This presentation summarizes the proposed Rampal Power Station project in Bangladesh. It will be a 1320 megawatt coal power plant located near the Sundarbans mangrove forest. The project is a joint venture between Bangladesh and India, with funding from loans and both countries. However, environmental groups oppose the project's location due to concerns it will damage the fragile ecosystem and wildlife of the Sundarbans. The presentation explores the project details, financing, agreements, government support for the project despite environmental issues, and calls to relocate the project to protect the UNESCO World Heritage site.
The document summarizes details about the proposed Rampal power plant in Bangladesh, including its sponsors, location, capacity details, and fuel source. It then lists several disadvantages of the plant, noting that it will cause 81% harm versus 19% good due to environmental damage to the Sundarbans mangrove forest and negatively impacting the forest ecosystem, wildlife, surface water, agriculture, and livelihoods of local people. The research findings also indicate impacts to climate, land use, air and water quality, wetlands, and fisheries.
This presentation discusses the proposed Rampal power station in Bangladesh. It will be located in Rampal Upazila, Bagerhat district. At 1320 MW capacity, it will be the largest power station in Bangladesh. There are concerns that the plant could damage the ecologically sensitive Sundarbans mangrove forest and wetlands as it will produce various pollutants and wastes. Some argue the plant violates the Ramsar Convention and will disturb wildlife. The presentation calls for stopping the project to protect the Sundarbans.
This document summarizes a presentation on the proposed Rampal power plant project in Bangladesh. It provides details on the project such as its location in Rampal, Bagerhat District, the joint venture partners from India and Bangladesh, the planned 1320 MW capacity, and $1.5 billion cost. It also discusses some advantages like economic development and employment, but several disadvantages are noted, primarily the threat it poses to destroying the Sundarbans wildlife sanctuary and world heritage site from pollution during coal transportation and operations. Environmental groups oppose the project due to these environmental risks.
The document discusses the proposed Rampal Power Station project in Bangladesh and its potential impacts. Key points:
- The Rampal Power Station is a proposed 1320 MW coal-fired power plant located near the Sundarbans mangrove forest in Bangladesh.
- There are concerns the project could damage the Sundarbans ecosystem through pollution, dredging, noise, and changes to river flows and groundwater levels.
- The Sundarbans forest is home to many endangered species and is an important global ecosystem. However, supporters argue the plant will help meet Bangladesh's energy needs.
- There is disagreement between environmental experts, citizens' groups, and the government over the project's risks and whether its
1320 MW
area of over 1834 acres of land
14 kilometers north of the Sundarbans
In August 2010
29 January 2012
National Thermal Power Corporation and
Bangladesh Power Development Board
Bangladesh India Friendship Power Company (BIFPC)
BPDB and the NTPC agreed to implement the project on a 50:50 equity basis.
Enjoy 15 years tax holiday
USD 1.5 billion
India and Bangladesh will fund the remaining 30% equally
Loans are expected to fund up to 70%
In April 2017 Ex-Im Bank of India
Reliability
Affordability
Abundance
Safety
Department of Environment - 1 August 2013
Environmental Impact Assessment - 2016 Unesco
Plant needs 4.72 millions ton coal per years.
The plant would draw 219,600 cubic meters of water every day
fly ash, coal dust and sulphur, and other toxic chemicals.
Department of Environment - 1 August 2013
Environmental Impact Assessment - 2016 Unesco
Plant needs 4.72 millions ton coal per years.
The plant would draw 219,600 cubic meters of water every day
fly ash, coal dust and sulphur, and other toxic chemicals.
Citizen opposition
Political opposition
Rejects the allegations that the coal-based power plant would adversely affect the world's largest mangrove forest.
The controversy over the power plant and its impact on the Sundarbans was "not based on facts."
The plant will not negatively affect the mangrove forest because the emission of green house gas will be kept at the minimum level
Importing high quality coal, build a 275-meter high chimney.
The water running through it works as a supercritical fluid.
Critical point under high pressures and temperatures, specifically at 22 MPs and 374oC.
Efficiencies can reach around 44%
Environmental Effects of Rampal Power Plant.Psyful Bappi
The document summarizes the environmental effects of the proposed Rampal Coal Power Plant in Bangladesh. It notes that the plant would be located near the Sundarbans mangrove forest, displacing wildlife including the endangered Royal Bengal Tiger. Smoke and pollution from the plant could harm the local ecosystem and people. Burning the large amount of coal required would produce millions of tons of carbon dioxide and other emissions annually. Shipping activities to supply the plant could also damage the mangroves through noise, oil spills, coal dropping, and waste discharges into rivers. The construction and operations would likely lower the water table and destroy the ecosystem of the Posur River. Many vulnerable species that inhabit the area could die off or leave if the power
every person should know about the merits and demerits of rampal power station and they should learn about the effects of rampal power station , its harms sundarban. we want electricity bt we do not want to harm sundarban ,here we have to com forward to save sundarban
This presentation summarizes the proposed Rampal Power Station project in Bangladesh. It will be a 1320 megawatt coal power plant located near the Sundarbans mangrove forest. The project is a joint venture between Bangladesh and India, with funding from loans and both countries. However, environmental groups oppose the project's location due to concerns it will damage the fragile ecosystem and wildlife of the Sundarbans. The presentation explores the project details, financing, agreements, government support for the project despite environmental issues, and calls to relocate the project to protect the UNESCO World Heritage site.
The document summarizes details about the proposed Rampal power plant in Bangladesh, including its sponsors, location, capacity details, and fuel source. It then lists several disadvantages of the plant, noting that it will cause 81% harm versus 19% good due to environmental damage to the Sundarbans mangrove forest and negatively impacting the forest ecosystem, wildlife, surface water, agriculture, and livelihoods of local people. The research findings also indicate impacts to climate, land use, air and water quality, wetlands, and fisheries.
This presentation discusses the proposed Rampal power station in Bangladesh. It will be located in Rampal Upazila, Bagerhat district. At 1320 MW capacity, it will be the largest power station in Bangladesh. There are concerns that the plant could damage the ecologically sensitive Sundarbans mangrove forest and wetlands as it will produce various pollutants and wastes. Some argue the plant violates the Ramsar Convention and will disturb wildlife. The presentation calls for stopping the project to protect the Sundarbans.
This document summarizes a presentation on the proposed Rampal power plant project in Bangladesh. It provides details on the project such as its location in Rampal, Bagerhat District, the joint venture partners from India and Bangladesh, the planned 1320 MW capacity, and $1.5 billion cost. It also discusses some advantages like economic development and employment, but several disadvantages are noted, primarily the threat it poses to destroying the Sundarbans wildlife sanctuary and world heritage site from pollution during coal transportation and operations. Environmental groups oppose the project due to these environmental risks.
The document discusses the proposed Rampal Power Station project in Bangladesh and its potential impacts. Key points:
- The Rampal Power Station is a proposed 1320 MW coal-fired power plant located near the Sundarbans mangrove forest in Bangladesh.
- There are concerns the project could damage the Sundarbans ecosystem through pollution, dredging, noise, and changes to river flows and groundwater levels.
- The Sundarbans forest is home to many endangered species and is an important global ecosystem. However, supporters argue the plant will help meet Bangladesh's energy needs.
- There is disagreement between environmental experts, citizens' groups, and the government over the project's risks and whether its
1320 MW
area of over 1834 acres of land
14 kilometers north of the Sundarbans
In August 2010
29 January 2012
National Thermal Power Corporation and
Bangladesh Power Development Board
Bangladesh India Friendship Power Company (BIFPC)
BPDB and the NTPC agreed to implement the project on a 50:50 equity basis.
Enjoy 15 years tax holiday
USD 1.5 billion
India and Bangladesh will fund the remaining 30% equally
Loans are expected to fund up to 70%
In April 2017 Ex-Im Bank of India
Reliability
Affordability
Abundance
Safety
Department of Environment - 1 August 2013
Environmental Impact Assessment - 2016 Unesco
Plant needs 4.72 millions ton coal per years.
The plant would draw 219,600 cubic meters of water every day
fly ash, coal dust and sulphur, and other toxic chemicals.
Department of Environment - 1 August 2013
Environmental Impact Assessment - 2016 Unesco
Plant needs 4.72 millions ton coal per years.
The plant would draw 219,600 cubic meters of water every day
fly ash, coal dust and sulphur, and other toxic chemicals.
Citizen opposition
Political opposition
Rejects the allegations that the coal-based power plant would adversely affect the world's largest mangrove forest.
The controversy over the power plant and its impact on the Sundarbans was "not based on facts."
The plant will not negatively affect the mangrove forest because the emission of green house gas will be kept at the minimum level
Importing high quality coal, build a 275-meter high chimney.
The water running through it works as a supercritical fluid.
Critical point under high pressures and temperatures, specifically at 22 MPs and 374oC.
Efficiencies can reach around 44%
Environmental Effects of Rampal Power Plant.Psyful Bappi
The document summarizes the environmental effects of the proposed Rampal Coal Power Plant in Bangladesh. It notes that the plant would be located near the Sundarbans mangrove forest, displacing wildlife including the endangered Royal Bengal Tiger. Smoke and pollution from the plant could harm the local ecosystem and people. Burning the large amount of coal required would produce millions of tons of carbon dioxide and other emissions annually. Shipping activities to supply the plant could also damage the mangroves through noise, oil spills, coal dropping, and waste discharges into rivers. The construction and operations would likely lower the water table and destroy the ecosystem of the Posur River. Many vulnerable species that inhabit the area could die off or leave if the power
every person should know about the merits and demerits of rampal power station and they should learn about the effects of rampal power station , its harms sundarban. we want electricity bt we do not want to harm sundarban ,here we have to com forward to save sundarban
The Rampal power station is a proposed 1320 megawatt coal-fired power plant located near the Sundarbans mangrove forest in Bangladesh. The plant is a joint project between Bangladesh and India, with financing from both countries' governments as well as loans. While the Bangladeshi government claims environmental precautions will be taken, opposition argues the plant will endanger the nearby Sundarbans world heritage site through pollution, coal transportation, and water usage. Experts and environmental groups are calling for the plant's relocation to protect the fragile ecosystem.
Rampal power plant environmental & economic impactNur E Sowrove
- The proposed Rampal power plant in Bangladesh would be a 1320 megawatt coal-fired power station located 14 km from the Sundarbans mangrove forest.
- Burning 5 million tons of coal annually would make it the largest air pollutant in Bangladesh, elevating toxic particles, sulfur dioxide, and nitrogen dioxide over large areas of southwest Bangladesh and northeast India.
- In addition to air pollution risks, the plant could emit high levels of mercury sufficient to contaminate fish in a 70 sq km area, and discharge 10,000kg of mercury into the plant's ash pond over its lifetime, posing risks to the Sundarbans' and Bay of Bengal's aquatic ecosystems.
Rampal and Sundarbans - Effects and Causes Sagar Dash
This a group presentation on Rampal project in Bangladesh. Describing the what is the major issue in Bangladesh will face by doing this project what will be there out come. How much impact on our environment also in our Economy.
This document provides information about the Rampal Power Plant group presentation. It includes the list of group members, project details, environmental issues, and the government's response. The key points are:
- The presentation is about the Rampal Power Plant located in Khulna, Bangladesh.
- It will be a 2600 MW coal-fired power plant built 14 km from the Sundarbans mangrove forest.
- There are concerns about the environmental and health impacts of coal transportation and emissions on the Sundarbans ecosystem and local communities.
1) The presentation discusses the proposed Rampal Power Station project in Bangladesh and its potential impacts on the biodiversity of the Sundarbans mangrove forest.
2) The Rampal Power Station would be located near the Sundarbans and use coal, dredging of rivers, and deep tube wells, which could destroy the forest ecosystem by reducing groundwater levels, polluting rivers, and disturbing aquatic wildlife.
3) The Sundarbans is home to diverse flora and fauna, including many threatened species such as the Royal Bengal tiger, and the construction and operations of the power plant could cause many species to die off or leave the area.
It's just a brief knowledge about the Renewable sources available in Pakistan and their scope. What type are currently used for generation of Electricity in Pakistan
Wind Power by Tareixa Gómez and Camila RodríguezJosé M. Rivas
The document discusses wind power and wind farms. It defines wind power as capturing the energy of moving air created by uneven heating of the earth's surface by the sun. It describes the basic components and operation of a wind turbine, which converts the kinetic energy of wind into mechanical then electrical energy. It also discusses different types of wind farms, including offshore wind farms, and provides advantages and disadvantages of wind power. Examples of large wind farms in Galicia, Spain, Europe, and around the world are given.
Pakistan has significant potential for renewable energy generation, including:
- 340,000 MW from wind energy; 2.9 million MW from solar; 50,000 MW from large hydro; and smaller amounts from other renewables. However, currently renewable energy accounts for only a small portion of Pakistan's energy mix.
The document proposes that Pakistan should focus particularly on developing its solar, biogas, and wind energy potentials. It suggests specific future projects like installing solar panels in remote villages not connected to the national grid, and setting up biogas plants in villages that produce a lot of animal manure. Developing renewable sources could help address Pakistan's energy needs and create new jobs.
Pakistan has significant potential for renewable energy from solar, wind, hydro, and biomass sources. However, it currently utilizes very little renewable energy. The government has created an Alternative Energy Development Board to promote renewable energy with a target of 5% generation by 2030. Pakistan is well suited for solar power due to long sunshine hours and receives significant solar radiation. The coastal areas have strong winds suitable for wind power. Biomass potential includes bagasse from sugarcane and biogas from animal waste. Remote villages could benefit from decentralized renewable energy projects like solar and biogas that do not require connections to the national grid.
The world has already used her non-renewable resources. It will take 100 of years to recharge. But as Bangladesh is a land of beauty, she has a lot of renewable resources. If all of them can be utilized properly, our dependency on non-renewable resources will be vanished.
The document discusses the benefits of nuclear power in Bangladesh. It outlines details of the Rooppur Nuclear Power Plant currently under construction, including its location, owners, capacity, and fuel source. It then explains how nuclear power can boost Bangladesh's electricity production capacity and productivity of factories. Nuclear energy is also called clean energy as it produces little waste and emissions and has the lowest carbon footprint compared to other energy sources. The conclusion states that nuclear power can help Bangladesh meet its energy demand sustainably while reducing impacts on the environment.
Present scenario of Renewable Energy in BangladeshMustafa Momin
This presentation contains current scenario of Bangladesh renewable energy sector as of 29th May, 2017. It contains the feasibility of solar power plant in Bangladesh, government's initiative, latest government plans for solar and other renewable energy, simple financial calculation of solar power plant. There is contact address is given, so it's possible to communicate further if more recent and detail information is needed.
The document discusses Pakistan's power resources, which include oil (40% of generation), natural gas (35%), hydel (18%), and nuclear (6%). It outlines various renewable and non-renewable energy sources used in Pakistan like solar, wind, coal, and nuclear. Key power plants are mentioned like the Tarbela and Mangla hydropower dams, coal plants in Sahiwal and Bin Qasim, and the Quaid-e-Azam solar park. Power resources are described as important for Pakistan's economic development by enabling industry, agriculture, mining, and modernization.
Pakistan faces a major electricity crisis as demand is growing at 9% annually while supply is only increasing at 7%. Thermal power generates 65% of electricity, hydel 33%, and nuclear 2%. Reasons for the crisis include liquidity issues at WAPDA, decreased generation at KESC, opposition to the Kalabagh Dam project, and theft of electricity. The government is pursuing alternatives like solar, wind, and biomass to boost renewable energy and address the crisis. The Alternative Energy Development Board is working on various pilot renewable projects across Pakistan to develop these resources and improve the energy situation.
Renewable Energy status and road-map of Bangladesh and support of UNDP-GEFDr. Md. Taibur Rahman
The document discusses renewable energy status and roadmap in Bangladesh. It provides an overview of current renewable energy capacity, policies and targets. Bangladesh aims to generate 30% of power from renewable sources by 2041 according to its Delta Plan. Current renewable energy capacity is only 3% of total generation but serves 13% of the population. Several ongoing and planned initiatives are discussed, including solar parks, mini-grids, irrigation projects, and a roadmap to achieve 30% renewable energy by 2041 through various programs and by addressing challenges such as land acquisition and grid integration.
This document summarizes different methods of tidal energy generation including tidal barrages, tidal stream generators, dynamic tidal power, and tidal lagoons. It discusses their basic operations, advantages, and disadvantages. Global tidal energy production is currently very low, but some countries like France and South Korea have larger tidal energy facilities that provide power for thousands of homes. While tidal energy is clean and predictable, its infrastructure is very expensive and viable locations are limited.
This document provides an overview of geo thermal energy, including its history, resources, uses, advantages, and potential in Pakistan. Geo thermal energy harnesses heat from the Earth's core that is transferred toward the surface. It has been used for centuries for bathing and heating. Modern uses include power generation using dry steam, flash steam, and binary cycle plants. Geo thermal has advantages of being constantly available and low emission but high installation costs. Pakistan has significant untapped geo thermal resources in hot springs and mud volcanoes that could help address its energy needs, but it currently generates no power from these reserves.
Power generation and demand in bangladeshGalib Ghani
Electricity generation in Bangladesh began in 1901 with a small plant installed in Dhaka. Over time, generation capacity increased through additional fossil fuel plants. The Bangladesh Power Development Board was established in 1972 to oversee generation, transmission, and distribution. Currently, generation capacity is 8,525 MW but demand is around 7,500 MW, resulting in regular shortages. Natural gas provides 66% of power but reserves are declining. Future plans include significantly increasing generation from domestic coal, imported coal, LNG, and renewable sources to meet the growing demand and reduce load shedding.
The document discusses Pakistan's energy crisis and its effects on the economy. It outlines several causes of the crisis, including aging infrastructure, high fuel costs, lack of energy planning, and inefficiencies. The crisis led to unemployment, reduced industrial and agricultural output, and higher electricity prices. To overcome the crisis, the document recommends improving energy infrastructure, replacing outdated equipment, exploring renewable resources like solar and wind, and better long-term energy planning.
Supporting international research students Rob Daley
Keynote Presentation given at the "ESRC IAA Impact Workshop – Towards maximising international PhD students' experience"
School of Education, University of Glasgow, March 29th 2017.
The Rampal power station is a proposed 1320 megawatt coal-fired power plant located near the Sundarbans mangrove forest in Bangladesh. The plant is a joint project between Bangladesh and India, with financing from both countries' governments as well as loans. While the Bangladeshi government claims environmental precautions will be taken, opposition argues the plant will endanger the nearby Sundarbans world heritage site through pollution, coal transportation, and water usage. Experts and environmental groups are calling for the plant's relocation to protect the fragile ecosystem.
Rampal power plant environmental & economic impactNur E Sowrove
- The proposed Rampal power plant in Bangladesh would be a 1320 megawatt coal-fired power station located 14 km from the Sundarbans mangrove forest.
- Burning 5 million tons of coal annually would make it the largest air pollutant in Bangladesh, elevating toxic particles, sulfur dioxide, and nitrogen dioxide over large areas of southwest Bangladesh and northeast India.
- In addition to air pollution risks, the plant could emit high levels of mercury sufficient to contaminate fish in a 70 sq km area, and discharge 10,000kg of mercury into the plant's ash pond over its lifetime, posing risks to the Sundarbans' and Bay of Bengal's aquatic ecosystems.
Rampal and Sundarbans - Effects and Causes Sagar Dash
This a group presentation on Rampal project in Bangladesh. Describing the what is the major issue in Bangladesh will face by doing this project what will be there out come. How much impact on our environment also in our Economy.
This document provides information about the Rampal Power Plant group presentation. It includes the list of group members, project details, environmental issues, and the government's response. The key points are:
- The presentation is about the Rampal Power Plant located in Khulna, Bangladesh.
- It will be a 2600 MW coal-fired power plant built 14 km from the Sundarbans mangrove forest.
- There are concerns about the environmental and health impacts of coal transportation and emissions on the Sundarbans ecosystem and local communities.
1) The presentation discusses the proposed Rampal Power Station project in Bangladesh and its potential impacts on the biodiversity of the Sundarbans mangrove forest.
2) The Rampal Power Station would be located near the Sundarbans and use coal, dredging of rivers, and deep tube wells, which could destroy the forest ecosystem by reducing groundwater levels, polluting rivers, and disturbing aquatic wildlife.
3) The Sundarbans is home to diverse flora and fauna, including many threatened species such as the Royal Bengal tiger, and the construction and operations of the power plant could cause many species to die off or leave the area.
It's just a brief knowledge about the Renewable sources available in Pakistan and their scope. What type are currently used for generation of Electricity in Pakistan
Wind Power by Tareixa Gómez and Camila RodríguezJosé M. Rivas
The document discusses wind power and wind farms. It defines wind power as capturing the energy of moving air created by uneven heating of the earth's surface by the sun. It describes the basic components and operation of a wind turbine, which converts the kinetic energy of wind into mechanical then electrical energy. It also discusses different types of wind farms, including offshore wind farms, and provides advantages and disadvantages of wind power. Examples of large wind farms in Galicia, Spain, Europe, and around the world are given.
Pakistan has significant potential for renewable energy generation, including:
- 340,000 MW from wind energy; 2.9 million MW from solar; 50,000 MW from large hydro; and smaller amounts from other renewables. However, currently renewable energy accounts for only a small portion of Pakistan's energy mix.
The document proposes that Pakistan should focus particularly on developing its solar, biogas, and wind energy potentials. It suggests specific future projects like installing solar panels in remote villages not connected to the national grid, and setting up biogas plants in villages that produce a lot of animal manure. Developing renewable sources could help address Pakistan's energy needs and create new jobs.
Pakistan has significant potential for renewable energy from solar, wind, hydro, and biomass sources. However, it currently utilizes very little renewable energy. The government has created an Alternative Energy Development Board to promote renewable energy with a target of 5% generation by 2030. Pakistan is well suited for solar power due to long sunshine hours and receives significant solar radiation. The coastal areas have strong winds suitable for wind power. Biomass potential includes bagasse from sugarcane and biogas from animal waste. Remote villages could benefit from decentralized renewable energy projects like solar and biogas that do not require connections to the national grid.
The world has already used her non-renewable resources. It will take 100 of years to recharge. But as Bangladesh is a land of beauty, she has a lot of renewable resources. If all of them can be utilized properly, our dependency on non-renewable resources will be vanished.
The document discusses the benefits of nuclear power in Bangladesh. It outlines details of the Rooppur Nuclear Power Plant currently under construction, including its location, owners, capacity, and fuel source. It then explains how nuclear power can boost Bangladesh's electricity production capacity and productivity of factories. Nuclear energy is also called clean energy as it produces little waste and emissions and has the lowest carbon footprint compared to other energy sources. The conclusion states that nuclear power can help Bangladesh meet its energy demand sustainably while reducing impacts on the environment.
Present scenario of Renewable Energy in BangladeshMustafa Momin
This presentation contains current scenario of Bangladesh renewable energy sector as of 29th May, 2017. It contains the feasibility of solar power plant in Bangladesh, government's initiative, latest government plans for solar and other renewable energy, simple financial calculation of solar power plant. There is contact address is given, so it's possible to communicate further if more recent and detail information is needed.
The document discusses Pakistan's power resources, which include oil (40% of generation), natural gas (35%), hydel (18%), and nuclear (6%). It outlines various renewable and non-renewable energy sources used in Pakistan like solar, wind, coal, and nuclear. Key power plants are mentioned like the Tarbela and Mangla hydropower dams, coal plants in Sahiwal and Bin Qasim, and the Quaid-e-Azam solar park. Power resources are described as important for Pakistan's economic development by enabling industry, agriculture, mining, and modernization.
Pakistan faces a major electricity crisis as demand is growing at 9% annually while supply is only increasing at 7%. Thermal power generates 65% of electricity, hydel 33%, and nuclear 2%. Reasons for the crisis include liquidity issues at WAPDA, decreased generation at KESC, opposition to the Kalabagh Dam project, and theft of electricity. The government is pursuing alternatives like solar, wind, and biomass to boost renewable energy and address the crisis. The Alternative Energy Development Board is working on various pilot renewable projects across Pakistan to develop these resources and improve the energy situation.
Renewable Energy status and road-map of Bangladesh and support of UNDP-GEFDr. Md. Taibur Rahman
The document discusses renewable energy status and roadmap in Bangladesh. It provides an overview of current renewable energy capacity, policies and targets. Bangladesh aims to generate 30% of power from renewable sources by 2041 according to its Delta Plan. Current renewable energy capacity is only 3% of total generation but serves 13% of the population. Several ongoing and planned initiatives are discussed, including solar parks, mini-grids, irrigation projects, and a roadmap to achieve 30% renewable energy by 2041 through various programs and by addressing challenges such as land acquisition and grid integration.
This document summarizes different methods of tidal energy generation including tidal barrages, tidal stream generators, dynamic tidal power, and tidal lagoons. It discusses their basic operations, advantages, and disadvantages. Global tidal energy production is currently very low, but some countries like France and South Korea have larger tidal energy facilities that provide power for thousands of homes. While tidal energy is clean and predictable, its infrastructure is very expensive and viable locations are limited.
This document provides an overview of geo thermal energy, including its history, resources, uses, advantages, and potential in Pakistan. Geo thermal energy harnesses heat from the Earth's core that is transferred toward the surface. It has been used for centuries for bathing and heating. Modern uses include power generation using dry steam, flash steam, and binary cycle plants. Geo thermal has advantages of being constantly available and low emission but high installation costs. Pakistan has significant untapped geo thermal resources in hot springs and mud volcanoes that could help address its energy needs, but it currently generates no power from these reserves.
Power generation and demand in bangladeshGalib Ghani
Electricity generation in Bangladesh began in 1901 with a small plant installed in Dhaka. Over time, generation capacity increased through additional fossil fuel plants. The Bangladesh Power Development Board was established in 1972 to oversee generation, transmission, and distribution. Currently, generation capacity is 8,525 MW but demand is around 7,500 MW, resulting in regular shortages. Natural gas provides 66% of power but reserves are declining. Future plans include significantly increasing generation from domestic coal, imported coal, LNG, and renewable sources to meet the growing demand and reduce load shedding.
The document discusses Pakistan's energy crisis and its effects on the economy. It outlines several causes of the crisis, including aging infrastructure, high fuel costs, lack of energy planning, and inefficiencies. The crisis led to unemployment, reduced industrial and agricultural output, and higher electricity prices. To overcome the crisis, the document recommends improving energy infrastructure, replacing outdated equipment, exploring renewable resources like solar and wind, and better long-term energy planning.
Supporting international research students Rob Daley
Keynote Presentation given at the "ESRC IAA Impact Workshop – Towards maximising international PhD students' experience"
School of Education, University of Glasgow, March 29th 2017.
Attitude is Every Thing - Exclusive Presentation on Business Management useful for HR Trainee, Management Student, MBA Student, Management Trainee, Corporates, Staff Training
Cybercom Poland Overview: Why Poland Is Great For Outsourcing IT ServicesAgata Maron
Many companies are looking for options to outsource software development and technological solutions abroad to increase quality and cost effectiveness. Poland has amazing potential when it comes to both. Find out why.
At Beloved Brands, we make brands stronger and we make brand leaders smarter. We can build a Brand Management Training Program, to unleash the full potential of your team.
1. Strategic Thinking
2, Creating a Beloved Brand
3. Consumer Centricity
4. Brand Positioning
5. Brand Plans
6. Creative Briefs
7. Brand Analytics and the business review
8. Marketing Execution
9. Strategic Media Plans
10. Winning the Purchase Moment
Karlyn Borysenko and I discuss the elements of putting together an impactful presentation and how to submit them to conferences.
Originally presented at Penn State Web - updated and reshared at HighEdWeb 2016 in Memphis Tennessee.
How to Make Awesome SlideShares: Tips & TricksSlideShare
Turbocharge your online presence with SlideShare. We provide the best tips and tricks for succeeding on SlideShare. Get ideas for what to upload, tips for designing your deck and more.
SlideShare is a global platform for sharing presentations, infographics, videos and documents. It has over 18 million pieces of professional content uploaded by experts like Eric Schmidt and Guy Kawasaki. The document provides tips for setting up an account on SlideShare, uploading content, optimizing it for searchability, and sharing it on social media to build an audience and reputation as a subject matter expert.
The document summarizes the environmental effects of the proposed Rampal Coal Power Plant in Bangladesh. It notes that the plant would be located near the Sundarbans mangrove forest, displacing wildlife including the endangered Royal Bengal Tiger. Smoke and pollution from the plant could harm the local ecosystem and people. Burning the large amount of coal required would produce millions of tons of carbon dioxide and other emissions annually. Shipping activities to supply the plant could also damage the mangroves through noise, oil spills, coal dropping, and waste discharges into rivers. The construction and operations would likely lower the water table and destroy the ecosystem of the Posur River. Many vulnerable species that inhabit the area could die off or leave if the power
The document summarizes details about the proposed Rampal Thermal Power Plant in Bangladesh. It will be located in Rampal, Bagerhat district, about 14 km from the Sundarbans mangrove forest. The 1320 MW super critical coal power plant will sit on over 1834 acres of land. The project is a joint venture between Bangladesh and India and aims to provide reliable and affordable electricity, but faces opposition over environmental concerns about impacts on the Sundarbans.
About the Power Energy Industry in India. This ppt consists of history,timeline,Market SIze,Geographical Distribution of Power Sector, Sources of power with shares in installed capacity,Import export,Comparative analysis,Product and technology,Porter's five forces model, Trends of cost and ouput,Protection of environment,R&D intensity, Opportunities & threats in Energy-power generation sector in India
Cng marine for gas distribution in indonesia 2012 sFurqon Hanief
The document discusses CNG Marine as a sea transport solution for natural gas distribution in Indonesia. It notes several studies and projects from 2006-2012 using CNG Marine to transport gas from production sites to power plants on islands. These include transporting gas from Simenggaris to North Bali and Bunyu, and from Camar Field to Gresik. It also summarizes a 2012 PLN CNG maritime project to transport gas to various islands in phases. The technology involves compressing gas into steel pressure vessels on barges towed by tugs. CNG Marine solutions could involve skid tubes permanently installed on ships to supply gas to isolated power plants like those on Bawean and Lombok islands.
Mine-mouth power plants can greatly reduce electricity costs in the Philippines. Developing these plants at coal mine sites eliminates long-distance coal transportation. The country aims to promote such facilities and prioritize their electricity in the market. Existing examples include Semirara's 15MW plant, while PNOC-EC has proposed 50-100MW plants. Targeting costs similar to Hongsa Power Plant in Laos could yield household electricity prices close to the average in the US.
The Suratgarh Super Thermal Power Station is a 1500 MW coal-based thermal power plant located 27 km from Suratgarh, Rajasthan. It sources coal primarily from mines in Madhya Pradesh and water from the Indira Gandhi Canal. The power station has 6 operational units totaling 1500 MW of installed capacity. It provides electricity to northern parts of Rajasthan. The plant aims to expand capacity further by adding two additional 660 MW units.
The document summarizes information about the Mangla Dam located in Pakistan. It describes how the dam was constructed between 1961-1965 across the Jhelum River to strengthen Pakistan's irrigation system and reduce agricultural shortcomings. It cost Rs15.587 billion to build and displaced over 110,000 people. The dam initially had a reservoir capacity of 7.25 billion cubic meters but sedimentation reduced this. A raising project from 2004-2009 increased the dam height and storage capacity.
MCL has implemented several strategies to promote green mining, including:
1. Maximizing coal production through surface miners to eliminate blasting and reduce dust.
2. Increasing rail transportation of coal which is more environmentally friendly than trucks.
3. Developing washeries, rapid loading systems, and conveyor belts to reduce dust from transportation.
4. Managing water resources through zero discharge of mine water and maximizing recharge.
5. Introducing new technologies like ripper dozers and mist systems to minimize environmental impacts.
Padma Bridge is the highest priority and largest investment Project of Bangladesh.
The Asian Highway Priority Route No.1 and Trans Asian Railway will be established through Padma Bridge.
Padma Bridge will establish National, Regional and International connectivity through our national road corridors.
After completion of the Padma Bridge, the National GDP of Bangladesh will be increased by 1.26% and Southwest regional GDP will be increased by 2.3% ( incredible )
The document summarizes an environmental impact assessment report prepared for the Gujarat Maritime Board that proposes installing a hazardous waste incinerator and expanding existing landfill cells at the Alang shipyard in Gujarat, India. The report assesses the existing environmental conditions, potential social and economic impacts, and provides an environmental management plan. It describes the proposed incinerator and landfill facilities, evaluates environmental and health risks, and outlines measures to control pollution and manage disasters.
The document discusses water resource management and the role of dams. It provides information on several key points:
1) Water resource management involves planning, developing, distributing and managing water resources in an optimal way. Dams play an important role in the development and management of water resources.
2) Dams have both positive and negative environmental impacts. They provide benefits like flood control and hydroelectric power but can also negatively impact ecosystems, cause displacement of people, and change physical and chemical properties of the environment.
3) Case studies of controversial dam projects in India, China, and Pakistan are discussed, including the proposed Subansiri dam project in India which has faced construction challenges. Mitigation of environmental impacts and controvers
A Coffee Table Book cum handbook on Cable Stayed Bridge with the 4 approaches...Rajesh Prasad
A 4 lane cable stayed bridge with 4 approaches over a very busy yard at Bardhman of E. Rly is an iconic structure at Bardhman- a gift to the nation by RVNL opened for road traffic yesterday ie 27.09.19. Proud to be the part and head of the team from concept to completion to commissioning.
Feasibility of nuclear power plant in BangladeshTapasriBarua
The document discusses the feasibility of building a nuclear power plant in Bangladesh called the Rooppur Nuclear Power Plant (RNPP). Key points include:
- Bangladesh needs more power generation to meet growing demand and reduce reliance on fossil fuels. Nuclear could help meet these needs.
- RNPP would have 2 VVER-1200 reactors provided by Russia, with a total capacity of 2400 MW. Construction began in 2013 with a target completion of 2022-2023.
- Safety features include multiple barriers to radiation exposure and both active and passive safety systems. However, high population density near the site and risks of natural disasters or terrorism require further analysis and precautions.
- Nuclear energy could be
The document discusses the potential for tidal power in Pakistan. It notes that while tidal power is not currently operational in Pakistan, sites along the Indus Delta creek system and in coastal cities like Gwadar and Ormara may be suitable in the future. It outlines some advantages of tidal power such as being renewable and predictable, but also disadvantages like high construction costs and potential environmental impacts. It identifies the Indus Delta creek system and Korangi Creek as two promising sites for tidal energy projects in Sindh and notes that the government has issued licenses for private companies to develop a initial 10MW tidal plant at Sonmiani Bay.
A Study on interlinking of Rivers in A.P & on Kundu River in YSR DistrictLokeswar
River linking is a project linking 2 or more rivers by creating a network of manually created canals and providing water to the land areas that don’t have river water access and reducing the flow of water to sea using this means.
It is based on the assumption that surplus water in some rivers can be diverted to deficit rivers by creating a network of canals to interconnect the rivers.
In this paper, we have taken Andhra Pradesh state as a Case study and mention the alignments and links going on in the A.P and also In this paper we taken Kadapa District as a case study which is suffering from water crisis and going to give an analytical solution about on divert the Kundu flood water and the project going on the Kundu river
The document provides information about the training undergone by the authors at the Maithon Hydel Power Station located in West Bengal, India. It begins with acknowledging the authorities of Maithon Hydel Power Station and Bankura Unnayani Institute of Engineering for providing the opportunity. The content section then outlines the various training reports covering topics like the Public Relations Office, Central Load Dispatch, Transmission Department, Transmission System Construction, and Central Testing Center. Tables are also included that list details of DVC power stations, dams and barrages.
Hydroelectric energy is a renewable source of electricity that is produced from hydropower. It has several advantages including being a low-cost, flexible source of energy with no direct waste and lower greenhouse gas emissions than fossil fuels. However, there are also some disadvantages such as the potential for negative environmental consequences from damming rivers and flooding land, the high upfront cost to build hydroelectric plants, vulnerability to reductions during droughts, and the limited number of suitable locations remaining for new dams and reservoirs.
Impact of Building Dam on River Ecosystem and Its Preventive Measures╚»Śăńğĩť Βăńĩķ«╝
The document discusses the environmental impacts of dam construction on river ecosystems. It states that dams can result in physical, chemical, and biological changes to ecosystems upstream, in the reservoir, and downstream. Specific impacts mentioned include blocking fish migration, changes in sediment flow, flooding of natural habitats, and species changes from altered flooding patterns. The document also provides a case study on the impacts of the Farakka Barrage on the Ganges River in Bangladesh, such as reduced sediment and water flows. It notes some proposed solutions like building additional reservoirs and canals. The conclusion discusses how dams have both benefits and detriments and calls for further studying impacts and improving engineering to reduce negative effects.
The document summarizes Rwanda's energy sector and research interventions. It outlines Rwanda's plans to increase power generation through various renewable sources like hydropower, methane gas, geothermal, peat and solar. It also discusses ongoing and planned projects in these areas. Research interventions proposed include improving biomass cookstoves, reducing biogas construction costs, and studying peat characteristics and lake Kivu gas extraction.
Download the Latest OSHA 10 Answers PDF : oyetrade.comNarendra Jayas
Latest OSHA 10 Test Question and Answers PDF for Construction and General Industry Exam.
Download the full set of 390 MCQ type question and answers - https://www.oyetrade.com/OSHA-10-Answers-2021.php
To Help OSHA 10 trainees to pass their pre-test and post-test we have prepared set of 390 question and answers called OSHA 10 Answers in downloadable PDF format. The OSHA 10 Answers question bank is prepared by our in-house highly experienced safety professionals and trainers. The OSHA 10 Answers document consists of 390 MCQ type question and answers updated for year 2024 exams.
Kinetic studies on malachite green dye adsorption from aqueous solutions by A...Open Access Research Paper
Water polluted by dyestuffs compounds is a global threat to health and the environment; accordingly, we prepared a green novel sorbent chemical and Physical system from an algae, chitosan and chitosan nanoparticle and impregnated with algae with chitosan nanocomposite for the sorption of Malachite green dye from water. The algae with chitosan nanocomposite by a simple method and used as a recyclable and effective adsorbent for the removal of malachite green dye from aqueous solutions. Algae, chitosan, chitosan nanoparticle and algae with chitosan nanocomposite were characterized using different physicochemical methods. The functional groups and chemical compounds found in algae, chitosan, chitosan algae, chitosan nanoparticle, and chitosan nanoparticle with algae were identified using FTIR, SEM, and TGADTA/DTG techniques. The optimal adsorption conditions, different dosages, pH and Temperature the amount of algae with chitosan nanocomposite were determined. At optimized conditions and the batch equilibrium studies more than 99% of the dye was removed. The adsorption process data matched well kinetics showed that the reaction order for dye varied with pseudo-first order and pseudo-second order. Furthermore, the maximum adsorption capacity of the algae with chitosan nanocomposite toward malachite green dye reached as high as 15.5mg/g, respectively. Finally, multiple times reusing of algae with chitosan nanocomposite and removing dye from a real wastewater has made it a promising and attractive option for further practical applications.
Monitor indicators of genetic diversity from space using Earth Observation dataSpatial Genetics
Genetic diversity within and among populations is essential for species persistence. While targets and indicators for genetic diversity are captured in the Kunming-Montreal Global Biodiversity Framework, assessing genetic diversity across many species at national and regional scales remains challenging. Parties to the Convention on Biological Diversity (CBD) need accessible tools for reliable and efficient monitoring at relevant scales. Here, we describe how Earth Observation satellites (EO) make essential contributions to enable, accelerate, and improve genetic diversity monitoring and preservation. Specifically, we introduce a workflow integrating EO into existing genetic diversity monitoring strategies and present a set of examples where EO data is or can be integrated to improve assessment, monitoring, and conservation. We describe how available EO data can be integrated in innovative ways to support calculation of the genetic diversity indicators of the GBF monitoring framework and to inform management and monitoring decisions, especially in areas with limited research infrastructure or access. We also describe novel, integrative approaches to improve the indicators that can be implemented with the coming generation of EO data, and new capabilities that will provide unprecedented detail to characterize the changes to Earth’s surface and their implications for biodiversity, on a global scale.
Optimizing Post Remediation Groundwater Performance with Enhanced Microbiolog...Joshua Orris
Results of geophysics and pneumatic injection pilot tests during 2003 – 2007 yielded significant positive results for injection delivery design and contaminant mass treatment, resulting in permanent shut-down of an existing groundwater Pump & Treat system.
Accessible source areas were subsequently removed (2011) by soil excavation and treated with the placement of Emulsified Vegetable Oil EVO and zero-valent iron ZVI to accelerate treatment of impacted groundwater in overburden and weathered fractured bedrock. Post pilot test and post remediation groundwater monitoring has included analyses of CVOCs, organic fatty acids, dissolved gases and QuantArray® -Chlor to quantify key microorganisms (e.g., Dehalococcoides, Dehalobacter, etc.) and functional genes (e.g., vinyl chloride reductase, methane monooxygenase, etc.) to assess potential for reductive dechlorination and aerobic cometabolism of CVOCs.
In 2022, the first commercial application of MetaArray™ was performed at the site. MetaArray™ utilizes statistical analysis, such as principal component analysis and multivariate analysis to provide evidence that reductive dechlorination is active or even that it is slowing. This creates actionable data allowing users to save money by making important site management decisions earlier.
The results of the MetaArray™ analysis’ support vector machine (SVM) identified groundwater monitoring wells with a 80% confidence that were characterized as either Limited for Reductive Decholorination or had a High Reductive Reduction Dechlorination potential. The results of MetaArray™ will be used to further optimize the site’s post remediation monitoring program for monitored natural attenuation.
4. Presenter :-
Md. Galib Hossain. Id No: 1436CSE00365
Manarat International Universityu
Course: Environmental Studies .
5. LOCATION OF RAMPAL POWER STATION
• The Rampal Power
station is located in
Rampal Upazila of
Bagerhat district in
Khulna Bangladesh. It
will be the biggest
power station in our
country.
6. PROJECT DETAILS
• Sponsor: Bangladesh-India Friendship Power Company
Pvt. Ltd. (BIFPCL)
• Parent company: Bangladesh Power Development Board,
NTPC
• Location: Khulna, Bangladesh
• Capacity: 1320 MW (2 x 660 MW)
• Type: Ultra-Supercritical
• Projected in service: 2018
7. AGREEMENT• In August 2010, this project was signed between
Bangladesh Power Development Board (BPDB) and
India's state-owned National Thermal Power
Corporation (NTPC)
• On January 29, 2012, the Bangladesh Power
Development Board signed an agreement with
NTPC to build the plant.
• Agreed to implement the project by 2016.
• The BPDB and the NTPC agreed to implement the
project on a 50:50 equity basis.
• The NTPC will set up and operate the plant
8. FINANCING
•Loans are expected to fund up to
70% of the US$1.5 billion project.
•India and Bangladesh will fund the
remaining 30% equally (15% each)
9. ENVIRONMENT ISSUE
• It has been alleged that the Rampal station is against The Ramsar
Convention because the plant is to be built in a forest and sensitive
wetlands area.
• Different types of wastes like the residue of the coal, ballast water,
bilge water, oil etc produced from the Ships will be discharged to
the river system and pollute the environment.
• Water column may be polluted due to oil spillage, coal spillage
and other malpractice like
• waste discharge, discharge of ballast and bilge water etc
10.
11. • Ship-to-ship transfer activities, shipping and barging
activities at Akram point will generate noise create
disturbance to the wildlife of the Sundarbans.
• Ballast water, oil spillage and coal dropping might
affect pneumatological of Mangrove plants
12. RESOLVE
• Rampal power plant should be stopped
due to the dangerous ecological effect
of it.
• Govt. should find out another alternative
way & save Sundarbans by stopping
this project