logging in or signing up Water Natalia Download Post to : URL : Related Presentations : Share Add to Flag Embed Email Send to Blogs and Networks Add to Channel Uploaded from authorPOINTLite 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: 1434 Category: Entertainment License: All Rights Reserved Like it (2) Dislike it (0) Added: October 29, 2007 This Presentation is Public Favorites: 2 Presentation Description No description available. Comments Posting comment... Premium member Presentation Transcript Slide1: A Conversation about California Water Management: Past, Present and Future John A. Dracup Professor of the Graduate School Department of Civil and Environmental Engineering University of California, Berkeley Science Cafe Series @ Cafe Royale San Francisco, California Tuesday, August 21, 2007Outline: Outline The Past The Present The Future A Summary Outline: Outline The past: How California’s major water projects developed over time. Slide4: The evolution of California’s Major Water Projects Source: DWR web page Slide5: Los Angeles Aqueduct- Mono Lake and Owens Valley Municipal Supply for the city of Los Angeles Two Aqueducts (1913 and 1970) Total capacity: 775 ft3/s Length: 223 and 137 miles Combination of channels, conduits, pipelines and tunnels Jawbone Siphon - Owens Valley Aqueduct Slide6: Source: DWR web page The evolution of California’s Major Water Projects Slide7: Central Valley Project (CVP) Multi-purpose Project: Irrigation Municipal, and Industrial Water Recreation and Fish and Wildlife Hydroelectric Power Flood Control Water Quality Integrated Federal scheme of reservoirs, dams, canals, power plants, etc. Started in 1937 Shasta DamSlide8: Source: DWR web page The evolution of California’s Major Water Projects Slide9: Colorado River Aqueduct Colorado River Basin Area: 242,900 sq mi (629,100 km²) Grand CanyonSlide10: Colorado River Aqueduct Completed in 1941 Municipal & Industrial use for MWD service areas (other cities than LA in So. Cal.) Length: 240 miles (386 km) Capacity: 1.3 MAF/year Campaign to raise fundsSlide11: Source: DWR web page The evolution of California’s Major Water ProjectsSlide12: State Water Project (SWP) The SWP is the nation's largest state-built water and power development and conveyance system Operated by the California DWR Supplies water for 23 million Californians and 755,000 acres of irrigated farmland Slide13: Source: DWR web page The evolution of California’s Major Water Projects Slide14: San Francisco Supply Provides water to 2.4 million people in San Francisco, Santa Clara, Alameda and San Mateo counties Completed in 1934 Hetch Hetchy ReservoirSlide15: San Francisco Supply Tuolomne RiverSlide16: East Bay Municipal Utility District (EBMUD) Network of reservoirs, aqueducts, treatment plants, and distribution facilities Extends from its principal water source, the Mokelumne River Basin in the Sierra Nevada range, 90 miles to the East of the Bay Area Main Water Treatment Facility & Cogeneration PlantOutline: Outline The Past The Present The Future A Summary Sources and Supply (in hm3/yr and percentage): Sources and Supply (in hm3/yr and percentage) Source: California Water Plan, 1998 Demand and Uses: Demand and Uses Urban: 15.4% Agriculture: 50.1% Environmental: 31.1% Other 2.8%Slide20: Robust Matrix: Meeting the Needs Source: California Water Plan (2005 Update)Slide21: California Water Supply/Demand Imbalance 20 million Californians have the right to vote to move the water from North to South Slide22: California Water Plan (2005 Update) “Over the past 50 years, we have been able to meet our water demands primarily through an extensive network of water storage and conveyance facilities, groundwater development, and, more recently, by improving water use efficiency”Slide23: Groundwater Management Groundwater Basins Map Current System Slide24: Groundwater Management Status of Groundwater Management Current System Sustainable Groundwater Management: Sustainable Groundwater Management “Sustainable yield” concept Reduce and eliminate overdraft Monitoring quantity (well and basin metering) and quality (protect aquifers from contamination) Explore new treatment technologies for remediation Slide26: Conjunctive Use Current System Operation of a groundwater basin in coordination with a surface water system to increase total water supply availability, improving the overall reliability of supplies - Recharge in years of above-average precipitation - Groundwater extraction in years of below-average precipitation when surface water supplies are below normal Pioneering Water Use Efficiency: Water pricing in California: Pioneering Water Use Efficiency: Water pricing in California Urban prices: City of Los Angeles, $3.30 per 1000 gallons = 0.91¢/m3 Agricultural prices: MWD of Southern California, $241 per acre-foot = 0.21¢/m3 Pioneering Water Efficiency: Urban use in City of LA: Pioneering Water Efficiency: Urban use in City of LA 1970 to present: 35% increase in population – 7% increase in water use Rebates for low water use clothes washers & toilets 1.5 million bathroom retrofit kits distributed Teacher water conservation workshops Xeriscape water saving landscapes Outline: Outline The Past & Present The Future A Summary Outline: Outline The Future: Challenges Integrated Water Management Water conservation Drought-Proofing Challenges are more complex: Challenges are more complex Population increases Demand patterns shift Environmental needs are better understood Climate change effects become more evident “It is not the strongest of the species that survives, nor the most intelligent that survives. It is the one that is the most adaptable to change.” Charles Darwin (1809-1882)Integrated Water Management in Action: Integrated Water Management in Action Water conservation Retrofitting: low flow showers & toilets Public education Water use efficiency Leak reduction Water recycling “Drought-proofing” & “drought preparedness” Off-stream storage Urban & Agricultural water pricing Metering of urban households & irrigation wells Source: California Water Plan (Update 2005) DWR web page: http://www.waterplan.water.ca.gov/cwpu2005/index.cfmWater Recycling: in Southern California Water Recycling Water Factory 21: Water Recycling Facility Secondary recycled water is injected into the coastal aquifer, replenishing the aquifer and creating a barrier for seawater intrusion Water Factory 21Sustainable Irrigation Regulated Deficit Irrigation (RDI) : RDI limits vegetative growth and enhances water use efficiency for crop production Uses no more water than is available on a recurring basis from rainfall over a catchment Great potential to contribute to an increasingly water-efficient horticulture Validated on both fruit crops and wine grapes (quality improvement) Pioneered in Australia Sustainable Irrigation Regulated Deficit Irrigation (RDI) “Off-line” Storage: “Off-line” Storage Diamond Valley Reservoir (MWD) Water Conservation 60% of “new” water sources: Water Conservation 60% of “new” water sources California Water Plan (2005 Update), DWR Water Conservation EBMUD Program: Water Conservation EBMUD Program Clothes washer, toilet and landscape rebates Water usage studies and surveys Leak repairs Recycled water projects Public education, workshops and marketing East Bay Municipal Utility District (EBMUD) Fiscal Year 2005 Annual ReportSlide38: East Bay Municipal Utility District (EBMUD) Fiscal Year 2005 Annual Report Water Conservation EBMUD Program: “Decoupling” DemandOutline: Outline The Present The Future Conclusions Conclusions: Conclusions California water system is highly dependent on large scale water transfers/reservoirs and conjunctive use Under future climate conditions, flexible systems “allow management adjustments or midcourse corrections without causing major economic and social disruptions” Conclusions: Conclusions Aggressive water conservation and recycling methods are effective in reducing water demands Water conservation incorporates flexibility and adaptability into our system Conclusions: Conclusions Even though CA has been promoting aggressive water conservation programs, a great part of the additional future water will come from this source THANK YOU QUESTIONS?: THANK YOU QUESTIONS? dracup@ce.berkeley.eduDealing with Droughts: Dealing with Droughts California: Last Major Drought 1987-1992: California: Last Major Drought 1987-1992 Most severe drought on record At peak, 155 CA reservoirs at ½ capacity Marina at Folsom Lake (near Sacramento), Oct. 1992Drought-Proofing: Drought-Proofing “Long-Term Drought Preparedness Planning” Multi-year operations strategies for the large-scale water schemes (transfers/reservoir systems) Local assistance actions (funding, monitoring) Response Plans for Dry Periods & Drought Events State water actions and local assistance actions for “Water year one” and “Early water year two” Integrated Water Management Generics: Integrated Water Management Generics Source: California Water Plan (2005 Update) You do not have the permission to view this presentation. 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Water Natalia Download Post to : URL : Related Presentations : Share Add to Flag Embed Email Send to Blogs and Networks Add to Channel Uploaded from authorPOINTLite 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: 1434 Category: Entertainment License: All Rights Reserved Like it (2) Dislike it (0) Added: October 29, 2007 This Presentation is Public Favorites: 2 Presentation Description No description available. Comments Posting comment... Premium member Presentation Transcript Slide1: A Conversation about California Water Management: Past, Present and Future John A. Dracup Professor of the Graduate School Department of Civil and Environmental Engineering University of California, Berkeley Science Cafe Series @ Cafe Royale San Francisco, California Tuesday, August 21, 2007Outline: Outline The Past The Present The Future A Summary Outline: Outline The past: How California’s major water projects developed over time. Slide4: The evolution of California’s Major Water Projects Source: DWR web page Slide5: Los Angeles Aqueduct- Mono Lake and Owens Valley Municipal Supply for the city of Los Angeles Two Aqueducts (1913 and 1970) Total capacity: 775 ft3/s Length: 223 and 137 miles Combination of channels, conduits, pipelines and tunnels Jawbone Siphon - Owens Valley Aqueduct Slide6: Source: DWR web page The evolution of California’s Major Water Projects Slide7: Central Valley Project (CVP) Multi-purpose Project: Irrigation Municipal, and Industrial Water Recreation and Fish and Wildlife Hydroelectric Power Flood Control Water Quality Integrated Federal scheme of reservoirs, dams, canals, power plants, etc. Started in 1937 Shasta DamSlide8: Source: DWR web page The evolution of California’s Major Water Projects Slide9: Colorado River Aqueduct Colorado River Basin Area: 242,900 sq mi (629,100 km²) Grand CanyonSlide10: Colorado River Aqueduct Completed in 1941 Municipal & Industrial use for MWD service areas (other cities than LA in So. Cal.) Length: 240 miles (386 km) Capacity: 1.3 MAF/year Campaign to raise fundsSlide11: Source: DWR web page The evolution of California’s Major Water ProjectsSlide12: State Water Project (SWP) The SWP is the nation's largest state-built water and power development and conveyance system Operated by the California DWR Supplies water for 23 million Californians and 755,000 acres of irrigated farmland Slide13: Source: DWR web page The evolution of California’s Major Water Projects Slide14: San Francisco Supply Provides water to 2.4 million people in San Francisco, Santa Clara, Alameda and San Mateo counties Completed in 1934 Hetch Hetchy ReservoirSlide15: San Francisco Supply Tuolomne RiverSlide16: East Bay Municipal Utility District (EBMUD) Network of reservoirs, aqueducts, treatment plants, and distribution facilities Extends from its principal water source, the Mokelumne River Basin in the Sierra Nevada range, 90 miles to the East of the Bay Area Main Water Treatment Facility & Cogeneration PlantOutline: Outline The Past The Present The Future A Summary Sources and Supply (in hm3/yr and percentage): Sources and Supply (in hm3/yr and percentage) Source: California Water Plan, 1998 Demand and Uses: Demand and Uses Urban: 15.4% Agriculture: 50.1% Environmental: 31.1% Other 2.8%Slide20: Robust Matrix: Meeting the Needs Source: California Water Plan (2005 Update)Slide21: California Water Supply/Demand Imbalance 20 million Californians have the right to vote to move the water from North to South Slide22: California Water Plan (2005 Update) “Over the past 50 years, we have been able to meet our water demands primarily through an extensive network of water storage and conveyance facilities, groundwater development, and, more recently, by improving water use efficiency”Slide23: Groundwater Management Groundwater Basins Map Current System Slide24: Groundwater Management Status of Groundwater Management Current System Sustainable Groundwater Management: Sustainable Groundwater Management “Sustainable yield” concept Reduce and eliminate overdraft Monitoring quantity (well and basin metering) and quality (protect aquifers from contamination) Explore new treatment technologies for remediation Slide26: Conjunctive Use Current System Operation of a groundwater basin in coordination with a surface water system to increase total water supply availability, improving the overall reliability of supplies - Recharge in years of above-average precipitation - Groundwater extraction in years of below-average precipitation when surface water supplies are below normal Pioneering Water Use Efficiency: Water pricing in California: Pioneering Water Use Efficiency: Water pricing in California Urban prices: City of Los Angeles, $3.30 per 1000 gallons = 0.91¢/m3 Agricultural prices: MWD of Southern California, $241 per acre-foot = 0.21¢/m3 Pioneering Water Efficiency: Urban use in City of LA: Pioneering Water Efficiency: Urban use in City of LA 1970 to present: 35% increase in population – 7% increase in water use Rebates for low water use clothes washers & toilets 1.5 million bathroom retrofit kits distributed Teacher water conservation workshops Xeriscape water saving landscapes Outline: Outline The Past & Present The Future A Summary Outline: Outline The Future: Challenges Integrated Water Management Water conservation Drought-Proofing Challenges are more complex: Challenges are more complex Population increases Demand patterns shift Environmental needs are better understood Climate change effects become more evident “It is not the strongest of the species that survives, nor the most intelligent that survives. It is the one that is the most adaptable to change.” Charles Darwin (1809-1882)Integrated Water Management in Action: Integrated Water Management in Action Water conservation Retrofitting: low flow showers & toilets Public education Water use efficiency Leak reduction Water recycling “Drought-proofing” & “drought preparedness” Off-stream storage Urban & Agricultural water pricing Metering of urban households & irrigation wells Source: California Water Plan (Update 2005) DWR web page: http://www.waterplan.water.ca.gov/cwpu2005/index.cfmWater Recycling: in Southern California Water Recycling Water Factory 21: Water Recycling Facility Secondary recycled water is injected into the coastal aquifer, replenishing the aquifer and creating a barrier for seawater intrusion Water Factory 21Sustainable Irrigation Regulated Deficit Irrigation (RDI) : RDI limits vegetative growth and enhances water use efficiency for crop production Uses no more water than is available on a recurring basis from rainfall over a catchment Great potential to contribute to an increasingly water-efficient horticulture Validated on both fruit crops and wine grapes (quality improvement) Pioneered in Australia Sustainable Irrigation Regulated Deficit Irrigation (RDI) “Off-line” Storage: “Off-line” Storage Diamond Valley Reservoir (MWD) Water Conservation 60% of “new” water sources: Water Conservation 60% of “new” water sources California Water Plan (2005 Update), DWR Water Conservation EBMUD Program: Water Conservation EBMUD Program Clothes washer, toilet and landscape rebates Water usage studies and surveys Leak repairs Recycled water projects Public education, workshops and marketing East Bay Municipal Utility District (EBMUD) Fiscal Year 2005 Annual ReportSlide38: East Bay Municipal Utility District (EBMUD) Fiscal Year 2005 Annual Report Water Conservation EBMUD Program: “Decoupling” DemandOutline: Outline The Present The Future Conclusions Conclusions: Conclusions California water system is highly dependent on large scale water transfers/reservoirs and conjunctive use Under future climate conditions, flexible systems “allow management adjustments or midcourse corrections without causing major economic and social disruptions” Conclusions: Conclusions Aggressive water conservation and recycling methods are effective in reducing water demands Water conservation incorporates flexibility and adaptability into our system Conclusions: Conclusions Even though CA has been promoting aggressive water conservation programs, a great part of the additional future water will come from this source THANK YOU QUESTIONS?: THANK YOU QUESTIONS? dracup@ce.berkeley.eduDealing with Droughts: Dealing with Droughts California: Last Major Drought 1987-1992: California: Last Major Drought 1987-1992 Most severe drought on record At peak, 155 CA reservoirs at ½ capacity Marina at Folsom Lake (near Sacramento), Oct. 1992Drought-Proofing: Drought-Proofing “Long-Term Drought Preparedness Planning” Multi-year operations strategies for the large-scale water schemes (transfers/reservoir systems) Local assistance actions (funding, monitoring) Response Plans for Dry Periods & Drought Events State water actions and local assistance actions for “Water year one” and “Early water year two” Integrated Water Management Generics: Integrated Water Management Generics Source: California Water Plan (2005 Update)