
2. Yoke
3. Damping winding
4. Field winding
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The correct answer is 3.
7. An alternator converts ____________ to ______________:
1. Alternating current, Direct current
2. Direct current, Alternating current
3. Electrical Energy, Mechanical Energy
4. Mechanical energy, Electrical Energy
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The correct answer is 4.
Sunday, 8 March 2020
How electricity is delivered to our homes?
These substations contain breakers just like you have in your house only much larger to protect the system in case of a problem. Each circuit coming in and going out of any substation will have at least one breaker on it for protection.
So, the electric leaves the generation station substation and travels down the wires at 138kv. It enters another substation where it goes in to a transformer where it is stepped down to 69kv and is divided in to several circuits.
If we follow one of the 69kv circuits, it will then either go to another location within this substation or it will travel down the wires to a smaller substation. For the purposes of this explanation, we will assume that it goes to another smaller substation. When it gets there, it goes in to another transformer that steps it down to 12.5kv. That voltage is then sent to a switch gear with breakers where it is divided up in to more circuits.
These 12.5kv circuits then go out to provide power to a neighborhood. Once it gets there, it will go to several small transformers that are either hanging on a pole with the overhead wires or a transformer on the ground if the wires are run underground. These small transformers will feed several homes and step the voltage down to 2 legs with 120 volts each for a total of 240 volts. This voltage goes into your home at the circuit breaker panel and more breakers and is distributed throughout your home.
So there it is. A quick and dirty guide to how electric gets to your house. However, I have left out a lot of details that would unnecessarily make this post a lot longer as most people would not really be interested. There is a lot of redundancy on the system in order to keep things running in the event of problems. There is a lot of technology being used for protection and such. If taken as a whole, the American electric grid is the most complicated machine that mankind has ever created. I have worked for the electric utility for 10 years and I am still awed by what it takes to keep the lights on.
کرونا CORONA
- The glow appear across the conductor which shows the power loss occur on it.
- The audio noise occurs because of the corona effect which causes the power loss on the conductor.
- The vibration of conductor occurs because of corona effect.
- The corona effect generates the ozone because of which the conductor becomes corrosive.
- The corona effect produces the non-sinusoidal signal thus the non-sinusoidal voltage drops occur in the line.
- The corona power loss reduces the efficiency of the line.
- The radio and TV interference occurs on the line because of corona effect.
- Conductor diameter – For reducing corona loss, this method of increasing conductor diameters is very effective.Diameters of conductors can be increased by using hollow conductors and by using steel-cored aluminum conductors(ACSR) conductors.
- The voltage of the line – Voltage of transmission lines is fixed by economic considerations. To increase the disruptive voltage the spacing of the conductors is to be increased, but this method has some limitations.
- Spacing between conductors – If the space between conductors increases, then the voltage drops between them also increases due to increase in inductive reactance.
Friday, 6 March 2020
Transposition
Transposition of conductors in Power Transmission Lines
Parameters of Transmission Line:
A transmission line has four parameters, namely resistance, inductance, capacitance and conductance. The resistance ‘R’ of a line is because of conductor resistance, series inductance ‘L’ is due to the magnetic field surrounding the conductors, shunt capacitance ‘C’ is due to the electric field between conductors, and shunt conductance, ‘G’ is because of the leakage current between phases and ground.
What is Transposition of Conductors?
The interchange of conductor positions of a transmission line at regular intervals along the route is known as Transposition of Conductors.
Why transposition is needed?
In the power transmission line when the line conductors are asymmetrically spaced i.e. not equally spaced, the inductance of each phase is different causing voltage drops of different magnitudes in the three phases even if the system is operating under balanced condition (load currents are balanced in the three phases). Also the magnetic field external to the conductors is not zero thereby inducing voltages in adjacent communication lines and causing what is known as “telecommunication interference”. This can be overcome by the interchange of conductor positions at regular intervals along the route and this practice is known as “transposition of conductors”.
How transposition is done?
In a transposed transmission line each of the three conductors occupies all the three positions relative to other conductors (position 1, position 2, and position 3) for one-third of the total length of the transmission line. Transposition also balances out the line capacitance so that electro-statically induced voltages are also balanced. Figure shows the transposition of conductors over a complete cycle.
A complete cycle of transposition of line conductors.
Complications of Conductor Transposition:
Frequent transposition usually leads to complication of support structures (as can be seen by the picture below), increase the cost because of increased number of insulator strings and total weight of supports.
Transposition on 400 kV, double circuit transmission line, near Bhopal, M.P.
Tuesday, 24 December 2019
Digital Meter vs Electromechanical Meter
Some one asked me,
Do the new digital electric meters runs faster than the old electromechanical or revolving type meter?
So let make this very clear and simple 😊,
If by faster you are implying more accurately at low currents than the answer is yes.
For example, most utilities purchase electricity meters for residential applications with a nameplate rating of 240 Volts, 2 to 200 amps, 1 phase , 3 wire, Form 2S.
These nameplate ratings would apply to both the legacy electro-mechanical “induction disc” devices or the newer solid state or digital meters.
As a former supervising technologist at a large utility meter facility, I can share with you that modern digital meters perform much more accurately at low currents than the older electro-mechanical models they have replaced.
Since there is no friction or starting torque to overcome, digital meters will respond very accurately at very low loads.
So some customers may see an increase in their kWh consumption since the old electro-mechanical meters would not respond well to electrical usage where the only devices in operation in the home ( typically in the middle of the night) drew small amounts of current. These load devices may include clock radios, cable TV boxes, cell phone chargers, etc. Digital meters will measure and record these loads accurately.
Also I can personally attest to digital meters being much more accurate in the normal operating range pf test currents applied between 5 amps to 50 amps.
From our extensive laboratory testing of meters owned by our utility and in-service meter evaluations, electro-mechanical meters have typical accuracy tolerances of +/- 0.5 % but digital meters are much more precise, typically at +/- o.2 %.
As electro-mechanical meters age some devices tend to under-respond or “slow down”. Digital meters will be accurate throughout their entire life span.
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