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Crystal Springs Dam
Official name	Lower Crystal Springs Dam
Location	San Mateo County, California
Coordinates	37°31′43″N 122°21′44″W / 37.5285°N 122.3622°W / 37.5285; -122.3622
Opening date	1889; 136 years ago (1889)
Operator(s)	San Francisco Public Utilities Commission
Dam and spillways
Impounds	San Mateo Creek
Height	140 ft (43 m)
Length	600 ft (180 m)
Width (base)	40 ft (12 m)
Reservoir
Creates	Crystal Springs Reservoir
Total capacity	57,910 acre⋅ft (71,430,000 m)
Catchment area	29.4 sq mi (76 km)
Surface area	1,323 acres (5.35 km)

Crystal Springs Dam is a concrete gravity dam constructed across the San Mateo Creek in San Mateo County, California. It impounds water in a rift valley created by the San Andreas Fault to form the . The dam itself is located about 1,100 feet (340 m) east of the fault. The dam is owned and operated by the San Francisco Public Utilities Commission, and stores drinking water for the City of San Francisco. The current dam is 140 feet high with a crest length of 600 feet.

It was first mass concrete gravity dam built in the United States. Upon its completion, it became the largest concrete structure in the world and the tallest dam in the United States. A 2024 review by ASCE and the Institution of Civil Engineers in Great Britain indicated that it is likely the oldest mass concrete dam in the world. Construction techniques used at the dam, including washing aggregate and staggered joints, influenced the development of future gravity dams, such as Hoover Dam and Grand Coulee Dam. In December 2023, it was recognized as a National Historic Civil Engineering Landmark by the American Society of Civil Engineers (ASCE).

The dam has undergone multiple repairs and improvemnts throughout its lifetime, and has survived both the 1906 San Francisco earthquake and the 1989 Loma Prieta earthquake with minimal damage, despite being located approximately 1,100 feet (340 m) from the San Andreas Fault.

Background

Spring Valley Water Works, the private utilities corporation that eventually developed the Crystal Springs Dam, was formed in 1858 to provide the rapidly expanding port city of San Francisco with a reliable water source. Under the leadership of George Ensign, a prominent land baron, it quickly established a monopoly on the San Francisco water market. Quickly understanding that any potential water source would have to come outside of the naturally barren city limits, Ensign turned towards adjacent San Mateo County, along with its largely undeveloped mountains and streams. Over the next three decades, Spring Valley Water Works constructed a variety of conduits, dams, and tunnels to connect the San Andreas Valley watershed to San Francisco. Despite this, there was still a desire for a larger reservoir to ensure that San Francisco had a more reliable long-term water source.

Hermann Schussler, a German immigrant who moved to California in 1864 as a civil engineer, quickly rose the ranks to become Chief Engineer of the Spring Valley Water Company. Cognizant of the growing desire for a reservoir, Schussler encouraged the company to acquire as much watershed property as possible. By the time Schussler began considering the development of a dam to impound the San Mateo Creek, the Company had already acquired over 100,000 acres (400 km) of prime property across the San Francisco Peninsula.

The location of the proposed dam site had its benefits and disadvantages: located in a 700 feet (210 m) valley formed by San Mateo Creek, sandstone cliff walls rose over 200 feet (61 m) from the creekbed. The dam encloses a larger valley that spreads outwards both east and west of the dam itself. Schussler's initial design created a lake approximately 9 miles (14 km) long. Geological testing was conducted using boring techniques, which showed that the valley was favorable for the dam's construction: the foundation was hard sandstone that contained no cracks nor fissures.

Construction

Schussler's designs called for a projected height of 140 feet (43 m). At the time there were only 17 constructed dams in the world taller than 95 feet (29 m), and all were located outside the United States. A majority of these dams were either rock-filled or earth-filled dams. This approach, however, could not work for Schussler's design, as there were no suitable quarries to procure materials from. However, during the search for quarry sites, a large outcrop of indurated sandstone was located, especially conducive for concrete. As such, Schussler switched to a design using mass concrete blocks.

At the time, the United States had no large-scale manufacturer of cement, leading to Portland cement being transported via ship to San Francisco from Swanscombe, England, which at the time was the biggest Portland cement manufacturing plant in the United Kingdom, before being sent via rail to San Mateo. Sand was brought in from San Francisco beaches via ship to Coyote Point Wharf, before using a team of horse-led wagons to bring the sand up to the canyon construction site. In total, almost a million barrels of sand were used in the construction of the dam.

The dam was constructed by separately pouring large blocks of the structure in place, and allowing them to set before pouring the adjoining blocks. This enabled the blocks to set and harden individually, while also ensuring that the concrete would not crack during the curing process. An important design feature is that neither the horizontal nor the vertical joints line up. This helps the structure act as a single monolithic construction despite being made of thousands of individual blocks, while also enhancing its structural stability.

Schussler ensured that each block of the dam was poured with concrete made to the exact proportions of his mix specifications.

The structure was completed in 1889 at a height of 120 feet (37 m). However, a wet winter in 1889-1890 caused the dam to overflow, leading to an addition to bring the total height of the dam to 145 feet (44 m), making it the tallest dam in the United States at the time. At the time of its completion, with 157,000 cubic yards (120,000 m) of concrete, it was the largest concrete structure in the world.

In 1976, the dam was designated as a California Historic Civil Engineering Landmark by the American Society of Civil Engineers (ASCE). The dam was later designated as a National Historic Civil Engineering Landmark by ASCE in 2023.

Operations and repairs

Two outlet towers were constructed near the dam, the first being built in 1891. The Crystal Springs Pump Station was built alongside the dam and gatehouse, and was designed to pump up water from the Crystal Springs Reservoir to nearby San Andreas Lake, where it could thereafter be distributed across San Fransisco. Upon completion, the outlet works had a flow capacity of 25 million gallons per day. A public funding grant from the City of San Fransisco in 1933 intended to develop and expand the Hetch Hetchy Project led to repairs and upgrades to the pump station, enabling it to pump a maximum of 70 million gallons per day to San Andreas Reservoir.

Before the construction of the original Crystal Springs Bypass Tunnel in 1969, Crystal Springs Dam was the penultimate destination for Hetch Hetchy water before being distributed. Currently, the dam impounds a combination of Hetch Hetchy water and water from its own catchment area.

The San Francisco Public Utilities Commission, who owns the 23,000 acre watershed of the reservoir,began the process of renovating the dam in 2003. A major step in the renovation process, doubling the width of the main spillway and raising the dam to increase the water storage capacity, was completed in 2012. The renovations, which are intended to improve the reliability of the system in the event of an earthquake, were completed in 2016. Skyline Boulevard, the road on top of the dam, was closed for the construction of a new replacement bridge in October 2010. Along with the replacement bridge, the parapet wall was raised by nine feet, the dam's spillway was widened, and power lines were relocated to the underside of the bridge. Construction completed in late 2018 and the roadway was reopened in January 2019.

Earthquake risks

The dam is classified with an "Extremely High" downstream hazard rating by the California Department of Water Resources in the event of a breach.

• Crystal Springs Dam and Crystal Springs Pump Station, viewed from downstream.
• Lower Crystal Springs Reservoir, formed by Crystal Springs Dam.
• Aerial view of the Crystal Springs Reservoir from the southeast.
• View from under the California State Route 35 roadway that was added atop the dam

See also

• List of dams and reservoirs in California

References

1. ^ Magura, Lawrence M. (2024-03-01). "A Concrete Dam for the Ages". Civil Engineering Magazine Archive. 94 (2): 32–37. doi:10.1061/ciegag.0001712.
2. "Spring Valley Water Company - FoundSF". www.foundsf.org. Retrieved 2024-11-29.
3. ^ "Scientific American Volume 79, Issue 25". Scientific American. 1898-12-17. Retrieved 2024-11-30.
4. Schussler, Hermann (1909). The Water Supply of San Francisco. Journal of Electricity, Power and Gas.
5. "Cement Kilns: John Bazley White & Brothers". www.cementkilns.co.uk. Retrieved 2024-11-30.
6. ^ Svanevik, Michael; Burgett, Shirley (2001). San Mateo County parks : a remarkable story of extraordinary places and the people who built them. Internet Archive. Menlo Park, Calif. : San Mateo County Parks and Recreation Foundation. p. 27. ISBN 978-1-881529-67-5.
7. "Peninsula's Bridge Open May 28". San Francisco Examiner. May 11, 1969. Retrieved 12 May 2021.
8. Bohan, Suzanne (14 April 2006). "Water System Vulnerable Then And Now". East Bay Times. Retrieved 30 January 2021.
9. Lopez, Sierra (7 December 2023). "San Mateo County's Crystal Springs Dam receives National Historic Engineering Landmark status". San Mateo Daily Journal. Retrieved 3 December 2024.
10. Hanson, Warren D. (1994). San Francisco water and power : a history of the Municipal Water Department and Hetch Hetchy system. San Francisco Public Library. . pp. 16–17.
11. Bay City News (14 January 2019). "Roadway atop Crystal Springs Dam reopens after 8-year project". San Francisco Examiner. Archived from the original on 14 January 2019. Retrieved 17 March 2019.
12. "Web Map Viewer". fmds.water.ca.gov. Retrieved 2024-12-31.

• Department of Water Resources (2009). "Station Meta Data: Lower Crystal Springs Dam (CRY)". California Data Exchange Center. State of California. Retrieved 2009-04-01.
• "Crystal Spring Dam". Geographic Names Information System. United States Geological Survey, United States Department of the Interior. 19 Jan 1981. Retrieved 2009-06-11.
• U.S. Geological Survey (24 November 2003). "Crystal Springs Reservoir". U.S. Department of the Interior. Archived from the original on December 6, 2008. Retrieved 2009-04-01.
• Ron Horii (1 October 2003). "Bay Area Biking: Crystal Springs Trails". Bay Area Back Page. Archived from the original on 12 October 2000. Retrieved 2009-04-01.

Further reading

• Postel, Mitchell (1994). San Mateo: A Centennial History. San Francisco: Scottwall Associates, Publishers. ISBN 0-942087-08-9.

External links

• San Francisco Public Utilities Commission
• SFPUC Project Description
• San Mateo County History Museum

• Buildings and structures in San Mateo County, California
• Dams in California
• Hetch Hetchy Project
• Dams completed in 1889
• Historic Civil Engineering Landmarks