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World's Largest Concentrated Solar Thermal Plant in California's Desert
This video is about Worl's Largest Concentrated Solar Thermal Plant Located in California's Desert. It's Ivanpah Solar Power Facility and its Capacity is 392 megawatts that power around 94,400 average American Homes.
#california #solar
published: 15 Oct 2021
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Solar Thermal Energy in buildings, cities, and industries
Did you know that 50% of the energy we consume is for heat? Solar Thermal technology uses sunlight to produce renewable energy in the form of hot water and heating in buildings, cities, and industries.
Learn more: https://solartown.eu/
published: 13 Oct 2021
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Évora Molten Salt Platform (EMSP) The next generation of solar thermal parabolic trough power plants
Parabolic trough power plants convert solar energy into heat and then into electricity. To do this, they concentrate the sunlight with long mirror troughs arranged in rows. With the energy of the Sun, they heat thermal oil, which can store heat as a medium and is located in a pipe positioned along the focal line of the mirror trough. This oil can absorb heat up to 400 degrees Celsius and transports it to a steam turbine to generate electricity or to a heat storage facility for later use.
To increase the efficiency of parabolic trough power plants and reduce costs, the thermal oil can be replaced by other heat transfer media, which can also store heat. These enable higher process temperatures. A promising candidate for this is molten salt. Its maximum process temperature is 565 degrees Ce...
published: 25 May 2022
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Solar Thermal Power Plants and Industrial Processes
The Business Area of Solar Thermal Power Plants and Industrial Processes in Profile: With a staff of 1200, the Fraunhofer Institute of Solar Energy Systems ISE is the largest solar research institute in Europe. With our research focusing on energy conversion, energy efficiency, energy distribution and energy storage, we shape the transformation of the global energy system – paving the way for an energy supply based exclusively on renewable energy sources. In five business areas we develop materials, components, systems and processes and offer testing and certification procedures.
published: 29 May 2019
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EEVblog 1553 - World's First Commercial Solar Power Station
Dave visits the world's first commercial solar power station in White Cliffs, a small opal mining town in outback Australia.
Built in 1981 and using 14 heliostatic tracking 5m diameter dishes, this concentrated thermal solar plant produced 25kW of power using a steam generator.
Links:
https://en.wikipedia.org/wiki/White_Cliffs_Solar_Power_Station
Analysis report: https://eevblog.com/files/sustain_renew_solar_white_cliffs_project_report.pdf
Mirror efficiency data: https://www.nrel.gov/docs/fy08osti/43695.pdf
Heritage Listing: https://portal.engineersaustralia.org.au/system/files/engineering-heritage-australia/nomination-title/White_Cliffs_Nomination.pdf
History: https://ehive.com/collections/7333/the-white-cliffs-solar-thermal-power-station
Steam genertor assesment: https://www.researchgat...
published: 13 Jul 2023
-
Industrial Solar Fresnel Collector Video
http://www.industrial-solar.de
Learn about the advantages of our LF-11 Fresnel collector for solar process heat and direct steam generation.
published: 14 Jun 2016
-
Solahart Commercial Solar Water Heating Solutions
The Solahart HS Series is a solar water heating package intended for use in commercial or industrial applications. It can be integrated into an existing installation to provide solar pre-heating for energy cost reduction, used in the replacement of existing equipment, or used in new installations.
The HS Series provides superior benefits to conventional solar water heaters including ultimate frost and over-temperature protection by way of its unique drain back function.
The system comprises a quantity of Solahart’s proven high performance solar collectors, connected to a central heat store located at a lower level, which serves as the energy source to instantaneously heat the fresh potable water supply on demand, via a highly efficient delivery skid.
System Features
Hygienically Clean...
published: 24 Apr 2015
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The Problem with Solar Energy in Africa
Be one of the first 500 people to sign up with this link and get 20% off your subscription with Brilliant.org: https://brilliant.org/RealEngineering/
New streaming platform: https://watchnebula.com/
Vlog channel: https://www.youtube.com/channel/UCMet4qY3027v8KjpaDtDx-g
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Writer/Narrator: Brian McManus
Editor: Dylan Hennessy (https://www.behance.net/dylanhennessy1)
Animator: Mike Ridolfi (https://www.moboxgraphics...
published: 23 Oct 2021
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TRAINING WORKSHOP : INSTALLATION OF IoT BASED REAL-TIME POLLUTION MONITORING SENSORS #liveworkshop
INSTALLATION OF IoT BASED REAL TIME POLLUTION MONITORING SENSORS ON SELECTED SOUTHWESTERN WATERBODIES IN WESTERN NIGERIA
Edu TV Nigeria is a channel where you get informations on all educative programmes in Nigeria and across the globe.
Kindly subscribe to this channel for you to be notified whenever we upload any educative programmes like Educational News, Research Programmes, Scholarship programmes and lot more.
Thanks for watching.
published: 20 Feb 2024
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Solar steam generation system for industrial use
Solar steam generation system for industrial used
published: 17 Oct 2018
3:42
World's Largest Concentrated Solar Thermal Plant in California's Desert
This video is about Worl's Largest Concentrated Solar Thermal Plant Located in California's Desert. It's Ivanpah Solar Power Facility and its Capacity is 392 me...
This video is about Worl's Largest Concentrated Solar Thermal Plant Located in California's Desert. It's Ivanpah Solar Power Facility and its Capacity is 392 megawatts that power around 94,400 average American Homes.
#california #solar
https://wn.com/World's_Largest_Concentrated_Solar_Thermal_Plant_In_California's_Desert
This video is about Worl's Largest Concentrated Solar Thermal Plant Located in California's Desert. It's Ivanpah Solar Power Facility and its Capacity is 392 megawatts that power around 94,400 average American Homes.
#california #solar
- published: 15 Oct 2021
- views: 51102
1:22
Solar Thermal Energy in buildings, cities, and industries
Did you know that 50% of the energy we consume is for heat? Solar Thermal technology uses sunlight to produce renewable energy in the form of hot water and heat...
Did you know that 50% of the energy we consume is for heat? Solar Thermal technology uses sunlight to produce renewable energy in the form of hot water and heating in buildings, cities, and industries.
Learn more: https://solartown.eu/
https://wn.com/Solar_Thermal_Energy_In_Buildings,_Cities,_And_Industries
Did you know that 50% of the energy we consume is for heat? Solar Thermal technology uses sunlight to produce renewable energy in the form of hot water and heating in buildings, cities, and industries.
Learn more: https://solartown.eu/
- published: 13 Oct 2021
- views: 1899
1:29
Évora Molten Salt Platform (EMSP) The next generation of solar thermal parabolic trough power plants
Parabolic trough power plants convert solar energy into heat and then into electricity. To do this, they concentrate the sunlight with long mirror troughs arran...
Parabolic trough power plants convert solar energy into heat and then into electricity. To do this, they concentrate the sunlight with long mirror troughs arranged in rows. With the energy of the Sun, they heat thermal oil, which can store heat as a medium and is located in a pipe positioned along the focal line of the mirror trough. This oil can absorb heat up to 400 degrees Celsius and transports it to a steam turbine to generate electricity or to a heat storage facility for later use.
To increase the efficiency of parabolic trough power plants and reduce costs, the thermal oil can be replaced by other heat transfer media, which can also store heat. These enable higher process temperatures. A promising candidate for this is molten salt. Its maximum process temperature is 565 degrees Celsius. It is also cheaper, less flammable and more environmentally friendly than thermal oil. Solar thermal power plants already use salt for heat storage. This makes it possible to flexibly generate electricity when it is needed. If molten salt is also used in the solar field, higher temperatures are possible here and in the storage tank. Since the storage tank can then be made smaller and no heat exchanger is needed to transfer the heat to the salt in the storage tank, the capital costs are also lower.
The Évora Molten Salt Platform (EMSP) was designed and built to test molten salt as a heat transfer medium on a power plant scale for reliability and operational safety. From the collectors to the steam generator and condenser, it has the essential elements of a solar thermal power plant. The unique test plant includes parabolic troughs with a total length of 700 metres and has a total output of 3.5 megawatts. Thus, the transfer of results from research to industrial application is only a small step.
DLR developed and constructed the facility together with the University of Évora and European industrial partners. The plant began operating in autumn 2021.
More information:
https://www.dlr.de/content/en/articles/news/2022/02/20220428_salt-makes-solar-thermal-power-more-cost-effective.html
https://wn.com/Évora_Molten_Salt_Platform_(Emsp)_The_Next_Generation_Of_Solar_Thermal_Parabolic_Trough_Power_Plants
Parabolic trough power plants convert solar energy into heat and then into electricity. To do this, they concentrate the sunlight with long mirror troughs arranged in rows. With the energy of the Sun, they heat thermal oil, which can store heat as a medium and is located in a pipe positioned along the focal line of the mirror trough. This oil can absorb heat up to 400 degrees Celsius and transports it to a steam turbine to generate electricity or to a heat storage facility for later use.
To increase the efficiency of parabolic trough power plants and reduce costs, the thermal oil can be replaced by other heat transfer media, which can also store heat. These enable higher process temperatures. A promising candidate for this is molten salt. Its maximum process temperature is 565 degrees Celsius. It is also cheaper, less flammable and more environmentally friendly than thermal oil. Solar thermal power plants already use salt for heat storage. This makes it possible to flexibly generate electricity when it is needed. If molten salt is also used in the solar field, higher temperatures are possible here and in the storage tank. Since the storage tank can then be made smaller and no heat exchanger is needed to transfer the heat to the salt in the storage tank, the capital costs are also lower.
The Évora Molten Salt Platform (EMSP) was designed and built to test molten salt as a heat transfer medium on a power plant scale for reliability and operational safety. From the collectors to the steam generator and condenser, it has the essential elements of a solar thermal power plant. The unique test plant includes parabolic troughs with a total length of 700 metres and has a total output of 3.5 megawatts. Thus, the transfer of results from research to industrial application is only a small step.
DLR developed and constructed the facility together with the University of Évora and European industrial partners. The plant began operating in autumn 2021.
More information:
https://www.dlr.de/content/en/articles/news/2022/02/20220428_salt-makes-solar-thermal-power-more-cost-effective.html
- published: 25 May 2022
- views: 6463
3:22
Solar Thermal Power Plants and Industrial Processes
The Business Area of Solar Thermal Power Plants and Industrial Processes in Profile: With a staff of 1200, the Fraunhofer Institute of Solar Energy Systems ISE...
The Business Area of Solar Thermal Power Plants and Industrial Processes in Profile: With a staff of 1200, the Fraunhofer Institute of Solar Energy Systems ISE is the largest solar research institute in Europe. With our research focusing on energy conversion, energy efficiency, energy distribution and energy storage, we shape the transformation of the global energy system – paving the way for an energy supply based exclusively on renewable energy sources. In five business areas we develop materials, components, systems and processes and offer testing and certification procedures.
https://wn.com/Solar_Thermal_Power_Plants_And_Industrial_Processes
The Business Area of Solar Thermal Power Plants and Industrial Processes in Profile: With a staff of 1200, the Fraunhofer Institute of Solar Energy Systems ISE is the largest solar research institute in Europe. With our research focusing on energy conversion, energy efficiency, energy distribution and energy storage, we shape the transformation of the global energy system – paving the way for an energy supply based exclusively on renewable energy sources. In five business areas we develop materials, components, systems and processes and offer testing and certification procedures.
- published: 29 May 2019
- views: 18693
10:35
EEVblog 1553 - World's First Commercial Solar Power Station
Dave visits the world's first commercial solar power station in White Cliffs, a small opal mining town in outback Australia.
Built in 1981 and using 14 heliosta...
Dave visits the world's first commercial solar power station in White Cliffs, a small opal mining town in outback Australia.
Built in 1981 and using 14 heliostatic tracking 5m diameter dishes, this concentrated thermal solar plant produced 25kW of power using a steam generator.
Links:
https://en.wikipedia.org/wiki/White_Cliffs_Solar_Power_Station
Analysis report: https://eevblog.com/files/sustain_renew_solar_white_cliffs_project_report.pdf
Mirror efficiency data: https://www.nrel.gov/docs/fy08osti/43695.pdf
Heritage Listing: https://portal.engineersaustralia.org.au/system/files/engineering-heritage-australia/nomination-title/White_Cliffs_Nomination.pdf
History: https://ehive.com/collections/7333/the-white-cliffs-solar-thermal-power-station
Steam genertor assesment: https://www.researchgate.net/publication/309426826_An_Experimental_and_Analytical_Assessment_of_a_Steam_Rankine_Solar_Thermal_Power_System
https://wiki.opensourceecology.org/wiki/Steam_Engine/Correspondence
Forum: https://www.eevblog.com/forum/blog/eevblog-1553-worlds-first-commercial-solar-power-station/
If you find my videos useful you may consider supporting the EEVblog on Patreon: http://www.patreon.com/eevblog
Or with crypto:
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#ElectronicsCreators #Solar #Tour
https://wn.com/Eevblog_1553_World's_First_Commercial_Solar_Power_Station
Dave visits the world's first commercial solar power station in White Cliffs, a small opal mining town in outback Australia.
Built in 1981 and using 14 heliostatic tracking 5m diameter dishes, this concentrated thermal solar plant produced 25kW of power using a steam generator.
Links:
https://en.wikipedia.org/wiki/White_Cliffs_Solar_Power_Station
Analysis report: https://eevblog.com/files/sustain_renew_solar_white_cliffs_project_report.pdf
Mirror efficiency data: https://www.nrel.gov/docs/fy08osti/43695.pdf
Heritage Listing: https://portal.engineersaustralia.org.au/system/files/engineering-heritage-australia/nomination-title/White_Cliffs_Nomination.pdf
History: https://ehive.com/collections/7333/the-white-cliffs-solar-thermal-power-station
Steam genertor assesment: https://www.researchgate.net/publication/309426826_An_Experimental_and_Analytical_Assessment_of_a_Steam_Rankine_Solar_Thermal_Power_System
https://wiki.opensourceecology.org/wiki/Steam_Engine/Correspondence
Forum: https://www.eevblog.com/forum/blog/eevblog-1553-worlds-first-commercial-solar-power-station/
If you find my videos useful you may consider supporting the EEVblog on Patreon: http://www.patreon.com/eevblog
Or with crypto:
BTC: 33BsprBQNBtHuVzVwDmqWkpDjYnCouwASM
ETH: 0x68114e40ff4dcdd384750500501e20acf3875f8c
BCH: 35n9KBPw9T7M3NGzpS3t4nUYEf9HbRmkm4
USDC: 0x68114e40ff4dcdd384750500501e20acf3875f8c
LTC: MJfK57ujxy55su4XicVGQc9wcEJf6mAoXF
Web Site: http://www.eevblog.com
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EEVdiscover: https://www.youtube.com/eevdiscover
T-Shirts: http://teespring.com/stores/eevblog
#ElectronicsCreators #Solar #Tour
- published: 13 Jul 2023
- views: 64104
1:36
Industrial Solar Fresnel Collector Video
http://www.industrial-solar.de
Learn about the advantages of our LF-11 Fresnel collector for solar process heat and direct steam generation.
http://www.industrial-solar.de
Learn about the advantages of our LF-11 Fresnel collector for solar process heat and direct steam generation.
https://wn.com/Industrial_Solar_Fresnel_Collector_Video
http://www.industrial-solar.de
Learn about the advantages of our LF-11 Fresnel collector for solar process heat and direct steam generation.
- published: 14 Jun 2016
- views: 38205
2:15
Solahart Commercial Solar Water Heating Solutions
The Solahart HS Series is a solar water heating package intended for use in commercial or industrial applications. It can be integrated into an existing install...
The Solahart HS Series is a solar water heating package intended for use in commercial or industrial applications. It can be integrated into an existing installation to provide solar pre-heating for energy cost reduction, used in the replacement of existing equipment, or used in new installations.
The HS Series provides superior benefits to conventional solar water heaters including ultimate frost and over-temperature protection by way of its unique drain back function.
The system comprises a quantity of Solahart’s proven high performance solar collectors, connected to a central heat store located at a lower level, which serves as the energy source to instantaneously heat the fresh potable water supply on demand, via a highly efficient delivery skid.
System Features
Hygienically Clean Hot Water
The compact heat exchanger delivery skid heats the water only at the moment it is needed - a quick, safe and hygienically clean solution.
The skid contains a pair of completely integrated high-efficiency stainless steel plate heat exchangers, allowing for high heat transfer with a low temperature difference between the primary and secondary circuits, and minimising both flow rate and return temperature in the primary circuit.
Accurate Temperature Regulation
The delivery skid incorporates an integral variable speed energy efficient supply circulator for the primary circuit heating source, which is regulated by an on board controller to optimise the primary fluid flow rate. The electronic controller monitors the temperature of the hot-water outlet temperature and the flow rate of the cold water supply, to accurately control the primary circulator speed (and rate of energy transfer), to meet the hot water temperature and flow rate required by the user.
Intelligent Energy Management
The ability to control the rate of energy transfer allows the solar energy to be stored at a higher temperature than the fresh water temperature that is actually supplied to the user. This subsequently allows for increased energy storage density and efficiency, and on days when available solar energy input exceeds the hot water demand, the energy surplus can be stored for use on subsequent days rather than wasted.
Drain Back Feature – Freezing & Over Temperature Protection
The automatic drain back feature of the closed circuit prevents wet stagnation of the closed circuit fluid in the collector array. This eliminates potential damage due to boiling of the fluid and also ensures that the collected energy remains in the storage vessel. This same feature protects the collectors from freezing during frost periods.
https://wn.com/Solahart_Commercial_Solar_Water_Heating_Solutions
The Solahart HS Series is a solar water heating package intended for use in commercial or industrial applications. It can be integrated into an existing installation to provide solar pre-heating for energy cost reduction, used in the replacement of existing equipment, or used in new installations.
The HS Series provides superior benefits to conventional solar water heaters including ultimate frost and over-temperature protection by way of its unique drain back function.
The system comprises a quantity of Solahart’s proven high performance solar collectors, connected to a central heat store located at a lower level, which serves as the energy source to instantaneously heat the fresh potable water supply on demand, via a highly efficient delivery skid.
System Features
Hygienically Clean Hot Water
The compact heat exchanger delivery skid heats the water only at the moment it is needed - a quick, safe and hygienically clean solution.
The skid contains a pair of completely integrated high-efficiency stainless steel plate heat exchangers, allowing for high heat transfer with a low temperature difference between the primary and secondary circuits, and minimising both flow rate and return temperature in the primary circuit.
Accurate Temperature Regulation
The delivery skid incorporates an integral variable speed energy efficient supply circulator for the primary circuit heating source, which is regulated by an on board controller to optimise the primary fluid flow rate. The electronic controller monitors the temperature of the hot-water outlet temperature and the flow rate of the cold water supply, to accurately control the primary circulator speed (and rate of energy transfer), to meet the hot water temperature and flow rate required by the user.
Intelligent Energy Management
The ability to control the rate of energy transfer allows the solar energy to be stored at a higher temperature than the fresh water temperature that is actually supplied to the user. This subsequently allows for increased energy storage density and efficiency, and on days when available solar energy input exceeds the hot water demand, the energy surplus can be stored for use on subsequent days rather than wasted.
Drain Back Feature – Freezing & Over Temperature Protection
The automatic drain back feature of the closed circuit prevents wet stagnation of the closed circuit fluid in the collector array. This eliminates potential damage due to boiling of the fluid and also ensures that the collected energy remains in the storage vessel. This same feature protects the collectors from freezing during frost periods.
- published: 24 Apr 2015
- views: 36789
18:20
The Problem with Solar Energy in Africa
Be one of the first 500 people to sign up with this link and get 20% off your subscription with Brilliant.org: https://brilliant.org/RealEngineering/
New strea...
Be one of the first 500 people to sign up with this link and get 20% off your subscription with Brilliant.org: https://brilliant.org/RealEngineering/
New streaming platform: https://watchnebula.com/
Vlog channel: https://www.youtube.com/channel/UCMet4qY3027v8KjpaDtDx-g
Patreon:
https://www.patreon.com/user?u=2825050&ty=h
Facebook:
http://facebook.com/realengineering1
Instagram:
https://www.instagram.com/brianjamesmcmanus
Reddit:
https://www.reddit.com/r/RealEngineering/
Twitter:
https://twitter.com/thebrianmcmanus
Discord:
https://discord.gg/s8BhkmN
Get your Real Engineering shirts at: https://standard.tv/collections/real-engineering
Credits:
Writer/Narrator: Brian McManus
Editor: Dylan Hennessy (https://www.behance.net/dylanhennessy1)
Animator: Mike Ridolfi (https://www.moboxgraphics.com/)
Sound: Graham Haerther (https://haerther.net/)
Thumbnail: Simon Buckmaster https://twitter.com/forgottentowel
References:
References
[1] https://globalsolaratlas.info/map?c=42.779275,-37.617188,4
[2] https://ec.europa.eu/eurostat/statistics-explained/index.php?title=Electricity_production,_consumption_and_market_overview
[3] https://www.statista.com/statistics/280704/world-power-consumption/
[4] https://energypost.eu/10000-sq-km-of-solar-in-the-sahara-could-provide-all-the-worlds-energy-needs/
[5] https://www.pv-magazine.com/2019/02/20/spains-third-interconnection-with-morocco-could-be-europes-chance-for-african-pv-or-a-boost-for-coal/
[6] http://climatepolicyinitiative.org/wp-content/uploads/2011/12/Hirschhausen-et-al_The-Economics-of-DESERTEC.pdf
[7] https://www.eia.gov/analysis/studies/electricity/hvdctransmission/pdf/transmission.pdf
[8] https://www.brown.edu/Departments/Engineering/Courses/ENGN1931F/HVDC_Proven_TechnologySiemens.pdf
[9] https://iea-etsap.org/E-TechDS/PDF/E12_el-t&d_KV_Apr2014_GSOK.pdf
[10]
https://www.researchgate.net/publication/350846283_Impact_study_of_NOOR_1_project_on_the_Moroccan_territorial_economic_development
[11] https://www.reutersevents.com/renewables/csp-today/technology/towers-versus-troughs#:~:text=LPT%20550's%20solar%2Dto%2Dsteam,steam%2C%20according%20to%20the%20company.&text=Storage%20is%20another%20key%20advantage%20of%20the%20tower%20technology
[12] https://techstartups.com/2020/11/19/worlds-biggest-solar-energy-project-failure-1-billion-boondoggle-solar-plant-project-became-obsolete-ever-went-online/
[13] https://www.reviewjournal.com/opinion/editorials/editorial-future-of-crescent-dunes-solar-plant-near-tonopah-appears-bleak-1866768/
[14] https://www.bloomberg.com/news/articles/2020-01-06/a-1-billion-solar-plant-was-obsolete-before-it-ever-went-online
[15] https://www.ise.fraunhofer.de/content/dam/ise/en/documents/News/electricity_production_germany_2020.pdf
[16] https://www.afdb.org/fileadmin/uploads/afdb/Documents/Environmental-and-Social-Assessments/Morocco_-_Ouarzazate_Solar_Power_Station_Project_II_-_ESIA_Summary.pdf
Select imagery/video supplied by Getty Images
Thank you to AP Archive for access to their archival footage.
Music by Epidemic Sound: http://epidemicsound.com/creator
Thank you to my patreon supporters: Adam Flohr, Henning Basma, Hank Green, William Leu, Tristan Edwards, Ian Dundore, John & Becki Johnston. Nevin Spoljaric, Jason Clark, Thomas Barth, Johnny MacDonald, Stephen Foland, Alfred Holzheu, Abdulrahman Abdulaziz Binghaith, Brent Higgins, Dexter Appleberry, Alex Pavek, Marko Hirsch, Mikkel Johansen, Hibiyi Mori. Viktor Józsa, Ron Hochsprung
https://wn.com/The_Problem_With_Solar_Energy_In_Africa
Be one of the first 500 people to sign up with this link and get 20% off your subscription with Brilliant.org: https://brilliant.org/RealEngineering/
New streaming platform: https://watchnebula.com/
Vlog channel: https://www.youtube.com/channel/UCMet4qY3027v8KjpaDtDx-g
Patreon:
https://www.patreon.com/user?u=2825050&ty=h
Facebook:
http://facebook.com/realengineering1
Instagram:
https://www.instagram.com/brianjamesmcmanus
Reddit:
https://www.reddit.com/r/RealEngineering/
Twitter:
https://twitter.com/thebrianmcmanus
Discord:
https://discord.gg/s8BhkmN
Get your Real Engineering shirts at: https://standard.tv/collections/real-engineering
Credits:
Writer/Narrator: Brian McManus
Editor: Dylan Hennessy (https://www.behance.net/dylanhennessy1)
Animator: Mike Ridolfi (https://www.moboxgraphics.com/)
Sound: Graham Haerther (https://haerther.net/)
Thumbnail: Simon Buckmaster https://twitter.com/forgottentowel
References:
References
[1] https://globalsolaratlas.info/map?c=42.779275,-37.617188,4
[2] https://ec.europa.eu/eurostat/statistics-explained/index.php?title=Electricity_production,_consumption_and_market_overview
[3] https://www.statista.com/statistics/280704/world-power-consumption/
[4] https://energypost.eu/10000-sq-km-of-solar-in-the-sahara-could-provide-all-the-worlds-energy-needs/
[5] https://www.pv-magazine.com/2019/02/20/spains-third-interconnection-with-morocco-could-be-europes-chance-for-african-pv-or-a-boost-for-coal/
[6] http://climatepolicyinitiative.org/wp-content/uploads/2011/12/Hirschhausen-et-al_The-Economics-of-DESERTEC.pdf
[7] https://www.eia.gov/analysis/studies/electricity/hvdctransmission/pdf/transmission.pdf
[8] https://www.brown.edu/Departments/Engineering/Courses/ENGN1931F/HVDC_Proven_TechnologySiemens.pdf
[9] https://iea-etsap.org/E-TechDS/PDF/E12_el-t&d_KV_Apr2014_GSOK.pdf
[10]
https://www.researchgate.net/publication/350846283_Impact_study_of_NOOR_1_project_on_the_Moroccan_territorial_economic_development
[11] https://www.reutersevents.com/renewables/csp-today/technology/towers-versus-troughs#:~:text=LPT%20550's%20solar%2Dto%2Dsteam,steam%2C%20according%20to%20the%20company.&text=Storage%20is%20another%20key%20advantage%20of%20the%20tower%20technology
[12] https://techstartups.com/2020/11/19/worlds-biggest-solar-energy-project-failure-1-billion-boondoggle-solar-plant-project-became-obsolete-ever-went-online/
[13] https://www.reviewjournal.com/opinion/editorials/editorial-future-of-crescent-dunes-solar-plant-near-tonopah-appears-bleak-1866768/
[14] https://www.bloomberg.com/news/articles/2020-01-06/a-1-billion-solar-plant-was-obsolete-before-it-ever-went-online
[15] https://www.ise.fraunhofer.de/content/dam/ise/en/documents/News/electricity_production_germany_2020.pdf
[16] https://www.afdb.org/fileadmin/uploads/afdb/Documents/Environmental-and-Social-Assessments/Morocco_-_Ouarzazate_Solar_Power_Station_Project_II_-_ESIA_Summary.pdf
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- published: 23 Oct 2021
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53:34
TRAINING WORKSHOP : INSTALLATION OF IoT BASED REAL-TIME POLLUTION MONITORING SENSORS #liveworkshop
INSTALLATION OF IoT BASED REAL TIME POLLUTION MONITORING SENSORS ON SELECTED SOUTHWESTERN WATERBODIES IN WESTERN NIGERIA
Edu TV Nigeria is a channel where you...
INSTALLATION OF IoT BASED REAL TIME POLLUTION MONITORING SENSORS ON SELECTED SOUTHWESTERN WATERBODIES IN WESTERN NIGERIA
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https://wn.com/Training_Workshop_Installation_Of_Iot_Based_Real_Time_Pollution_Monitoring_Sensors_Liveworkshop
INSTALLATION OF IoT BASED REAL TIME POLLUTION MONITORING SENSORS ON SELECTED SOUTHWESTERN WATERBODIES IN WESTERN NIGERIA
Edu TV Nigeria is a channel where you get informations on all educative programmes in Nigeria and across the globe.
Kindly subscribe to this channel for you to be notified whenever we upload any educative programmes like Educational News, Research Programmes, Scholarship programmes and lot more.
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- published: 20 Feb 2024
- views: 13