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India Steps upto 1200 kV

anant_s

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Indian Power Grid consists of various generating utilities and Load Dispatch centers that generate the power and then based on demand dispatch electricity to load centers.
Traditionally country's power is generated by Thermal power plants and Hydel which owing to distribution of natural resources are concentrated in East, with states of Jharkhand, Chattisgarh, West Bengal and Orissa being the chief coal producing regions, house maximum Thermal power plants. Elsewhere in country coal has to be transported through railways. Similarly Himalayan rivers are chief source of Hydel power which again are concentrated in North and East.
Most of industrialized states and population centers are located in Western and Southern parts of country leading to a problem of either transporting coal or having long distance power transmission lines.
However longer length lines mean losses in transmission and off course the problem of mismatch in regional frequencies (ideally it should be 50 Hz, with a margin range of 48.5-51 Hz). these problems are solved by having High voltage (which implies lower current and hence lower losses due to Ohmic heating, Q=i^2*r) and by using High Voltage DC lines using an Inverter converter scheme.
Power Grid Corporation of India Limited (PGCIL) is country's national transmission company and they are evolving new schemes and improving infra-structure to ensure power for all in India, coordinating between North, South, East and West regional grids. While 765 kV Transmission lines have been progressively employed in country, experimentation on 1200 kV lines have also been done successfully.
I'm posting a article from last year which portrays this successful development.
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http://www.spml.co.in/mediaroom/2014/Electrical-Monitor-April-2014.pdf
 
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A Triumph for Indian innovation : The 1200 kV UHVAC power system
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IEEMA while clearly enthused by the huge august gathering stated that the initiation of 1200 kV AC technology was the tipping point in the Indian Transmission Technology. IEEMA, whose 25 members formed the bulk total 35 participants actively involved in the project. According to IEEMA "more such research and development initiatives are required in the country, this initiative also offers a huge opportunity to the domestic manufacturers to upgrade to 1200kV level and opens up the huge global markets for such exports".

India's power system is poised for accelerated growth. Peak demand in India is expected to increase to more than 500,000 MW by 2027 for which installed generation capacity of about 700,000MW is required. Obviously, electricity generated needs to be evacuated, transmitted & distributed efficiently. Development of large transmission network for transfer of bulk power over long distances poses various challenges including environmental & technical, particularly in a country like India where additional challenges like Right-of-Way (ROW), Environmental aspects etc.too are thrown up. RoW today is a critical constraint, given the reluctance of the landowners to part with their land. Further, majority of the power is generated in the north eastern region of India while the demand centers are primarily located in the more industrialized western, southern and central regions, this situation is however changing slowly with the planning & implementation of Ultra Mega power projects (UMPP) across the country and near to coastal areas.

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All these challenges with manifold increase of power transfer requirement necessitate quantum jump in transmission voltage level. The existing 400kV line can transfer about 600MW power whereas 800kV line has loading capacity of 1200MW-2400MW. The transmission capacity of 1200kV is between 6000 MW to 8000 MW and hence a much needed solution for meeting above challenges. To meet the long-term power transfer requirement, a large transmission network is being planned in India interconnecting all the pocketed generating resources.

Taking into consideration the increased power transfer requirement to meet the above challenges, an alternative 1200 kV AC transmission system between various regions is also being explored. In a first such initiative in the country, 35 manufacturers have joined hands with Powergrid to establish a 1200kV UHV AC Test Station at Bina, Madhya Pradesh, to initiate development of 1200kV transmission equipment indigenously.

The test line is being constructed with two 1200kV test bays in which the leading manufacturers are providing main equipments such as transformers, surge arresters, circuit breakers, instrument transformers and transmission line hardware and accessories. These test bays and test line shall be used for various field tests/ trials so that the results and feedback can be used for developing field proven equipment as well as to gain initial operational experience. Powergrid is likely to construct 1200 kV Transmission Lines between Wardha and Aurangabad to usher in 1200 kV era in the country.

The test bays and the test line shall be used by the manufacturers and Powergrid for various field tests so that the results and feedback can be used for developing the proven equipment of 1200kV system in India as well as gain initial operational experience. The test station is likely to be commissioned in early 2011. This endeavor shall benefit the Indian Power sector and manufacturers as availability of 1200kV class equipment within the country will enable optimization of transmission cost and also help during the operation and maintenance phase.

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India is starved for electricity despite the Indian power system's present installed capacity of about 162,000 MW. Demand for electricity is growing at an accelerated pace. Peak demand is expected to increase to more than 500,000 MW by 2027 for which installed capacity of about 700,000MW is required. To meet the growing demand, the government is actively working on increasing generation capacity and encouraging new investments in the sector especially through private participation through Single window clearances for UMPPs - faster land acquisition & environmental clearances etc, zero customs duty for project imports. This is one part of the story.

The other part of the story is that electricity generated also needs to be efficiently transferred over large distances and with minimum losses.. India being a large country the distances involved are quite long, particularly when the bulk of the power is generated by the pocketed generating resources in Eastern, North-eastern Regions and consumed in the with bulk load centers in the other regions. To interconnect these effectively and meet the long-term power transfer requirement, a large transmission network is being planned in India. However it is faced with many challenges like increased transmission losses, large short circuit requirements, Right-of-Way(RoW) and resultant environmental issues. Hence urgent solutions are needed to overcome these challenges.

After conducting extensive studies and in the given circumstances the Indian transmission utility, Powergrid felt that a1200kV transmission line would be the most apt for transfer of bulk power efficiently. The electricity transmission capacity of 1200kV system is between 6000 MW to 8000 MW - which is about twice as that of the 765kV system and is about 6 times that of the currently widely used 400kV system.

To elaborate further, the existing 400kV lines on an average can transfer about 600MW power whereas 800kV lines have loading capacity of 1200MW-2400MW. However, As already mentioned higher Transmission voltage, has its own problems like requirement of wider transmission corridors (Right-of-Way or ROW), bigger & higher towers, resulting environmental impact due to larger use of space etc Increase in short circuit level, reduction of losses etc.

We can get an idea about the Voltage vis-à-vis Right-of-Way requirements from the table 1.1 below You will note that higher transmission voltages increase the space required for creating a transmission corridor by almost 100% thereby increasing costs incurred in acquiring land (if it is first available) & the resultant environmental impact but at the same time it also enables bulk power transfer. 1200kV UHVAC system could the panacea for our power transfer issues. So what are the other countries doing? Let's checkout the scenario in ultra high voltage bulk transfer systems elsewhere;

  • The First 1200 kV system was field tested & commissioned in USSR in 1985 after 12 years of research, however it was unfortunately discontinued after disintegration of USSR.
  • Japan started developmental work of 1000 kV UHV system in 1978. Japan has also developed 1100kV test station which is in service since 1993. Developmental tests are still continuing.
  • As usual China a late starter is catching up very fast. China started their 1100 kV UHV system developmental work very recently i.e. in 2005. In January 2009, 1100kV transmission project was constructed in China. Three (03) Numbers 1100kV Transmission Stations have been constructed and are in operation almost for a year. Further additional 1100kV Transmission project are under planning and design stage in China for bulk transfer of power.
  • Other countries like USA and Brazil are also considering development of UHV AC transmission system in their network.
Powergrid embarked on a historical journey and decided to set up a 1200kV National Test Station at Bina in Madhya Pradesh. Powergrid although boldly opting for a 1200 kV UHVAC system faced a major challenge - Lack of proven 1200kV technology, since even globally there is very little experience on successful use of 1200kV technology. The solution was to develop the technology indigenously which will also be advantageous to the nation in the long term.

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Powergrid decided to capitalize on the manufacturing and technology skills of the mature Indian electrical equipment manufacturers and decided to develop the required equipment with indigenous technology in collaboration with CEA, CPRI, IEEMA and other equipment manufacturers.(The Indian electrical industry over the last 6 decades has evolved into a mature industry and acquired the necessary skills & technology to sustain itself in the long term). In fact today we can proudly say that 95% of all the equipment in India is of Indian make.

An initial corpus of Rs 100 crores was set aside to start the Test Station initiative in 2007 with a final cost of about Rs 800 crores.

Establishment of 1200kV UHVAC Test Station at Bina (WR) - entails;

  • Construction of 2 nos. 1200kV Bays and 2 nos. 400kV bays along with 2 nos. 1200/400/33kV 333MVA Transformers.
  • Construction of two nos. 1200kV Test Lines of one km length (one single circuit and one double circuit)
  • Setting up of Test facilities
A Project Steering Committee under the leadership of Powergrid and comprising of representative from Central Electrical Authority, electrical equipment manufacturers, CPRI and IEEMA in 2007 was formed. Since then 13 formal interactions have taken place, 33 leading electrical equipment manufacturers have entered into MoU with Powergrid and have got actively involved in this pioneering R & D project. With indigenous R & D and innovations the manufacturers have succeeded in the design, development, testing etc of the main 1200kV equipment like Transformers, Surge Arresters, Circuit Breakers, Instrument Transformers, Transmission Line hardware and accessories etc.

Insulation Co-ordination was the biggest challenge for selection of technical parameters of various equipments like Surge Arrestors, Transformers, Circuit Breakers, and Instrument Transformers etc. The project is scheduled to be commissioned by end December 2010 and slated to create history.

Once commissioned, these test bays and test line shall be used for various field tests/ trials so that the results and feedback can be used for developing field proven equipment as well as to gain initial operational experience. POWERGRID is planning to construct the first 1200kV Transmission Lines between Wardha & Aurangabad (Line length 400 kM, Rs 800 Crores to usher in 1200kV era in the country.

More projects will follow based on the success of Test Station

In conclusion this Indigenous R & D effort in addition to providing help to develop an efficient bulk UHVAC power transfer system in India will also lead to;

  • Indigenous availability of equipment & proven technology
  • Optimization of cost
  • Ease of service.
  • Opportunity for Indian Manufacturers to become global leaders in UHVAC technology.
1200kV transmission system initiative will help in the large scale efficient evacuation of power in the 11th and 12th Plan period. The 1200kV system is a step towards overcoming the challenges in the sector such as Right of Way, environmental considerations, optimization of cost, faster project implementation, co-ordinated development of transmission corridor together with other infrastructure, transmission capacity enhancement through upgrading, reduction of losses and integration of emerging technologies. All in all a Win Win situation for all involved in the project.

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1200 kV Transformer developed ingeniously by Crompton & Greaves
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World’s Highest Voltage Class Transformer, 1200 kV, 333 MVA Single Phase Auto transformer developed successfully by Vijai Electricals Ltd. Hyderabad with Indigenous Technology.
 
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World’s Highest Voltage Class Transformer, 1200 kV, 333 MVA Single Phase Auto transformer developed successfully by Vijai Electricals Ltd. Hyderabad with Indigenous Technology.

I guess it was developed by BHEL?

BHEL develops India's first Ultra High Voltage AC 1200 kV Transformer through in-house Research and Development efforts

Bharat Heavy Electricals Limited (BHEL)’s sustained focus on developing new technologies and products through in-house R&D initiatives has once again paid rich dividends with the successful indigenous development of the country’s first 1200 kV Ultra High Voltage Alternating Current (UHVAC) Transformer of 333 MVA rating. Significantly, India’s first 1200 kV, 333 MVA Transformer has been developed, manufactured and successfully tested by BHEL entirely through in-house know-how. With its successful development and type testing as per international standards, India joins a select band of countries in the world possessing this technology. The development of the 1200 kV UHVAC transformer is the outcome of two years of rigorous research by the engineers of BHEL. The technology for such leading-edge products is specific and available with very few manufacturers worldwide and is zealously guarded and not available for transfer. BHEL had to develop each facet of the technology through in-house R&D efforts to develop a product that is comparable to the best in the world. The transformer has been manufactured under a controlled environment using the contemporary, state-of-the-art manufacturing and testing facilities at the newly constructed transformer block in BHEL’s Bhopal plant to meet stringent quality requirements for operation of such transformers. BHEL had signed an MoU with PowerGrid for development of this transformer which is also the largest equipment used in a substation. The 333 MVA, 1150/400/33 kV, single-phase, Auto Transformer successfully developed by BHEL shall be installed in India's first experimental 1200 kV National Test Station at Bina (MP) being set up by PowerGrid. This is a major mile stone for India towards self reliance in UHVAC transmission systems. Having introduced 765 kV as the highest transmission voltage, the country is aspiring to shift to 1200 kV voltage transmission networks during the XIIth plan period. A large network comprising 1200 kV transmission superhighways is being planned as part of the National Transmission Network. BHEL has also recently successfully tested and despatched India’s first indigenously developed 500 MVA, 765 kV Transformer for a substation project being set up in Western India by PowerGrid. In addition, the company has manufactured and installed a 1200 kV, 180 MVA Transformer to be used as a testing transformer in its UHV Test Laboratory at Bhopal. For the transmission sector, BHEL has developed various systems and products which include Power Transformers, Instrument Transformers and Disc Insulators suitable for UHVAC systems of 765 kV and 1200 kV. It has also earned the distinction of being the only manufacturer in the world to have successfully manufactured and tested its Ceramic Disc Insulators for + 800 kV UHVDC transmission systems at STRI Sweden. The company has recently won an order to execute PowerGrid + 800 kV, 6000MW HVDC Multi Terminal System Package associated with the North East/Eastern Region – Northern/Western Region Interconnector – I in consortium with ABB, Sweden. This project will be the world’s biggest HVDC project and on commissioning of the project, India will shift HVDC transmission voltage from the present + 500 kV to + 800 kV which is the highest DC voltage in the world. Significantly, India will also become only the second country in the world possessing this technology. BHEL is also supplying its indigenously developed Disc Insulators for construction of the transmission lines associated with this project. BHEL manufactures transformers, shunt reactors, instrument transformers, capacitors, extra high voltage circuit breakers and medium voltage switchgear at its facilities located at Bhopal, Hyderabad and Jhansi, besides providing total systems solution for HVDC, Extra High Voltage Alternating Current (EHVAC) and UHVAC Systems. BHEL is the biggest transformer manufacturer in India with a capacity to manufacture 45,000 MVA of transformers/reactors per annum. The company has set up a modern state-of-the-art manufacturing plant of 12,000 MVA at Bhopal to manufacture large sized EHV, HVDC and UHVAC transformers and reactors.

Source:- Bharat Heavy Electricals Ltd.
India's first 1200 kV transformer made by BHEL commissioned - The Times of India

There are many small Indian private sector manufacturing firms which often go unnoticed - like Supreme Electricals of Tamil Nadu which supplied Insulator Hardware Fittings and all Clamps and Terminal Connectors for the 1200kV Test Station, the first such products of 1200 kv supplied by any manufacturer in the World. All of it was designed and developed by themselves only.

item-designed1.jpg
 
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I guess it was developed by BHEL?

BHEL develops India's first Ultra High Voltage AC 1200 kV Transformer through in-house Research and Development efforts

Bharat Heavy Electricals Limited (BHEL)’s sustained focus on developing new technologies and products through in-house R&D initiatives has once again paid rich dividends with the successful indigenous development of the country’s first 1200 kV Ultra High Voltage Alternating Current (UHVAC) Transformer of 333 MVA rating. Significantly, India’s first 1200 kV, 333 MVA Transformer has been developed, manufactured and successfully tested by BHEL entirely through in-house know-how. With its successful development and type testing as per international standards, India joins a select band of countries in the world possessing this technology. The development of the 1200 kV UHVAC transformer is the outcome of two years of rigorous research by the engineers of BHEL. The technology for such leading-edge products is specific and available with very few manufacturers worldwide and is zealously guarded and not available for transfer. BHEL had to develop each facet of the technology through in-house R&D efforts to develop a product that is comparable to the best in the world. The transformer has been manufactured under a controlled environment using the contemporary, state-of-the-art manufacturing and testing facilities at the newly constructed transformer block in BHEL’s Bhopal plant to meet stringent quality requirements for operation of such transformers. BHEL had signed an MoU with PowerGrid for development of this transformer which is also the largest equipment used in a substation. The 333 MVA, 1150/400/33 kV, single-phase, Auto Transformer successfully developed by BHEL shall be installed in India's first experimental 1200 kV National Test Station at Bina (MP) being set up by PowerGrid. This is a major mile stone for India towards self reliance in UHVAC transmission systems. Having introduced 765 kV as the highest transmission voltage, the country is aspiring to shift to 1200 kV voltage transmission networks during the XIIth plan period. A large network comprising 1200 kV transmission superhighways is being planned as part of the National Transmission Network. BHEL has also recently successfully tested and despatched India’s first indigenously developed 500 MVA, 765 kV Transformer for a substation project being set up in Western India by PowerGrid. In addition, the company has manufactured and installed a 1200 kV, 180 MVA Transformer to be used as a testing transformer in its UHV Test Laboratory at Bhopal. For the transmission sector, BHEL has developed various systems and products which include Power Transformers, Instrument Transformers and Disc Insulators suitable for UHVAC systems of 765 kV and 1200 kV. It has also earned the distinction of being the only manufacturer in the world to have successfully manufactured and tested its Ceramic Disc Insulators for + 800 kV UHVDC transmission systems at STRI Sweden. The company has recently won an order to execute PowerGrid + 800 kV, 6000MW HVDC Multi Terminal System Package associated with the North East/Eastern Region – Northern/Western Region Interconnector – I in consortium with ABB, Sweden. This project will be the world’s biggest HVDC project and on commissioning of the project, India will shift HVDC transmission voltage from the present + 500 kV to + 800 kV which is the highest DC voltage in the world. Significantly, India will also become only the second country in the world possessing this technology. BHEL is also supplying its indigenously developed Disc Insulators for construction of the transmission lines associated with this project. BHEL manufactures transformers, shunt reactors, instrument transformers, capacitors, extra high voltage circuit breakers and medium voltage switchgear at its facilities located at Bhopal, Hyderabad and Jhansi, besides providing total systems solution for HVDC, Extra High Voltage Alternating Current (EHVAC) and UHVAC Systems. BHEL is the biggest transformer manufacturer in India with a capacity to manufacture 45,000 MVA of transformers/reactors per annum. The company has set up a modern state-of-the-art manufacturing plant of 12,000 MVA at Bhopal to manufacture large sized EHV, HVDC and UHVAC transformers and reactors.

Source:- Bharat Heavy Electricals Ltd.
India's first 1200 kV transformer made by BHEL commissioned - The Times of India

There are many small Indian private sector manufacturing firms which often go unnoticed - like Supreme Electricals of Tamil Nadu which supplied Insulator Hardware Fittings and all Clamps and Terminal Connectors for the 1200kV Test Station, the first such products of 1200 kv supplied by any manufacturer in the World. All of it was designed and developed by themselves only.

item-designed1.jpg

More such efforts should be encouraged
 
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I guess it was developed by BHEL?

BHEL develops India's first Ultra High Voltage AC 1200 kV Transformer through in-house Research and Development efforts

Bharat Heavy Electricals Limited (BHEL)’s sustained focus on developing new technologies and products through in-house R&D initiatives has once again paid rich dividends with the successful indigenous development of the country’s first 1200 kV Ultra High Voltage Alternating Current (UHVAC) Transformer of 333 MVA rating. Significantly, India’s first 1200 kV, 333 MVA Transformer has been developed, manufactured and successfully tested by BHEL entirely through in-house know-how. With its successful development and type testing as per international standards, India joins a select band of countries in the world possessing this technology. The development of the 1200 kV UHVAC transformer is the outcome of two years of rigorous research by the engineers of BHEL. The technology for such leading-edge products is specific and available with very few manufacturers worldwide and is zealously guarded and not available for transfer. BHEL had to develop each facet of the technology through in-house R&D efforts to develop a product that is comparable to the best in the world. The transformer has been manufactured under a controlled environment using the contemporary, state-of-the-art manufacturing and testing facilities at the newly constructed transformer block in BHEL’s Bhopal plant to meet stringent quality requirements for operation of such transformers. BHEL had signed an MoU with PowerGrid for development of this transformer which is also the largest equipment used in a substation. The 333 MVA, 1150/400/33 kV, single-phase, Auto Transformer successfully developed by BHEL shall be installed in India's first experimental 1200 kV National Test Station at Bina (MP) being set up by PowerGrid. This is a major mile stone for India towards self reliance in UHVAC transmission systems. Having introduced 765 kV as the highest transmission voltage, the country is aspiring to shift to 1200 kV voltage transmission networks during the XIIth plan period. A large network comprising 1200 kV transmission superhighways is being planned as part of the National Transmission Network. BHEL has also recently successfully tested and despatched India’s first indigenously developed 500 MVA, 765 kV Transformer for a substation project being set up in Western India by PowerGrid. In addition, the company has manufactured and installed a 1200 kV, 180 MVA Transformer to be used as a testing transformer in its UHV Test Laboratory at Bhopal. For the transmission sector, BHEL has developed various systems and products which include Power Transformers, Instrument Transformers and Disc Insulators suitable for UHVAC systems of 765 kV and 1200 kV. It has also earned the distinction of being the only manufacturer in the world to have successfully manufactured and tested its Ceramic Disc Insulators for + 800 kV UHVDC transmission systems at STRI Sweden. The company has recently won an order to execute PowerGrid + 800 kV, 6000MW HVDC Multi Terminal System Package associated with the North East/Eastern Region – Northern/Western Region Interconnector – I in consortium with ABB, Sweden. This project will be the world’s biggest HVDC project and on commissioning of the project, India will shift HVDC transmission voltage from the present + 500 kV to + 800 kV which is the highest DC voltage in the world. Significantly, India will also become only the second country in the world possessing this technology. BHEL is also supplying its indigenously developed Disc Insulators for construction of the transmission lines associated with this project. BHEL manufactures transformers, shunt reactors, instrument transformers, capacitors, extra high voltage circuit breakers and medium voltage switchgear at its facilities located at Bhopal, Hyderabad and Jhansi, besides providing total systems solution for HVDC, Extra High Voltage Alternating Current (EHVAC) and UHVAC Systems. BHEL is the biggest transformer manufacturer in India with a capacity to manufacture 45,000 MVA of transformers/reactors per annum. The company has set up a modern state-of-the-art manufacturing plant of 12,000 MVA at Bhopal to manufacture large sized EHV, HVDC and UHVAC transformers and reactors.

Source:- Bharat Heavy Electricals Ltd.
India's first 1200 kV transformer made by BHEL commissioned - The Times of India

There are many small Indian private sector manufacturing firms which often go unnoticed - like Supreme Electricals of Tamil Nadu which supplied Insulator Hardware Fittings and all Clamps and Terminal Connectors for the 1200kV Test Station, the first such products of 1200 kv supplied by any manufacturer in the World. All of it was designed and developed by themselves only.

item-designed1.jpg
BHEL was one of the firms to develop it. As the report mentions Vijai electrics and C&G are also successful.
PGCIL is encouraging more firms to develop products in this sector which not only gives it financial benefit of competition but also allows quicker execution through multiple parties supply source in large projects.
what we are lacking is the protection schemes and implementation such as numerical relays etc where Alsthom and Siemens are leaders. hopefully more domestic companies will devote R&D effort here also.
 
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@anant_s bhai isse fayda kya hoga ... in short and layman terms me ... im no electric enginear :cheers:
 
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@anant_s bhai isse fayda kya hoga ... in short and layman terms me ... im no electric enginear :cheers:
sirji
long distance power transmission involves transfer of large power.
now in electrical terms Power=Voltage*Current.
(i'm omitting some other factors for simplification).
as you can see we have a choice of either increasing voltage or current keeping power same.
increasing voltage is a preferred option as it is easier to do using transformers.
at high currents line losses are huge, so power companies transmit power at high voltage.
higher the voltage more is the power carrying capacity of line and lower the losses.:meeting:
:cheers:
 
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sirji
long distance power transmission involves transfer of large power.
now in electrical terms Power=Voltage*Current.
(i'm omitting some other factors for simplification).
as you can see we have a choice of either increasing voltage or current keeping power same.
increasing voltage is a preferred option as it is easier to do using transformers.
at high currents line losses are huge, so power companies transmit power at high voltage.
higher the voltage more is the power carrying capacity of line and lower the losses.:meeting:
:cheers:
in short right time to invest in power transmission cable manufacturing companies and in copper :azn:
 
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in short right time to invest in power transmission cable manufacturing companies and in copper :azn:
i've lost some money in stock market so perhaps the last person to give anybody advice about shares:P.
but yes government is focusing on improving distribution network and therefore companies like PGCIL, Tata power could be good bets.
 
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