GSEG is a power generation company owned by GSPC Group that operates a 156 MW natural gas-fired combined cycle power plant in Hazira, Gujarat. It was established in 1998 and its power plant was commissioned in 2002. The plant sells all its electricity to GUVNL under a long term power purchase agreement. GSEG is expanding the capacity of its Hazira plant by 350 MW and has contracts with gas and power off-takers to support the expanded facility. The additional power will be sold to GUVNL once the expansion is commissioned in 2011.
This presentation summarizes information about the Thermal Power Station in Muzafargarh, Pakistan. The key points are:
- The power station has a total installed capacity of 1350 MW generated across 6 units powered by natural gas and furnace oil.
- It uses a Rankine cycle to generate steam from heated water to power turbines and generate electricity.
- The presentation describes the typical components and processes within a thermal power plant, including boilers, turbines, generators, and cooling systems.
- Muzafargarh power station is a major source of electricity in Pakistan's national grid and is operated by the Pakistan Electric Power Company.
Solar and Wind Powered Hybrid Energy Vehiclekushaal hn
The wind and solar powered car has high efficiency and is a maintenance free vehicle. The car works on the concept of charging and discharging of the battery on board. When the vehicle runs the motor consumes power from the battery and after certain kilometers, it needs to be recharged. In this car, power is generated from wind turbines and the solar modules and are directed to the battery for the charging. The battery is recharged on board and the car doesn’t need to be standby for charging. To conserve the energy and to utilize it at best we are designing a vehicle which will run on the battery which will get charged by free energy sources. Then as per the requirement, we connected the solar panel and wind energy generator motor
A lot's of animation have been included in it which make this ppt more attractive as well audience better understand and key point of a good presentation is that if we are able to explain them in simpler way more people will going to like it so hope this ppt will really be helpfull
This document discusses hybrid vehicles. It defines a hybrid vehicle as one with two or more power sources, such as gasoline-electric. Hybrids optimize fuel efficiency by allowing the internal combustion engine to work efficiently while capturing braking energy. There are three main hybrid architectures: parallel, series, and power split. The power split design, seen in Toyota Prius, is a combination of series and parallel that optimizes power delivery. Hybrids improve fuel economy and reduce emissions but cost more upfront due to additional components like batteries.
COMBINE CYCLE POWER PLANT PPT summer trainingDebasish Das
The document is a report on a combined cycle power plant located in Tripura, India. It discusses the following key points:
- The plant has a total capacity of 726.6 MW across two units, each with one gas turbine and one steam turbine generating 363.3 MW.
- It uses a combined cycle with both a Brayton cycle in the gas turbine and a Rankine cycle in the steam turbine to efficiently convert fuel to electricity.
- The gas turbine produces steam that is used in the steam turbine, boosting overall efficiency compared to separate gas and steam plants.
The document provides information about geothermal power plants. It discusses that geothermal energy is thermal energy generated and stored in the earth from radioactive decay and the planet's formation. Geothermal power plants use steam from hot water underground to generate electricity without raw materials and with little environmental impact. Locations suitable for geothermal energy have active volcanoes or thin earth crust allowing heat to escape. Electricity is produced through direct use of steam or using steam to power turbines connected to generators. Geothermal energy can also be used directly for heating and in applications like greenhouses, agriculture and industry.
This presentation summarizes information about the Thermal Power Station in Muzafargarh, Pakistan. The key points are:
- The power station has a total installed capacity of 1350 MW generated across 6 units powered by natural gas and furnace oil.
- It uses a Rankine cycle to generate steam from heated water to power turbines and generate electricity.
- The presentation describes the typical components and processes within a thermal power plant, including boilers, turbines, generators, and cooling systems.
- Muzafargarh power station is a major source of electricity in Pakistan's national grid and is operated by the Pakistan Electric Power Company.
Solar and Wind Powered Hybrid Energy Vehiclekushaal hn
The wind and solar powered car has high efficiency and is a maintenance free vehicle. The car works on the concept of charging and discharging of the battery on board. When the vehicle runs the motor consumes power from the battery and after certain kilometers, it needs to be recharged. In this car, power is generated from wind turbines and the solar modules and are directed to the battery for the charging. The battery is recharged on board and the car doesn’t need to be standby for charging. To conserve the energy and to utilize it at best we are designing a vehicle which will run on the battery which will get charged by free energy sources. Then as per the requirement, we connected the solar panel and wind energy generator motor
A lot's of animation have been included in it which make this ppt more attractive as well audience better understand and key point of a good presentation is that if we are able to explain them in simpler way more people will going to like it so hope this ppt will really be helpfull
This document discusses hybrid vehicles. It defines a hybrid vehicle as one with two or more power sources, such as gasoline-electric. Hybrids optimize fuel efficiency by allowing the internal combustion engine to work efficiently while capturing braking energy. There are three main hybrid architectures: parallel, series, and power split. The power split design, seen in Toyota Prius, is a combination of series and parallel that optimizes power delivery. Hybrids improve fuel economy and reduce emissions but cost more upfront due to additional components like batteries.
COMBINE CYCLE POWER PLANT PPT summer trainingDebasish Das
The document is a report on a combined cycle power plant located in Tripura, India. It discusses the following key points:
- The plant has a total capacity of 726.6 MW across two units, each with one gas turbine and one steam turbine generating 363.3 MW.
- It uses a combined cycle with both a Brayton cycle in the gas turbine and a Rankine cycle in the steam turbine to efficiently convert fuel to electricity.
- The gas turbine produces steam that is used in the steam turbine, boosting overall efficiency compared to separate gas and steam plants.
The document provides information about geothermal power plants. It discusses that geothermal energy is thermal energy generated and stored in the earth from radioactive decay and the planet's formation. Geothermal power plants use steam from hot water underground to generate electricity without raw materials and with little environmental impact. Locations suitable for geothermal energy have active volcanoes or thin earth crust allowing heat to escape. Electricity is produced through direct use of steam or using steam to power turbines connected to generators. Geothermal energy can also be used directly for heating and in applications like greenhouses, agriculture and industry.
Ntpc (national thermal power corporation) sipat mechanical vocational trainin...haxxo24
This document is a project report submitted by Harshit Kumar Gupta towards the completion of his vocational training at NTPC Sipat power plant. It includes declarations by the student and certificates from his project guide. It then provides acknowledgments and summaries of the key components of the power plant including the coal handling plant, boiler, turbine, generator, condenser, cooling tower, and ash handling plant.
The document summarizes different types of ocean energy resources including wave, tidal, ocean thermal, and salinity gradient energy. It notes that the theoretical global resource of ocean energy is substantial, with wave energy alone estimated at 8,000-80,000 TWh/yr, which exceeds current worldwide electricity consumption of 17,000 TWh/yr. The document also provides examples of different technologies used to extract energy from ocean waves, tides, and thermal gradients and gives updates on the status of grid-connected ocean energy projects around the world.
This document provides an overview of a seminar presentation about the Kota Super Thermal Power Station (KSTPS) in Rajasthan, India. It summarizes that KSTPS is a coal-based power plant located on the Chambal River with a total installed capacity of 1240 MW generated across 7 units. It then briefly describes the plant's coal handling process, steam generation process involving the boiler and turbine, water treatment systems, and electrical switchyard.
An electric car runs on an electric motor powered by rechargeable batteries instead of an internal combustion engine powered by gasoline. It has three main parts - an electric motor, controller, and battery. When the accelerator pedal is pressed, the controller directs electricity from the battery to power the motor and turn the wheels. Electric cars have economic advantages like lower fuel and maintenance costs and environmental benefits from producing fewer emissions than gasoline cars. However, their disadvantages include longer recharge times, limited service facilities, higher vehicle costs, and fewer models available.
This document summarizes a presentation on magnetic levitation vehicles (Maglev vehicles). It discusses the principles and history of Maglev transportation, how Maglev trains and floating magnetic cars work using electromagnetic forces, advantages like high speed and lack of pollution, and disadvantages such as high costs. Examples of current and potential Maglev applications are also provided.
KERS systems capture kinetic energy lost during braking and store it to provide a power boost by releasing stored energy. There are two main types - electrical systems store energy in batteries while mechanical systems use a flywheel. Formula One introduced KERS in 2009 to increase overtaking opportunities by providing a short power boost. Mechanical KERS has higher efficiency than electrical systems as it avoids multiple energy conversions.
kinetic energy recovery system (all types of KERS )Prasad Lohar
This document summarizes a seminar presentation on Kinetic Energy Recovery Systems (KERS). It defines KERS as a system that stores kinetic energy during vehicle braking and returns it to provide a power boost during acceleration. It describes the basic elements of KERS including a motor/generator unit, power control unit, and batteries or flywheel for energy storage. It discusses two main types of KERS - electrical and mechanical. Electrical KERS converts kinetic energy to electrical energy for storage while mechanical KERS uses a flywheel. It concludes that KERS can improve vehicle performance and efficiency.
Hydro energy is simply energy that is taken from water and converted to electricity. Hydro energy can be obtained by using many methods of capture. The most common method of using energy from water is a hydroelectric dam, where water coming down through an area causes turbines to rotate and the energy is captured to run a generator.
This document provides an overview of a thermal power plant. It begins by classifying power plants by their fuel sources and prime movers. It then introduces thermal power plants, explaining that they convert the heat energy of coal into electrical energy using a boiler to produce steam that drives a turbine connected to a generator. The document outlines the typical layout and main equipment of a thermal power plant, including coal handling, the boiler, turbine, condenser, and other auxiliary systems. It discusses advantages and limitations of thermal plants and considerations for site selection. Finally, it provides details on several major thermal power plants located in Rajasthan, India.
Biomass fueled power plants produce electricity and heat by burning biomass such as wood chips and agricultural residues in boilers. Key components of biomass power plants include fuel storage and handling equipment, boilers, turbines, generators, and emissions controls. Biomass is combusted or gasified to generate steam that drives turbines connected to generators. Biomass power generation provides social and economic benefits like decreased dependence on foreign energy sources and job creation in rural areas, but faces challenges of high costs and securing a stable long-term biomass fuel supply.
Electric vehicles are powered by electric motors instead of internal combustion engines. The history of electric vehicles began in the mid-19th century. Key components of electric vehicles include batteries, motors, controllers, chargers, and converters. Batteries are rechargeable and power the brushless DC motor, while the controller regulates power from the batteries to the motor. Advantages include reduced dependence on oil and gasoline and lower emissions, while disadvantages include high costs, long recharging times, and limited range. Widespread adoption of electric vehicles could help lower emissions and increase energy efficiency for transportation.
This document discusses tidal power and tidal energy generation. It begins with an introduction to tidal power and the causes of tides. It then describes the different types of tides and tidal barrages used in tidal power plants. The main parts of a tidal power plant including the barrage, sluice gates, and turbine generators are explained. Advantages like being renewable and efficient and disadvantages like high costs and environmental impacts are highlighted. Major tidal power plants currently operating in the world are briefly mentioned. The future potential of tidal energy is discussed in the conclusion.
The document discusses advancements in hybrid electric vehicles. It begins by covering the early history of electric vehicles and then focuses on hybrid electric vehicles (HEVs) which use both an electric engine and a conventional internal combustion engine. The key benefits of HEVs are improved fuel economy, reduced emissions, and better acceleration. There are three main types of hybrids - series, parallel, and combined. The document analyzes the SWOT of hybrid vehicles and concludes by discussing Toyota's popular Prius hybrid car.
The document provides an introduction to renewable energy sources for power generation. It discusses various renewable energy technologies including wind and solar energy. For wind energy, it describes the technology behind wind turbines and key components. It also discusses solar photovoltaic and concentrating solar thermal plant technologies. The document then provides current installed capacities and scenarios for wind and solar energy in India.
Architectures of HEVs, series and parallel HEVs, complex HEVs .Plug-in hybrid vehicle, constituents of PHEV, comparison of HEV and PHEV; Fuel Cell vehicles and its constituents.
The document is a presentation on a practical training and industrial visit to the Kota Super Thermal Power Station in India. It summarizes the key details of the power station in 3 points:
1) The power station has a total installed capacity of 1240 MW and uses coal as its fuel source, sourced from nearby mines. It employs a steam turbine generator system to convert the heat from combustion into electrical power.
2) The power station's operations include a coal handling plant to receive and transport coal via rail, a boiler to produce high pressure steam from coal combustion, a steam turbine to convert steam power into rotational energy, and generators to convert this into electrical power.
3) Ash handling is also
Magnetic Levitation is a method by which we can levitated an object with no support, other than magnetic field.
since it is a old theory but there still research is going on in this topic.now it is used in maglev train,maglev bearing and product display purpose.
This document provides information about electric vehicles. It lists the student names and course details in the header. The introduction discusses the history of electric vehicles from their invention in the 19th century to their decline with the rise of gasoline-powered cars. It then describes how electric vehicles work by taking electricity from the grid to charge batteries which power electric motors. The document outlines the advantages and disadvantages of electric vehicles. Finally, it defines and provides examples of three types of electric vehicles: battery electric vehicles (BEV), hybrid electric vehicles (HEV), and fuel cell electric vehicles (FCEV).
This seminar discusses kinetic energy recovery systems (KERS) used in Formula 1 racing. KERS store energy from braking and provide power for acceleration. There are two types - electrical systems that use motors, batteries, and power control units, and mechanical systems that use flywheels. Both aim to improve fuel efficiency and performance by capturing wasted kinetic energy. The document outlines the components, working principles, advantages like reduced emissions, and challenges like additional weight of KERS technology.
The document summarizes recent policy news, industry news, and investment news related to the energy sector in India:
PNGRB has invited bids for CGD licenses in 34 cities across several states. The Karnataka government approved a JV between GAIL and KSIIDC to set up a CGD network in Bengaluru. Six waste-to-energy plants are planned in Delhi and other states to be commissioned by 2016 to increase renewable energy capacity. The Union Government plans to waive transmission charges for electricity from renewable sources to achieve its renewable energy target of 175GW by 2022.
This document provides an overview of the NTPC Auraiya gas power station located in Uttar Pradesh, India. It discusses the key components of the combined cycle power plant including four gas turbines that drive generators, producing a total capacity of 663.36 MW. Waste heat from the gas turbines is used to power steam turbines through four waste heat recovery boilers. The plant uses natural gas and naphtha as fuels to run the gas turbines. It also describes the air compressors, combustion chambers, fuel storage, turbines, boilers and water treatment systems that make up the combined cycle gas power station.
Ntpc (national thermal power corporation) sipat mechanical vocational trainin...haxxo24
This document is a project report submitted by Harshit Kumar Gupta towards the completion of his vocational training at NTPC Sipat power plant. It includes declarations by the student and certificates from his project guide. It then provides acknowledgments and summaries of the key components of the power plant including the coal handling plant, boiler, turbine, generator, condenser, cooling tower, and ash handling plant.
The document summarizes different types of ocean energy resources including wave, tidal, ocean thermal, and salinity gradient energy. It notes that the theoretical global resource of ocean energy is substantial, with wave energy alone estimated at 8,000-80,000 TWh/yr, which exceeds current worldwide electricity consumption of 17,000 TWh/yr. The document also provides examples of different technologies used to extract energy from ocean waves, tides, and thermal gradients and gives updates on the status of grid-connected ocean energy projects around the world.
This document provides an overview of a seminar presentation about the Kota Super Thermal Power Station (KSTPS) in Rajasthan, India. It summarizes that KSTPS is a coal-based power plant located on the Chambal River with a total installed capacity of 1240 MW generated across 7 units. It then briefly describes the plant's coal handling process, steam generation process involving the boiler and turbine, water treatment systems, and electrical switchyard.
An electric car runs on an electric motor powered by rechargeable batteries instead of an internal combustion engine powered by gasoline. It has three main parts - an electric motor, controller, and battery. When the accelerator pedal is pressed, the controller directs electricity from the battery to power the motor and turn the wheels. Electric cars have economic advantages like lower fuel and maintenance costs and environmental benefits from producing fewer emissions than gasoline cars. However, their disadvantages include longer recharge times, limited service facilities, higher vehicle costs, and fewer models available.
This document summarizes a presentation on magnetic levitation vehicles (Maglev vehicles). It discusses the principles and history of Maglev transportation, how Maglev trains and floating magnetic cars work using electromagnetic forces, advantages like high speed and lack of pollution, and disadvantages such as high costs. Examples of current and potential Maglev applications are also provided.
KERS systems capture kinetic energy lost during braking and store it to provide a power boost by releasing stored energy. There are two main types - electrical systems store energy in batteries while mechanical systems use a flywheel. Formula One introduced KERS in 2009 to increase overtaking opportunities by providing a short power boost. Mechanical KERS has higher efficiency than electrical systems as it avoids multiple energy conversions.
kinetic energy recovery system (all types of KERS )Prasad Lohar
This document summarizes a seminar presentation on Kinetic Energy Recovery Systems (KERS). It defines KERS as a system that stores kinetic energy during vehicle braking and returns it to provide a power boost during acceleration. It describes the basic elements of KERS including a motor/generator unit, power control unit, and batteries or flywheel for energy storage. It discusses two main types of KERS - electrical and mechanical. Electrical KERS converts kinetic energy to electrical energy for storage while mechanical KERS uses a flywheel. It concludes that KERS can improve vehicle performance and efficiency.
Hydro energy is simply energy that is taken from water and converted to electricity. Hydro energy can be obtained by using many methods of capture. The most common method of using energy from water is a hydroelectric dam, where water coming down through an area causes turbines to rotate and the energy is captured to run a generator.
This document provides an overview of a thermal power plant. It begins by classifying power plants by their fuel sources and prime movers. It then introduces thermal power plants, explaining that they convert the heat energy of coal into electrical energy using a boiler to produce steam that drives a turbine connected to a generator. The document outlines the typical layout and main equipment of a thermal power plant, including coal handling, the boiler, turbine, condenser, and other auxiliary systems. It discusses advantages and limitations of thermal plants and considerations for site selection. Finally, it provides details on several major thermal power plants located in Rajasthan, India.
Biomass fueled power plants produce electricity and heat by burning biomass such as wood chips and agricultural residues in boilers. Key components of biomass power plants include fuel storage and handling equipment, boilers, turbines, generators, and emissions controls. Biomass is combusted or gasified to generate steam that drives turbines connected to generators. Biomass power generation provides social and economic benefits like decreased dependence on foreign energy sources and job creation in rural areas, but faces challenges of high costs and securing a stable long-term biomass fuel supply.
Electric vehicles are powered by electric motors instead of internal combustion engines. The history of electric vehicles began in the mid-19th century. Key components of electric vehicles include batteries, motors, controllers, chargers, and converters. Batteries are rechargeable and power the brushless DC motor, while the controller regulates power from the batteries to the motor. Advantages include reduced dependence on oil and gasoline and lower emissions, while disadvantages include high costs, long recharging times, and limited range. Widespread adoption of electric vehicles could help lower emissions and increase energy efficiency for transportation.
This document discusses tidal power and tidal energy generation. It begins with an introduction to tidal power and the causes of tides. It then describes the different types of tides and tidal barrages used in tidal power plants. The main parts of a tidal power plant including the barrage, sluice gates, and turbine generators are explained. Advantages like being renewable and efficient and disadvantages like high costs and environmental impacts are highlighted. Major tidal power plants currently operating in the world are briefly mentioned. The future potential of tidal energy is discussed in the conclusion.
The document discusses advancements in hybrid electric vehicles. It begins by covering the early history of electric vehicles and then focuses on hybrid electric vehicles (HEVs) which use both an electric engine and a conventional internal combustion engine. The key benefits of HEVs are improved fuel economy, reduced emissions, and better acceleration. There are three main types of hybrids - series, parallel, and combined. The document analyzes the SWOT of hybrid vehicles and concludes by discussing Toyota's popular Prius hybrid car.
The document provides an introduction to renewable energy sources for power generation. It discusses various renewable energy technologies including wind and solar energy. For wind energy, it describes the technology behind wind turbines and key components. It also discusses solar photovoltaic and concentrating solar thermal plant technologies. The document then provides current installed capacities and scenarios for wind and solar energy in India.
Architectures of HEVs, series and parallel HEVs, complex HEVs .Plug-in hybrid vehicle, constituents of PHEV, comparison of HEV and PHEV; Fuel Cell vehicles and its constituents.
The document is a presentation on a practical training and industrial visit to the Kota Super Thermal Power Station in India. It summarizes the key details of the power station in 3 points:
1) The power station has a total installed capacity of 1240 MW and uses coal as its fuel source, sourced from nearby mines. It employs a steam turbine generator system to convert the heat from combustion into electrical power.
2) The power station's operations include a coal handling plant to receive and transport coal via rail, a boiler to produce high pressure steam from coal combustion, a steam turbine to convert steam power into rotational energy, and generators to convert this into electrical power.
3) Ash handling is also
Magnetic Levitation is a method by which we can levitated an object with no support, other than magnetic field.
since it is a old theory but there still research is going on in this topic.now it is used in maglev train,maglev bearing and product display purpose.
This document provides information about electric vehicles. It lists the student names and course details in the header. The introduction discusses the history of electric vehicles from their invention in the 19th century to their decline with the rise of gasoline-powered cars. It then describes how electric vehicles work by taking electricity from the grid to charge batteries which power electric motors. The document outlines the advantages and disadvantages of electric vehicles. Finally, it defines and provides examples of three types of electric vehicles: battery electric vehicles (BEV), hybrid electric vehicles (HEV), and fuel cell electric vehicles (FCEV).
This seminar discusses kinetic energy recovery systems (KERS) used in Formula 1 racing. KERS store energy from braking and provide power for acceleration. There are two types - electrical systems that use motors, batteries, and power control units, and mechanical systems that use flywheels. Both aim to improve fuel efficiency and performance by capturing wasted kinetic energy. The document outlines the components, working principles, advantages like reduced emissions, and challenges like additional weight of KERS technology.
The document summarizes recent policy news, industry news, and investment news related to the energy sector in India:
PNGRB has invited bids for CGD licenses in 34 cities across several states. The Karnataka government approved a JV between GAIL and KSIIDC to set up a CGD network in Bengaluru. Six waste-to-energy plants are planned in Delhi and other states to be commissioned by 2016 to increase renewable energy capacity. The Union Government plans to waive transmission charges for electricity from renewable sources to achieve its renewable energy target of 175GW by 2022.
This document provides an overview of the NTPC Auraiya gas power station located in Uttar Pradesh, India. It discusses the key components of the combined cycle power plant including four gas turbines that drive generators, producing a total capacity of 663.36 MW. Waste heat from the gas turbines is used to power steam turbines through four waste heat recovery boilers. The plant uses natural gas and naphtha as fuels to run the gas turbines. It also describes the air compressors, combustion chambers, fuel storage, turbines, boilers and water treatment systems that make up the combined cycle gas power station.
Ramgarh-gas-thermal-power-plant- by swai singh godara BAYTU-(RAMGARH) 941453...Swai Singh
This document is a training report submitted by Swai Singh for his diploma in engineering at the Government Polytechnic College in Hanumangarh, Rajasthan. It provides details about his training period from June 8th to July 5th 2015 at the Ramgarh Gas Thermal Power Plant. The report gives an overview of the plant's location and installed capacity. It also includes operational performance statistics, descriptions of the plant equipment and processes, and an acknowledgment of the plant staff who supported his training.
The Gujarat government plans to spend INR 100 crore to upgrade electricity infrastructure like poles and transformers to facilitate development projects by urban and semi-urban civic bodies. India is working to establish a strategic uranium reserve between 5,000 to 15,000 metric tons to ensure an uninterrupted fuel supply for atomic reactors. The West Bengal government has transferred four hydroelectric projects with a combined capacity of 293 MW to the National Hydroelectric Power Corporation.
Vibrant Gujarat Summit 2013: Report on Sun Shines and Wine falls for Gujarat'...Vibrant Gujarat
With Newsletter of Vibrant Gujarat stay updated with the latest news, information, updates and activities. Your preferred investment destination, Vibrant Gujarat is adding milestones with newer development initiatives.
This document provides an overview of a project conducted at GAIL (India) Limited's LPG plant in Lakwa to enhance LPG recovery. The project involved designing a heat exchanger to decrease the temperature of the feed gas using lean gas, which would increase the amount of LPG recovered. The document includes details about the LPG manufacturing process at the plant, a process flow diagram, product quality control measures, fire safety systems, and a description of the heat exchanger design project including the methodology, cost-benefit analysis, and results.
RGTPP is located near Ramgarh Town district head quarter, Jaisalmer (Rajasthan), which is largest district of the state. Its installed capacity at about 60 km from is 270 MW. And this plant is located in largest state of India, based on area
There was problem in maintaining desired quality standards in electric supply to Jaisalmer on account of excess losses because of longer transmission lines. To rectify above problem and to utilize available natural gas in this area RGTPP was established in this border district whose existing capacity is 270 MW.
The Prime Minister launched the INR 45,000-crore Integrated Power Development Scheme (IPDS) to strengthen power distribution networks and ensure 24x7 power supply across India by 2022. As part of the scheme, sub-transmission and distribution systems will be expanded, including metering and solar panel provisions. Currently, some remote areas only receive power for 4-6 hours daily, but the goal is to provide 24x7 access nationwide by 2022. Additional funds are being provided for projects in Varanasi.
The document provides an introduction to the Ramgarh Gas Thermal Power Plant (RGTPP) located in Rajasthan, India. Some key points:
- RGTPP is located near Ramgarh Town, about 60 km from Jaisalmer, Rajasthan. Its initial installed capacity was 270 MW.
- The plant was established to address problems with power supply to Jaisalmer due to long transmission lines and excess losses.
- The plant's capacity was later increased with the addition of two more units - a 75 MW gas turbine and 37.5 MW steam turbine.
- The plant generates power using natural gas supplied via pipeline from oil and gas fields in western Raj
Gujarat will launch an 'Agro-Solar policy' allowing farmers to rent land for solar power generation while still farming, earning 30-40% of profits. EESL distributed LED bulbs in Rajasthan, aiming to reduce costs and increase lifespan compared to CFL and normal bulbs. India added 2,500MW of solar in 2015 and aims to be a top 5 global solar market by increasing targets to 100GW by 2022 from various projects. Fuel consumption rose 5.52% in July in India from increased gasoline use. NHPC restored a damaged hydroelectric unit in Jammu and Kashmir.
T&D India (July 2017) - Power T&D ContractingT&D India
T&D Indian (July 2017) - Power T&D Contracting, Going by the government’s impetus and the response of investors, the nation’s renewable energy mission appears to be on track. Though it is premature to forecast whether the target of installing 100 GW of solar and 60 GW of wind power capacity by 2022 will be attained, the country does appear to be moving in the right direction.
KREDL- Energy Efficiency Workshop - BangaloreAdvit Foundaion
The document discusses renewable energy issues and challenges in Karnataka, India. It provides statistics on installed renewable energy capacity as of 2010, including 2831 MW total from sources like wind (1536 MW), small hydro (572 MW), and biomass (87 MW). The state has achieved growth in renewable energy through policies promoting private sector development of projects like solar homes and streets lights in rural areas. The state's 2010 renewable energy policy set a target of adding 4326 MW of capacity by 2014 through various sources including wind, hydro, biomass and solar.
The Haryana government plans to expand its power transmission and distribution system by commissioning 215 additional substations and augmenting 418 existing substations, as well as laying over 3,000 km of transmission and distribution lines, with funding from central government schemes. The NPCIL expects to restart the first unit of the Kudankulam Nuclear Power Project in December 2015 after maintenance. An Essar-Saipem joint venture won a $1.57 billion contract in Kuwait for the Al-Zour refinery project. Hindustan Power conducted a successful boiler light-up test for the second unit of its Anuppur thermal power plant in Madhya Pradesh.
This document provides a 3-page report on power distribution by Ankur S Pithadiya for his 1-month industrial training. It includes:
- An abstract describing the training and thanks to those involved
- Acknowledgements thanking those who helped with the training
- A table of contents outlining the various chapters covering topics like electricity in Gujarat, PGVCL profile, HT & LT line erection, releasing new consumers, meter laboratories, substation layouts, transformers, and conclusions.
The report appears to provide an overview of the power distribution system in Gujarat and the author's learnings from his industrial training placement. It includes details on various components of the transmission
GE signed contracts totaling $2.7 billion with Sonelgaz, Algeria's national electricity company, to provide power generation equipment and services. The contracts include supplying 26 gas turbines, 12 steam turbines, and 38 generators for 9 power plants that will provide nearly 9 gigawatts of electricity to Algeria. GE will also establish a joint venture with Sonelgaz to build a new facility in Algeria that will create hundreds of local jobs and produce over 2 gigawatts of power equipment annually. Some equipment will be fast-tracked to help meet Algeria's immediate power needs in 2013.
The document provides an overview of the rehabilitation programs and status updates for three thermal power generation companies (GENCOs) in Pakistan. It summarizes the installed capacity and generation assets for each GENCO. It then details rehabilitation work completed at Jamshoro Power Plant (GENCO-1), Guddu Power Plant (GENCO-2), and Muzaffargarh Power Plant (GENCO-3) with USAID assistance, highlighting capacity gains achieved or expected at each plant. It concludes with responses to queries from NEPRA on various regulatory requirements.
The government has mandated blending 10% ethanol with petrol from 2016 to increase ethanol production and support sugar mills. Lanco Infratech has commissioned the third phase of its 371 MW power plant in Andhra Pradesh. Four utilities in Gujarat and Punjab received an A+ rating for good 2013-14 performance. The Airports Authority of India plans a common fuel storage facility to introduce competition among oil companies at airports. Indian Oil Corporation signed an agreement to provide cheaper diesel to Punjab Roadways, saving them over 2 crore rupees in 3 years. Oil Marketing Companies have started providing bio-diesel in select outlets including in Delhi, Vijayawada, Haldia and Vizag.
Zodiac Signs and Food Preferences_ What Your Sign Says About Your Tastemy Pandit
Know what your zodiac sign says about your taste in food! Explore how the 12 zodiac signs influence your culinary preferences with insights from MyPandit. Dive into astrology and flavors!
Digital Transformation and IT Strategy Toolkit and TemplatesAurelien Domont, MBA
This Digital Transformation and IT Strategy Toolkit was created by ex-McKinsey, Deloitte and BCG Management Consultants, after more than 5,000 hours of work. It is considered the world's best & most comprehensive Digital Transformation and IT Strategy Toolkit. It includes all the Frameworks, Best Practices & Templates required to successfully undertake the Digital Transformation of your organization and define a robust IT Strategy.
Editable Toolkit to help you reuse our content: 700 Powerpoint slides | 35 Excel sheets | 84 minutes of Video training
This PowerPoint presentation is only a small preview of our Toolkits. For more details, visit www.domontconsulting.com
FIA officials brutally tortured innocent and snatched 200 Bitcoins of worth 4...jamalseoexpert1978
Farman Ayaz Khattak and Ehtesham Matloob are government officials in CTW Counter terrorism wing Islamabad, in Federal Investigation Agency FIA Headquarters. CTW and FIA kidnapped crypto currency owner from Islamabad and snatched 200 Bitcoins those worth of 4 billion rupees in Pakistan currency. There is not Cryptocurrency Regulations in Pakistan & CTW is official dacoit and stealing digital assets from the innocent crypto holders and making fake cases of terrorism to keep them silent.
Anny Serafina Love - Letter of Recommendation by Kellen Harkins, MS.AnnySerafinaLove
This letter, written by Kellen Harkins, Course Director at Full Sail University, commends Anny Love's exemplary performance in the Video Sharing Platforms class. It highlights her dedication, willingness to challenge herself, and exceptional skills in production, editing, and marketing across various video platforms like YouTube, TikTok, and Instagram.
Discover timeless style with the 2022 Vintage Roman Numerals Men's Ring. Crafted from premium stainless steel, this 6mm wide ring embodies elegance and durability. Perfect as a gift, it seamlessly blends classic Roman numeral detailing with modern sophistication, making it an ideal accessory for any occasion.
https://rb.gy/usj1a2
In the Adani-Hindenburg case, what is SEBI investigating.pptxAdani case
Adani SEBI investigation revealed that the latter had sought information from five foreign jurisdictions concerning the holdings of the firm’s foreign portfolio investors (FPIs) in relation to the alleged violations of the MPS Regulations. Nevertheless, the economic interest of the twelve FPIs based in tax haven jurisdictions still needs to be determined. The Adani Group firms classed these FPIs as public shareholders. According to Hindenburg, FPIs were used to get around regulatory standards.
Part 2 Deep Dive: Navigating the 2024 Slowdownjeffkluth1
Introduction
The global retail industry has weathered numerous storms, with the financial crisis of 2008 serving as a poignant reminder of the sector's resilience and adaptability. However, as we navigate the complex landscape of 2024, retailers face a unique set of challenges that demand innovative strategies and a fundamental shift in mindset. This white paper contrasts the impact of the 2008 recession on the retail sector with the current headwinds retailers are grappling with, while offering a comprehensive roadmap for success in this new paradigm.
Recruiting in the Digital Age: A Social Media MasterclassLuanWise
In this masterclass, presented at the Global HR Summit on 5th June 2024, Luan Wise explored the essential features of social media platforms that support talent acquisition, including LinkedIn, Facebook, Instagram, X (formerly Twitter) and TikTok.
IMPACT Silver is a pure silver zinc producer with over $260 million in revenue since 2008 and a large 100% owned 210km Mexico land package - 2024 catalysts includes new 14% grade zinc Plomosas mine and 20,000m of fully funded exploration drilling.
The 10 Most Influential Leaders Guiding Corporate Evolution, 2024.pdfthesiliconleaders
In the recent edition, The 10 Most Influential Leaders Guiding Corporate Evolution, 2024, The Silicon Leaders magazine gladly features Dejan Štancer, President of the Global Chamber of Business Leaders (GCBL), along with other leaders.
B2B payments are rapidly changing. Find out the 5 key questions you need to be asking yourself to be sure you are mastering B2B payments today. Learn more at www.BlueSnap.com.
The Influence of Marketing Strategy and Market Competition on Business Perfor...
Gseg project
1. COMPANY INTRODUCTION
GSEG (Gujarat State Energy Generation Ltd.) is a Special Purpose Vehicle (SPV)
formed by GSPC (Gujarat State Petroleum Corporation) to generate power in Gujarat
by harnessing the eco-friendly and economical natural gas.
GSEG is part of the GSPC Group's overall strategy of establishing a presence in both
the upstream and downstream segments of the energy value chain.
The company is committed to using innovative, advanced and reliable technology for
producing gas-based power.
GSEG was set up in 1998 as a power generation company. GSEG owns and operates
a gas based power plant in Hazira that was commissioned in 2002.
The plant was set up to provide electricity for the Gujarat state grid, with all
electricity currently produced at the plant sold to Gujarat Urja Vikas Nigam Limited
(GUVNL), a Government of Gujarat owned electricity company.
GSEG is in the process of extending the capacity of its Hazira plant. It has entered
into a gas purchase contract with us to provide the gas required for the expanded
plant, effective for 20 years from commissioning, with the gas to be bought at
mutually agreed prices.
1
2. The additional power to be generated will be bought by GUVNL pursuant to a 20 year
procurement contract effective from commissioning.
INDUSTRY OVERVIEW
GEB is the main contributor to the power supply for the State.
Torrent Power AEC, being a licensee caters to power needs of Ahmedabad and
Gandhinagar
Torrent Power SEC distributes power to Surat and surrounding areas
IPPs like Torrent Power AEC, GIPCL, GTEC, GSEC, ESSAR and Central Sector
[ NTPC and NPC ] also are contributing
Demand supply projections
The power requirements of Gujarat are met primarily by GEB, a statutory body,
constituted under the Electricity ( supply ) Act, 1948.
Per capita consumption of power in the state, currently at 786 KWh [ higher than
national avg., of 345 kWh ]
Installed capacity
GEB 4474MW
IPPs
Torrent Power AEC 490
GIPCL Gas based, Baroda 305
Essar Power Ltd.,Hazira 300
GPEC, Bharuch 655
GSEC- Gandhinagar 210
GSEC-Wanakbori 210
GSEG, Hazira 156
GIPCL, Mangrol 250
Total 2576 MW
CENT SECTOR ( Gujarat Share ) 1532 MW
TOTAL 8582 MW
2
3. ABOUT GSEG
Powering Gujarat
GSEG (Gujarat State Energy Generation Ltd.) is engaged in gas based generation of
electricity, using innovative and dependable technology, in Gujarat.
A Special Purpose Vehicle (SPV) of GSPC for generating power using advanced,
eco-friendly technology, GSEG fits in well with the GSPC Group's overall scheme of
energy business.
GSEG is committed to deliver true value in efficiency, economy and sustainable
development activities in Gujarat. It presently operates a 156.1 MW Combined Cycle
Power Plant near Hazira, Surat, which is being further expanded in the first phase by
~350 MW.
Highlight
GSEG achieved commercial operation of this Combined Cycle thermal power plant,
within a record time of 22 months, starting June 1st, 2000. The first phase expansion
by ~350 MW is already underway and is likely to be operational sometime in 2011.
MISSION
Recognizing the need for safe, affordable, secure source of energy in Gujarat, the
primary mission of GSEG is to meet demand with a fuel source that is clean, reliable,
efficient and safe. GSEG is also committed to become a strong strategic partner in the
emerging integrative vision of the GSPC Group, resulting in more energy, economy
and efficiency to individuals and enterprises, and a higher quality of life to everyone.
True to the spirit of the Group's Safety, Health & Environment Policy and practices,
GSEG is committed, responsible and environment conscious in its design, project
planning, building, operating and enhancing the power generation facility business, by
proactively meeting the applicable environmental laws, regulations and stipulations,
and encouraging the development and use of efficient, clean and cost-effective energy
technologies.
3
4. GSEG'S STRENGTHS
• One of the most efficient producers in Gujarat offering reliability and flexibility
• Application of Modern and Efficient Technologies - like CCPP and state-of-the-art
controls for plant management
• Committed to environment friendly operations
• Excellent domain expertise guaranteeing efficient and economic operation
• Regular modernization to continuously increase energy yields and environmental
performance
GSEG continues to explore synergies with the other companies of GSPC Group - synergies
between gas and electricity with intelligent application of fuel management strategies and
information technology.
HISTORY
Diversifying into power
GSPC Group decided to move into power generation as a part of its corporate
diversification plan and embarked on a short gestation power project based on the use of
natural gas from its gas fields. The Hazira area of Gujarat was chosen as the site for its first
combined cycle power plant. To implement the project, GSPC promoted a separate company
named Gujarat State Energy Generation Ltd (GSEG).
GSEG, in turn, selected Alstom as contractor for the project through international
competitive bidding. Alstom supplied the plant on a turnkey basis. Its scope included two
4
5. GT8C2 gas turbines with generators, a steam turbine with generator and heat recovery steam
generators as well as the overall power plant control system. The contract also included civil
works, balance-of-plant and buildings. GSEG employed Desein Consulting Engineers of
Delhi as advisors and to supervise the turnkey contractor's compliance with the plant
specification.
GSEG selected Evonik Energy Services (India) Private Ltd erstwhile Steag Encotec as
O&M contractor for the project. The power purchase agreement for the project was signed
with GUVNL (erstwhile GEB).
Project Development Highlights
Germination
Gujarat State Petroleum Corporation Ltd. (GSPC), engaged in Oil & Gas E
& P, decided to diversify into downstream activities for value addition in the
energy business and thus, GSEG was incorporated in December 1998.
Contractual Structure of the Hazira project
Abbreviations: GSPC = Gujarat State Petroleum Corporation Ltd.; GSEG = Gujarat
State Energy Generation Ltd;
GUVNL = Gujarat Urja Vikas Nigam Limited; INAP = Alstom Power India; CIF =
Cost insurance, freight; Alstom Power Switzerland
5
6. Plan Project Schedule
• OPEN CYCLE(GT1) in 17 months
• OPEN CYCLE(GT2) in 18 months
• COMBINED CYCLE in 20.6 months
from the Notice to Proceed (NTP) to the EPC contract Plan for a 156.1 MW, two 52
MW Gas Turbine (GT8C2), one 52.1 MW Steam Turbine and two Heat Recovery Steam
Generator - Combined Cycle Power generation project takes shape.
Actualisation
Association with other state sector companies and central sector PSUs like
KRIBHCO & GAIL
Alstom Power India awarded with EPC for the plant
The plants made available both as modularised, pre-engineered packages (for this
low-gestation project)
Development for a 156.1 MW, two 52 MW Gas Turbine (GT8C2), one 52.1 MW
Steam Turbine and two Heat Recovery Steam Generator-Combined Cycle
Power generation project begins at Surat
Put in place - electrical equipment, instrumentation and control system, and other
necessary plant equipment as well as the HV switchyard
30th Sept, 2001. Successful initial test firing and synchronizing of the first Gas
Turbine.
1st Dec, 2001. Plant operational in open cycle mode
"The Plant in Combined Cycle mode (156.1 MW) is commercially operational
since 1st June 2002.
6
7. Management
Sr.
Name of Director Office Address
No
1 Shri S. Jagadeesan, IAS, Principal Secretary, Energy & Petrochemicals Department
Chairman Block No. 5, 5th Floor, New Sachivalaya, Gandhinagar.
2. Shri D J Pandian, IAS Managing Director, Gujarat State Petroleum Corporation
Director Limited, GSPC Bhavan, B/h Udhyog Bhavan, Sector-11,
Gandhinagar-382011
3. Shri I P Gautam, IAS, Municipal Commissioner, Sardar Patel Municipal Bhavan,
Director Raikhad, Ahmedabad 380001
4. Shri L Chuaungo, IAS Managing Director, Gujarat Urja Vikas Nigam Limited,
Director Sardar Patel Vidyut Bhavan, Race Course Circle, Alkapuri,
Vadodara
5. Shri N Srivastava Addl. Secretary (Budget), Finance Department, Block No. 4,
Director 9th Floor, New Sachivalaya, Gandhinagar
6. Shri Chandrapal Singh Chairman, Krishak Bharati Co-operative Ltd., A-10, Sector-
Director 1, Noida-201301
7. Shri B. D. Sinha Managing Director, Krishak Bharati Co-operative Ltd., A-
Director 10, Sector-1, Noida-201301
8. Shri I N Bansal Operations Director, Krishak Bharti Co-operative Limited,
Director P.O. Kribhconagar, Surat 394515
9. Shri Santosh Kumar Director (Projects), GAIL (I) Limited, 16, Bhikaji Cama
Director Place, R K Puram, Delhi 110066
10. Shri R Kamra (Alternate Director (Finance), Krishak Bharti Co-operative Limited, A-
Director to Shri B D Sinha) 10, Sector 1, Noida 201301
11. Shri A N Bhatt (Alternate General Manager (Prod.), KRIBHCO, P.O Kribhconagar,
Director to Shri I N Bansal) Surat 394515
12. Shri R.K.Dhami (Alternate Vice Chairman- Krishak Bharati Co-operative Ltd., A-10,
Director to Shri C P Singh) Sector-1, Noida-201301
7
8. Parteners & Affiliations
• Long term Gas Supply Agreement (GSA) with GSPC-Niko
• Long term Power Purchase Agreement (PPA) with GUVNL (erstwhile GEB)
• Alstom as Erection-Procurement-Construction (EPC) Turnkey Contractor for 156.1 MW
CCPP
• BHEL as Erection-Procurement-Construction (EPC) Turnkey Contractor for 350 MW
CCPP expansion project
• Evonik Energy Services (India) Private Ltd for Operations and Maintenance (O & M) of the
CCPP Generation Plant
• GIDC for land and water arrangements.
Equity Holders: GSPC, GUVNL (erstwhile GEB), GIPCL, GPCL, GIIC, KRIBHCO, GAIL
MD’s Desk
The Gujarat State Energy Generation Ltd. is deployed to develop high efficiency
power generation facilities in the state, with the most advanced and clean technologies
available in the world today.
GSEG is a Special Purpose Vehicle (SPV) for generating power incorporating the
most advanced, eco-friendly science in Gujarat. Through this company, GSPC Group
reiterates its focus on becoming a highly integrated energy company, occupying every
link in the energy value chain.
The Combined Cycle Power Plant produces power from natural gas provided by
GSPC, the E & P company, through GSPL pipelines, the gas transportation company,
and also houses the earth station of GIPL, the communications affiliate.
The plant has been built with a vision to fuel new power production by supplying
natural gas, which produces more energy at competitive costs for domestic and
industrial sectors.
8
9. Clients
As of now, GSEG CCPP Operations are catering solely to Gujarat Urja Vikas Nigam
Limited (erstwhile GEB).
Contact Us
Company's Name Address Phone Fax
Gujarat State GSEG Limited 079- 079-
Energy Generation FF Shed Nos. A/78/3-8, GIDC 23288210/23288250 23288048
Ltd. (GSEG) Electronic Estate,
Near Patni Computers
(iGATE), Sector 25,
Gandhinagar 382016, Gujarat,
India
Regd. Office 91-79-23236372 23238648
Block No.15, 3rd floor, Udyog
Bhavan, Sector No.11,
Gandhinagar 382010.
Project Office : 91-261-2861777 2861779
Village Mora, Post Bhatha, 91-261-2861778
Surat Hazira Road, Surat.
Website: gujenergy@gujaratpetro.com
PLANS & PROJECTS
GSEG is repositioning GSPC Group's edge in creating better value in the core gas/
energy business chain through a strong, focused and successful electric utility
business in Gujarat.
GSPC Group's integrated business model combines the physical ownership and
control of power generation and natural gas assets with energy and fuel management.
Helping the Group in effectively managing the energy business risks, which include
demand, technologies, fuel prices, logistics and competencies.
9
10. And optimising the value of our diverse portfolio of generating plants and gas assets.
GSEG manages the electrical utility with
Advanced power generation and management practices, and improve the efficiency of
power supply to Gujarat Electricity Board
Operations at least-cost
Full compliance with the health, safety and environmental regulations of Gujarat
Excellent working conditions to optimise the skills and potential of the staff and
managers involved
GSEG has demonstrated that it has the competencies and resources to occupy and
excel in the power generation chain, including design, development, construction and
operations. Soon the chain will be complete with the company's plans to expand capacity
to larger projects and to enter distribution in Gujarat.
Future plans:
350 MW Expansion Plan:
In order to fill the gap of power demand and supply in Gujarat, the Company
has decided to embark upon expansion plan of 1000 MW to be set up in three
stages of 350 MW each at its existing site situated at Village Mora, Taluka:
Choryasi, Surat.
The Company has acquired all the clearance for the expansion like MOEF,
GPCB, water tie up and land availability etc. It already has 28 hactares of land
which can accommodate 350 MW expansions and recently it has acquired
40,000 Sq. Mtr of land adjacent to the existing plant so that in future the
capacity may be further added beyond 350 MW.
For first phase, it floated EPC tender in Nov, 2006 and within 10 months time
it has not only evaluated the tenders submitted by various bidders but has
issued LOI to the successful bidder which is BHEL (Bharat Heavy Electrical
Ltd.). BHEL will supply the project on EPC basis and would use GE
technology in gas turbine of 9 FA machine. The unit of 350 MW will
comprise of one Gas turbine, one HRSG (Heat Recovery Steam Generator)
and one steam turbine. BHEL is committed to complete the project in 27
10
11. months from the date of notice to proceed. The expected cost of project is
around Rs 1150 Crs which is to be financed from debt and equity.
After implementation of this 350 MW, the total installed capacity of the
Company would go up from 156 MW to 506 MW.
Existing: 2x52 MW Gas Turbine +1x52 MW Steam Turbine =156 MW
Expansion: One GT+ One HRSG+ One ST = 350 MW The power generated
by the Company would be free from pollution. The company is committed to
green environment. It will develop green belt in the plant area itself to promote
greenery as per MOEF’s guidelines.
All the power generated by the expansion shall be sold to GUVNL, which will
supply power to various distribution companies of Gujarat meeting the
requirements of industries and people.
Natural Gas to power
GSEG is in the business of building new power generation plants to meet the
energy challenges in Gujarat, with the most advanced and clean technologies
available in the world today.
Its first and foremost demonstrable success is the natural gas powered Combined
Cycle Power Plant at Mora (Surat), Gujarat, with an installed capacity of 156
MW, supplied by Alstom and managed by Steag Encotec, both world leaders in
advanced power technologies. The Plant was designed, developed and led by
highly qualified management and engineering personnel from all facets of the
electric power industry under the auspices of GSEG
Achievements:
In the present scenario, where almost all Power Projects are facing difficulties and
hardly any new capacities are added to the system, GSEG has created a record of its
own by synchronizing the First Gas Turbine in record time of 17 months and the
Second Gas Turbine in 18 months from zero date of EPC contract. Adding true value
to energy needs of Gujarat, through efficiency, economy and environment friendly
operations.
11
12. Protecting Nature:
The CCPP Plant generates power on Natural Gas, an environment-friendly fuel with a
provision to use liquid fuels in emergencies. The plant has been built with a vision to
fuel new power production by natural gas, which produces more energy at
competitive costs and also is proven to be benign to the environment. GSEG has
created this engineering cornerstone for energy in Gujarat, using leading-edge
technology and today, operates the power project in the safest, most environmentally
conscious manner. Meeting the twin goals of efficiency and emission reduction.
12
13. THE CONTRACT LABOUR (REGULATION & ABOLITION) ACT, 1970
Introduction:
Object of the Act
To regulate the employment of contract labor in certain establishments and to
provide for its abolition in certain circumstances and for matters connected therewith.
Applicability
Every establishment in which 20 or more workmen are employed or were employed
on any day of the preceding 12 months as contract labor.
Every contractor who employs or who employed on any day of the preceding twelve
months 20 or more workmen.
Registration of Establishment
Principal employer employing 20 or more workers through the contractor or
the contractor(s) on deposit of required fee in Form 1
Prohibition of Employment of Contract Labour
Only by the appropriate Government through issue of notification after
consultation with the Board (and not Courts) can order the prohibition of employment
of contract labor.
Revocation of Registration
When obtained by Misrepresentation or suppression of material facts etc. after
opportunity to the principal Employer.
Licensing of Contractor
Engaging 20 or more than 20 workers and on deposit of required fee in Form IV.
Valid for specified period.Sec.12, Rule 21
Revocation or Suspension & Amendment of Licences
When obtained by misrepresentation or suppression of material facts.
13
14. Failure of the contractor to comply with the conditions or contravention of Act or the
Rules. (Sec. 14)
Welfare measures to be taken by the Contractor
Contract labor either one hundred or more employed by a contractor for one or more
canteens shall be provided and maintained.
First Aid facilities.
Number of rest-rooms as required under the Act.
Drinking water, latrines and washing facilities. (Sec. 16 & 17)
Laws, Agreement or standing orders inconsistent with the Act-Not Permissible
Unless the privileges in the contract between the parties or more favorable
than the prescribed in the Act, such contract will be invalid and the workers will
continue to get more favorable benefits.
Liability of Principal Employer
To ensure provision for canteen, restrooms, sufficient supply of drinking water,
latrines and urinals, washing facilities.
Principal employer entitled to recover from the contractor for providing such
amenities or to make deductions from amount payable. Sec. 20
Registers of Contractors
Principal employer
To maintain a register of contractor in respect of every establishment in Form XII.
Contractor (Rule 74)
To maintain register of workers for each registered establishment in Form XIII.
To issue an employment card to each worker in Form XIV.
To issue service certificate to every workman on his termination in Form XV.
Rules 75, 76 and 77
14
15. Muster Roll, Wages Register, Deduction Register and Overtime Register by
Contractor
Every contractor shall:
Maintain Muster Roll and a Register of Wages in Form XVI and Form XVII
respectively when combined.
Register or wage-cum-Muster Roll in Form XVII where the wage period is a fortnight
or less.
Maintain a Register of Deductions for damage or loss, Register or Fines and Register
of Avances in Form XX, from XXI and Form XXII respectively.
Maintain a Register of Overtime in Form XXIII.
To issue wage slips in Form XIX, to the workmen at least a day prior to the
disbursement of wages.
Obtain the signature or thumb impression of the worker concerned against the entries
relating to him on the Register of wages or Muster Roll-Cum-Wages Register.
When covered by Payment of Wages Act, register and records to be maintained under
the rules
Muster Roll, Register of wages, Register of Deductions, Register of Overtime,
Register of Fines, Register of Advances, Wage slip. (Rule 79)
To display an abstract of the act and Rules in English and Hindi and in the language
spoken by the Majority of workers in such forms as may be approved by appropriate
authority. (Rule 80)
To display notices showing rates of wages, hours of work, wage period, dates of
payment, names and addresses of the inspector and to send copy to the inspector and
any change forwithwith. (Rule 81)
15
16. Penalties
Sec. Offence Punishment
Sec. 22 Obstructions For obstructing the inspector or
failing to produce registers etc.- 3
months’ imprisonment or fine upto
Rs.500, or both.
Sec.23 Violation For violation of the provisions of Act
or the Rules, imprisonment of 3
Months or fine upto Rs.1000. On
continuing contravention, additional
fine upto Rs.100 per day
16
17. General Information of the company:
Total Number of Workers:
Employees : 85
Officers : 50
Female : Nil
Children : Nil
Rate of Turnover is average 3% per annum
Rate of absenteeism is Nil.
The Contract Labour (Regulation & Abolition) Act, 1970 at GSEG is described
below:
The name of contractor for GSEG is STEAG India Pvt. Ltd., Geaman subsidiary.
GSEG provides all types welfare amenities for contract labour.They are
mentioned below:
Drinking Water
First aid Facilities Rest rooms
Canteen
Latrines & Urinals
Lockers
The Contract Labour Act applies to every establishment in which 20 or more
workmen are employed. There are 85 numbers of employees employed as
contractor’s workmen in this company.
Nature of workman employed in organization:
Skilled : 35
Semi-skilled : Nil
Un-skilled manual : Nil
Supervisory : Nil
Technical : 35
Clerical :Nil
The company is registered under the labor department of Gujarat Government.
17
18. Licensing
Labor dept, Government of Gujarat issued the License for the
organization.
The Amount of fees paid to the licensing Authority by the company is Rs.
100/Llabor/year.
The location of the establishment in the license is Village Mora, Hazira.
The Continuous Process is followed by the company.
The Operations done by the company:
Generation of Electronic Power from Natural Gas.
The license is valid for One year.
The fee for Renewal of license is Rs. 30 for each renewal.
There is not any contravention of provisions regarding employment of contract
labor up till now in the organization.
Labor Inspector comes to inspect the registers & records etc in the organization
18
19. WELFARE FACILITY FOR CONTRACT LABOR
Introduction:
Welfare facility includes different types of facilities provided to the employees
in organization:
o Washing facilities
o Facilities for Storing & Drying clothing
o Facilities for Sitting
o First-aid appliances
o Canteens
o Shelters, rest rooms and lunch rooms
o Creches
o Welfare Officers
19
20. Welfare Facilities for contract labor at GSEG are described below:
For washing place and water GSEG provides Wash room facility in each plant
for workers or officers and there is no separate facility for male & female
workers.
GSEG provides facility of over coat to the technicians to keep clothing not
worn during working hours and for drying wet clothes.
GSEG provides common sitting in workshop area for workers who work in a
standing position.
GSEG provides First-Aid box & cupboard facility for any emergency situation
to workers. They also provide ambulance facility & the company has also the
contract with surat hospital.
GSEG provides canteen facility to their workers & canteen is run by the
contractor & for maintenance, utensil bid is done by them.
GSEG provide shelters, rest rooms and lunch room facility to their workers.
At GSEG Welfare officer is looking after welfare facilities.
Safety facilities for the employees at GSEG:
o Helmet.
o Hand Gloves.
o Emeregency Alarm system:
GSEG provides the facility of alarm system. When any
emergency situation occurs in the company due to fire or any
other reason, the alarm gives signal to the employees to reach
to the certain point.
20