logging in or signing up Accident at Russia's Biggest Hydroelectric - Rev 00 aSGuest122830 Download Post to : URL : Related Presentations : Share Add to Flag Embed Email Send to Blogs and Networks Add to Channel Uploaded from authorPOINT lite Insert YouTube videos in PowerPont slides with aS Desktop Copy embed code: (To copy code, click on the text box) Embed: URL: Thumbnail: WordPress Embed Customize Embed The presentation is successfully added In Your Favorites. Views: 20 Category: Entertainment License: All Rights Reserved Like it (0) Dislike it (0) Added: December 27, 2011 This Presentation is Public Favorites: 0 Presentation Description No description available. Comments Posting comment... Premium member Presentation Transcript Accident at Russia’s Biggest Hydroelectric: Accident at Russia’s Biggest Hydroelectric Sayano-Shushenskaya – 2009 August 17PowerPoint Presentation: By: Euler Cruz Consulting Engineer – Turbines Rafael Cesário Mechanical Engineer Brasil – 2009 Aug 24PowerPoint Presentation: Objetive This presentation aims to disseminate some technical and general aspects of the accident. A long and detailed work must be done in order to provide understanding about what happened, in order to help all Owners to prevent such accidents. Note This is a preliminary analysis made based only on pictures and films, done no longer than one week after the accident. Only hypotheses are formulated.1- Main Characteristics: 1- Main Characteristics Number of Units: 10 Turbine Type: Francis (16 blades) Rated Power: 650 MW each Rated Discharge per Unit: 358,5 m³/s Nominal Speed: 142,86 rpm Net Head: 194 m Operation Date: 1978 Runner Weight: 156 ton Runner Diameter: 6,77 m2 - Main Characteristics: 2 - Main Characteristics One of the world's largest hydro-electric plants, its dam is 245 m (800 ft) high and stretches 1 km (0.6 miles) across the Yenisei river. Opened in 1978, the station provides a quarter of RusHydro output and is a major power supplier to at least two smelters owned by United Company RUSAL, the world's largest aluminium producer. The hydroelectric power station is located on the Yenisei River, near Sayanogorsk in Khakassia, Russia. Before the accident, it was the largest power plant in Russia and the sixth-largest hydroelectric plant in the world.PowerPoint Presentation: Penstocks Spillway Powerhouse Dam Control Building 1 2 3 4 5 6 7 8 9 10 UnitsPowerPoint Presentation: General ViewPowerPoint Presentation: Penstocks Lines Spillway Powerhouse TransformersThe Accident – 2009 Aug 17: The Accident – 2009 Aug 17The accident: The accident At 08:13 local time (00:13 GMT) on 17 August 2009, the station suffered a catastrophic "pressure surge" in turbine known as a water hammer. The sudden water pressure surge resulted in the ejection of turbine 2 with all equipment, a total weight some 900 tons, from its seat. Turbines 7 and 9 also suffered from severe damage, while the turbine room roof fell on and damaged turbines 3, 4 and 5. Turbine 6, which was in scheduled repair at the time of accident, received only minor damage as it was the only one of the station's 10 turbines that did not receive electrical damage due to shorting of transformers, and it will be restarted as soon as possible. Water immediately flooded the engine and turbine rooms and caused a transformer explosion. On 23 August 2009 , authorities said 69 people were found dead while 6 people are still listed as missing. Efforts to pump flood water from the engine room and complete a search for the missing workmen are expected to take 3 to 8 days. http://en.wikipedia.org/wiki/2009_Sayano%E2%80%93Shushenskaya_hydroelectric_power_station_accidentBefore the Accident: Before the Accident Power Units Sump Tank Air-Oil Tanks Governor Pumps Generators floor CraneAfter the Accident: Generator floor After the Accident Air-Oil Tanks Sump Tank Crosshead – Unit 2 Colector Ring Unit 1 Unit 2 FloorPowerPoint Presentation: General View FloorPowerPoint Presentation: General ViewBefore the Accident: Before the Accident Generator Runner Generator Rotor – Unit 5 The accident started herePowerPoint Presentation: Crosshead Sump Tank (turned) Air-Oil TankPowerPoint Presentation: Unit 9: destroyed Unit 7: destroyedPowerPoint Presentation: Unit 9 Unit 7PowerPoint Presentation: The Powerhouse crane is above the assembly areaPowerPoint Presentation: Generator Upper Bearing Generator rotor Destroyed column Enclosed BusPowerPoint Presentation: The remains of the rotor spiderPowerPoint Presentation: Water + OilPowerPoint Presentation: Enclosed BusPowerPoint Presentation: Assembly Area Smaller Runner Generator’s Poles Crosshead Crane Downstream crane railPowerPoint Presentation: Transformer Roof BeamsPowerPoint Presentation: Roof RoofConsequences: Consequences 76 people dead. Question: By this number, maybe there was approx. 100 people in the Powerhouse. Normally, even during maintenance works, there aren't so many people. Why was there so many people?Consequences: Consequences It will cost at least $310 million. A long time to repair the damages. The production of more than 500,000 tons of aluminum will be lost. Oil slick is travelling down the river.Consequences: Consequences It is not clear how many people were potentially affected by the accident. The plant satisfied 10% of Siberia’s energy needs. Aluminum smelters consumed over 70% of the energy generated by the power plant.PowerPoint Presentation: Our main hypotheses about the sequence of the disaster: (Attention: Preliminary hypotheses based only on the pictures ) Sudden closing of the Unit 2 wicket gates. Heavy waterhammer in the spiral case and penstock, causing their collapse. Upward force, resulted from the waterhammer, destroying the civil structure over the spiral case and penstock. Pressure of the upstream water causing elevation of structures and peaces. Heavy reverse waterhammer (draft tube) causing elevation of the turbine cover, shaft, etc. Rapid flooding of the Powerhouse. Units 7 and 9, without closing, in runaway speed with the generators inside the flood water. 1 - CausesPowerPoint Presentation: Our main hypotheses about the cause of the sudden closing: A large piece entered in the turbine runner and stuck in it (could not pass the exit of the blades, which is of smaller dimensions). This piece turned with the runner and hit all the wicket gates, causing their sudden closing, at a fraction of a second. This piece could be: a log (passed by an opening in the trashrack), stay vane or wicket gate broke. Or (less probably): Rupture of the governor oil pipe in the closing side of the distributor servomotors (in this case, the orifice that controls the oil flow should be in the pipe and not in the body of the servomotors). Rupture in sequence of the wicket gates links; closing by hydraulic tendency. 2 - CausesPowerPoint Presentation: Unit 2 Units 7 and 9PowerPoint Presentation: Flood FloodPowerPoint Presentation: Seeking the victims Preliminary worksPowerPoint Presentation: Situation on Saturday 2009 Aug 22PowerPoint Presentation: Aparently the water is already drainedPowerPoint Presentation: Continuing the seeking of victims. and Finishing the cleaning of the debris. Completing the drainage of the water. Constructing a temporary roof (one week) and then a better one (two months or less) to protect against the winter (this will prevent new photos…). Recover the columns and beams supporting the rails of the Powerhouse Crane, to allow its use. Some Next StepsNews – August 21: News – August 21 NOVOSIBIRSK, August 21 (Itar-Tass) - The water level in the inundated turbine room of Sayano-Shushenskaya hydropower plant where the water pumping out was started on Thursday, decreased by 2 meters by Friday morning A total of more than 30 thousand cubic meters of water have been pumped out. It is necessary to pump out a total of 250 thousand cubic meters of water. Minister Sergei Shoigu earlier set the task to install additional pumps and thereby increase the volume of pumped out water to 4 thousand cubic meters per hour. “By increasing the capacity we will fulfill this task (water pumping out) in 32 hours,” the minister said. Thirteen pumps have been put into operation in the water pumping efforts at the plant. The debris clearing operation continues. According to latest reports, 4,650 cubic meters of reinforced concrete structures have been moved out from the hydroelectric station. At present, about 2 thousand people and 116 machinery units are engaged in the Sayano-Shusehnskaya HPP catastrophe liquidation efforts. http://itar-tass.com/eng/level2.html?NewsID=14255520&PageNum=0Some References: Some References http://www.dailymail.co.uk/news/worldnews/article-1207093/Accident-Russias-biggest-hydroelectric-plant-leaves-seven-workers-dead.html http://www.newsdaily.com/stories/tre57h1qb-us-russia-dam/ http://news.bbc.co.uk/2/hi/europe/8204860.stm http://englishrussia.com/?p=4853 http:// www.1tv.ru You do not have the permission to view this presentation. In order to view it, please contact the author of the presentation.
Accident at Russia's Biggest Hydroelectric - Rev 00 aSGuest122830 Download Post to : URL : Related Presentations : Share Add to Flag Embed Email Send to Blogs and Networks Add to Channel Uploaded from authorPOINT lite Insert YouTube videos in PowerPont slides with aS Desktop Copy embed code: (To copy code, click on the text box) Embed: URL: Thumbnail: WordPress Embed Customize Embed The presentation is successfully added In Your Favorites. Views: 20 Category: Entertainment License: All Rights Reserved Like it (0) Dislike it (0) Added: December 27, 2011 This Presentation is Public Favorites: 0 Presentation Description No description available. Comments Posting comment... Premium member Presentation Transcript Accident at Russia’s Biggest Hydroelectric: Accident at Russia’s Biggest Hydroelectric Sayano-Shushenskaya – 2009 August 17PowerPoint Presentation: By: Euler Cruz Consulting Engineer – Turbines Rafael Cesário Mechanical Engineer Brasil – 2009 Aug 24PowerPoint Presentation: Objetive This presentation aims to disseminate some technical and general aspects of the accident. A long and detailed work must be done in order to provide understanding about what happened, in order to help all Owners to prevent such accidents. Note This is a preliminary analysis made based only on pictures and films, done no longer than one week after the accident. Only hypotheses are formulated.1- Main Characteristics: 1- Main Characteristics Number of Units: 10 Turbine Type: Francis (16 blades) Rated Power: 650 MW each Rated Discharge per Unit: 358,5 m³/s Nominal Speed: 142,86 rpm Net Head: 194 m Operation Date: 1978 Runner Weight: 156 ton Runner Diameter: 6,77 m2 - Main Characteristics: 2 - Main Characteristics One of the world's largest hydro-electric plants, its dam is 245 m (800 ft) high and stretches 1 km (0.6 miles) across the Yenisei river. Opened in 1978, the station provides a quarter of RusHydro output and is a major power supplier to at least two smelters owned by United Company RUSAL, the world's largest aluminium producer. The hydroelectric power station is located on the Yenisei River, near Sayanogorsk in Khakassia, Russia. Before the accident, it was the largest power plant in Russia and the sixth-largest hydroelectric plant in the world.PowerPoint Presentation: Penstocks Spillway Powerhouse Dam Control Building 1 2 3 4 5 6 7 8 9 10 UnitsPowerPoint Presentation: General ViewPowerPoint Presentation: Penstocks Lines Spillway Powerhouse TransformersThe Accident – 2009 Aug 17: The Accident – 2009 Aug 17The accident: The accident At 08:13 local time (00:13 GMT) on 17 August 2009, the station suffered a catastrophic "pressure surge" in turbine known as a water hammer. The sudden water pressure surge resulted in the ejection of turbine 2 with all equipment, a total weight some 900 tons, from its seat. Turbines 7 and 9 also suffered from severe damage, while the turbine room roof fell on and damaged turbines 3, 4 and 5. Turbine 6, which was in scheduled repair at the time of accident, received only minor damage as it was the only one of the station's 10 turbines that did not receive electrical damage due to shorting of transformers, and it will be restarted as soon as possible. Water immediately flooded the engine and turbine rooms and caused a transformer explosion. On 23 August 2009 , authorities said 69 people were found dead while 6 people are still listed as missing. Efforts to pump flood water from the engine room and complete a search for the missing workmen are expected to take 3 to 8 days. http://en.wikipedia.org/wiki/2009_Sayano%E2%80%93Shushenskaya_hydroelectric_power_station_accidentBefore the Accident: Before the Accident Power Units Sump Tank Air-Oil Tanks Governor Pumps Generators floor CraneAfter the Accident: Generator floor After the Accident Air-Oil Tanks Sump Tank Crosshead – Unit 2 Colector Ring Unit 1 Unit 2 FloorPowerPoint Presentation: General View FloorPowerPoint Presentation: General ViewBefore the Accident: Before the Accident Generator Runner Generator Rotor – Unit 5 The accident started herePowerPoint Presentation: Crosshead Sump Tank (turned) Air-Oil TankPowerPoint Presentation: Unit 9: destroyed Unit 7: destroyedPowerPoint Presentation: Unit 9 Unit 7PowerPoint Presentation: The Powerhouse crane is above the assembly areaPowerPoint Presentation: Generator Upper Bearing Generator rotor Destroyed column Enclosed BusPowerPoint Presentation: The remains of the rotor spiderPowerPoint Presentation: Water + OilPowerPoint Presentation: Enclosed BusPowerPoint Presentation: Assembly Area Smaller Runner Generator’s Poles Crosshead Crane Downstream crane railPowerPoint Presentation: Transformer Roof BeamsPowerPoint Presentation: Roof RoofConsequences: Consequences 76 people dead. Question: By this number, maybe there was approx. 100 people in the Powerhouse. Normally, even during maintenance works, there aren't so many people. Why was there so many people?Consequences: Consequences It will cost at least $310 million. A long time to repair the damages. The production of more than 500,000 tons of aluminum will be lost. Oil slick is travelling down the river.Consequences: Consequences It is not clear how many people were potentially affected by the accident. The plant satisfied 10% of Siberia’s energy needs. Aluminum smelters consumed over 70% of the energy generated by the power plant.PowerPoint Presentation: Our main hypotheses about the sequence of the disaster: (Attention: Preliminary hypotheses based only on the pictures ) Sudden closing of the Unit 2 wicket gates. Heavy waterhammer in the spiral case and penstock, causing their collapse. Upward force, resulted from the waterhammer, destroying the civil structure over the spiral case and penstock. Pressure of the upstream water causing elevation of structures and peaces. Heavy reverse waterhammer (draft tube) causing elevation of the turbine cover, shaft, etc. Rapid flooding of the Powerhouse. Units 7 and 9, without closing, in runaway speed with the generators inside the flood water. 1 - CausesPowerPoint Presentation: Our main hypotheses about the cause of the sudden closing: A large piece entered in the turbine runner and stuck in it (could not pass the exit of the blades, which is of smaller dimensions). This piece turned with the runner and hit all the wicket gates, causing their sudden closing, at a fraction of a second. This piece could be: a log (passed by an opening in the trashrack), stay vane or wicket gate broke. Or (less probably): Rupture of the governor oil pipe in the closing side of the distributor servomotors (in this case, the orifice that controls the oil flow should be in the pipe and not in the body of the servomotors). Rupture in sequence of the wicket gates links; closing by hydraulic tendency. 2 - CausesPowerPoint Presentation: Unit 2 Units 7 and 9PowerPoint Presentation: Flood FloodPowerPoint Presentation: Seeking the victims Preliminary worksPowerPoint Presentation: Situation on Saturday 2009 Aug 22PowerPoint Presentation: Aparently the water is already drainedPowerPoint Presentation: Continuing the seeking of victims. and Finishing the cleaning of the debris. Completing the drainage of the water. Constructing a temporary roof (one week) and then a better one (two months or less) to protect against the winter (this will prevent new photos…). Recover the columns and beams supporting the rails of the Powerhouse Crane, to allow its use. Some Next StepsNews – August 21: News – August 21 NOVOSIBIRSK, August 21 (Itar-Tass) - The water level in the inundated turbine room of Sayano-Shushenskaya hydropower plant where the water pumping out was started on Thursday, decreased by 2 meters by Friday morning A total of more than 30 thousand cubic meters of water have been pumped out. It is necessary to pump out a total of 250 thousand cubic meters of water. Minister Sergei Shoigu earlier set the task to install additional pumps and thereby increase the volume of pumped out water to 4 thousand cubic meters per hour. “By increasing the capacity we will fulfill this task (water pumping out) in 32 hours,” the minister said. Thirteen pumps have been put into operation in the water pumping efforts at the plant. The debris clearing operation continues. According to latest reports, 4,650 cubic meters of reinforced concrete structures have been moved out from the hydroelectric station. At present, about 2 thousand people and 116 machinery units are engaged in the Sayano-Shusehnskaya HPP catastrophe liquidation efforts. http://itar-tass.com/eng/level2.html?NewsID=14255520&PageNum=0Some References: Some References http://www.dailymail.co.uk/news/worldnews/article-1207093/Accident-Russias-biggest-hydroelectric-plant-leaves-seven-workers-dead.html http://www.newsdaily.com/stories/tre57h1qb-us-russia-dam/ http://news.bbc.co.uk/2/hi/europe/8204860.stm http://englishrussia.com/?p=4853 http:// www.1tv.ru