Gas Works Park
Gas Works Park in
Seattle, Washingtonis a 19.1 acre (77,000 m²) public parkon the site of the former Seattle Gas Light Company gasification plant, located on the north shore of Lake Unionat the south end of the Wallingford neighborhood. Gas Works park contains remnants of the sole remaining coal gasification plant in the US. The plant, which operated from 1906 to 1956, was purchased by the City of Seattle for park purposes in 1962, and the park was opened to the public in 1975. The park was designed by Seattle landscape architect Richard Haag, who won the American Society of Landscape Architects Presidents Award of Design Excellence for this project. It was originally named Myrtle Edwards Park after the city councilwoman who had spearheaded the drive to acquire the site and who died in a car crash in 1969. In 1972 the Edwards family requested that her name be taken off the park because the design called for the retention of much of the plant. In 1976, Elliott Bay Park was renamed Myrtle Edwards Park.
Gas Works Park incorporates numerous pieces of the old plant. Some stand as ruins, while others have been reconditioned, painted, and incorporated into a children's "play barn" structure, constructed in part from what was the plant's exhauster-compressor building. A Web site affiliated with "
The Seattle Times" newspaper says, "Gas Works Park is easily the strangest park in Seattle, and may rank among the strangest in the world."
Gas Works Park also features an artificial kite-flying hill with an elaborately sculptured
sundialbuilt into its summit. The park was for many years the exclusive site of a summer series of "Peace Concerts." [http://www.seapeace.org/] These concerts are now shared out among several Seattle parks. The park also hosts one of Seattle's two major Fourth of July fireworksevents. The park is the traditional end point of the Solstice Cyclistsand the start point for Seattle's World Naked Bike Ride.
The park originally constituted one end of the Burke-Gilman bicycle and foot trail, laid out along the abandoned right-of-way of the
Seattle, Lake Shore and Eastern Railway. However, the trail has now been extended several kilometers northwest, past the Fremont neighborhood towards Ballard.
Because it is built on a former industrial site, the soil and groundwater on the site was contaminated. The 1971 Master Plan called for "cleaning and greening" the site through bio-phyto-remediation. Although the presence of organic pollutants had been substantially reduced by the mid 1980s the US Environmental Protection Agency and Washington State Department of Ecology required additional measures including removing and capping wastes, and air sparging in the Southeast portion of the site to attempt to remove benzene that was a theoretical source of pollutants reaching Lake Union via ground water. There are no known areas of surface soil contamination remaining on the site today, although tar occasionally still oozes from some locations within the site and is isolated and removed.
Despite its somewhat isolated location, the park has been the site of numerous political rallies. Among these was a seven-month continuous vigil under the name PeaceWorks Park, in opposition to the
Gulf War. The vigil began at a peace concert in August 1990 and continued until after the end of the shooting war. Among the people who participated in the vigil at one point or another were former congressman and future governor Mike Lowry, then-city-councilperson Sue Donaldson, sixties icon Timothy Leary, and beat poet Allen Ginsberg.
Gas Works Park has been a setting for films, such as "Singles" and "
10 Things I Hate About You". It has been featured twice on the travel-based television reality show " The Amazing Race"--once as the finish line for Season 3 and another time as the starting line for Season 10.
The building is on the
National Register of Historic Placesand is also a Seattle City Landmark. [ [https://www.cityofseattle.gov/neighborhoods/preservation/g.htm Landmarks Alphabetical Listing for G] , Individual Landmarks, Department of Neighborhoods, City of Seattle. Accessed 28 December 2007.]
Gas Works Park occupies a 20.5 acre (8.3 ha) promontory between the northwest and northeast arms of Lake Union (Figures 1,2, and 3). Little is known of pre–Euro-American site history, but there were Native American settlements around Lake Union. Native names for Lake Union include "Kah-chug", "Tenas Chuck", and "Xa’ten". In the mid-1800s
Thomas Mercernamed it “Lake Union” in expectation of future canals linking it to Puget Soundand to Lake Washington. Dense forests still came down to the water’s edge and the lake drained into Salmon Baythrough a stream “full of windfalls and brush, impassable even for a canoe”. (Bass 1947, p33) Lake Union in the 1860-70s was a popular vacation spot with Seattleites for summer house-boating and picnicking.
Several sawmills were operating on Lake Union's shore by the 1850s, taking advantage of the dense forests. Beginning in 1872, Seattle Coal and Transportation Company ferried coal from its Renton Hill mines across the lake for portage across to Puget Sound. In the 1880s came the Denny sawmill at the south end of Lake Union, brick manufacturing, ship building, a tannery, and iron works. Canals with small locks were cut in 1885 from Lake Washington to Lake Union, and from Lake Union to Salmon Bay. These were suitable for transporting logs, but not for shipping. The arrival of the
Seattle, Lake Shore and Eastern Railwayin 1887 ensured that Lake Union would continue to be a focus for industrial development. In 1900 the Seattle Gas Light Companybegan to purchase lots on this promontory (Secrist, Title Search) and its coal gasplant went into operation in 1906.
Seattle Gas Light Company purchased lots on the north shore promontory from 1900 to 1909. Despite the fact that the land was being acquired by the gas company, the
Olmsted Brothersin 1903 recommended that “…the point of land between the northeast and northwest arms of Lake Union and the railroad should be secured as a local park, because of its advantages for commanding views over the lake and for boating, and for a playground.” (Olmsted Brothers 1903, p 47)
Virgil Bogueproduced a civic master plan for Seattle’s Municipal Plans Commission in which he promoted the idea of Lake Union as an industrial area: “The fact that (Lake Union) is located in the very heart of the city indicates that if properly developed it will become a most important factor in the commercial and business activities of the city.” (Seattle Municipal Plans Commission 1911, p. 78) Completion of the Lake Washington Ship Canal and Ballard locks in 1917 guaranteed the success of shipping and shipbuilding industries on Lake Union and thus of the Bogue vision, despite the fact that his plan was defeated by voters.
The Lake Station gas manufacturing plant on Lake Union was the largest private utility then existing in Seattle. It operated as “Seattle Lighting Company” until 1930, when the name was changed to “Seattle Gas Company”. Its primary product was illuminating gas (so-called because it was used for lighting) manufactured from coal. The gas was later also used for cooking, refrigeration, and heating homes and water. It was also called city gas to distinguish it from
natural gas. The gas was made from coal up to 1937 when the high cost of operating the old coke oven and coal-gas generating sets forced a change-over to oil. A pair of oil-to-gas generators was built in 1937 and the old coal-gas facilities were disassembled. In 1946-47, two more oil gas generator pairs were constructed to keep up with demand for gas. Since by-products from gas manufacturing had strong markets of their own, new equipment was installed at the same time to produce “Gasco charcoal briquets”, toluene, solvent naphtha, sulfur, xylene, and resin tar.
Primary manufacturing and support facilities consisted of storage tanks, boiler house, pump and compressors house, offices, and laboratories. Onsite support included electrical, carpentry, machine, blacksmith, and welding shops. Additional facilities included a stable, first aid stations, and a
foamitehouse for storing fire control materials. Running through the north portion of the site was Burlington Northern Railroad’s convert|50|ft|m|abbr=on-wide right-of-way. Train trestles from the coal days were still in place in front of the laboratories and offices building.
By 1954, the Lake Station plant used 1,071 miles (1,724 km) of
gas mainto serve Seattle, Renton, Kent and Tukwila. The plant served approximately 43,198 customers in 1940, decreasing to 36,200 in 1954. The company averaged about 130 employees, with four crews of 23 men per shift, rotating 24 hours a day on a 7 day run. Production of city gas ended in 1956 when Seattle converted to natural gas.
Present appearance and characteristics
Though gas production ceased in 1956, the buildings and manufacturing structures were still intact in 1962 when the City of Seattle began purchasing the abandoned gas works. The $1,340,000 purchase price was provided by
Forward Thrustbonds, and H.U.D. payments were made from 1962 to 1972, and the debt was retired.
During this period there was a considerable public discussion about whether the site should be developed or made into a park. Park advocates led by
Myrtle Edwardsprevailed. In 1970, Richard Haag Associates (RHA) were retained by the Seattle Park Board to do a site analysisand master plan for a new park at the gas plant site (Figure 4). RHA opened an on-site office to research and analyze the plant site. Richard Haag realized that the site contained the last gas works and a unique opportunity for preservation. Haag recommended preservation of portions of the plant for its “historic, esthetic and utilitarian value”. (Master Plan, April 1971) After an intense public appeal to convince the public of the value of the plant, RHA’s 1971 master plan for an industrial preservation park was unanimously approved by the Park Board. The proposal centered on recycling the buildings, production structures, machinery and even the grounds themselves. Through bio-phyto-remediation techniques the soil and water would be “cleaned and greened”. Through preservation and adaptive re-use of key structures, the rich history of the site, and thus of an important aspect of Seattle, would be preserved and revealed. The preserved and/or adapted structures are shown shaded in black in Figure 5 with their new names, and Figure 6 shows the park structures and overall topography.
The abandoned gas-production plant and its land were deeded to the City of Seattle in 1973, the same year Gas Works Park (GWP) opened to the public. The park site consists of 20.5 acres of land projecting convert|400|ft|m into Lake Union with 1900 feet (580 m) of shoreline. The site is bordered by Northlake Avenue at the north and abuts Lake Union on the East and South. The Wallingford neighborhood sits to the North. Immediately adjacent to the park are remnants of the industrial development of the area. The industrial dominance is rapidly being replaced by retail development. North of 40th Ave. the area is predominantly a residential neighborhood.
The park is entered through a landscaped parking area or through the Burke-Gilman Trail, a bike and walking path which connects Puget Sound to Lake Washington. Dividing the parking area from the park is a grassy berm and rows of trees demarcating the old railroad right of way. The park is composed of seven areas: Earth Mound, North Lawn, Towers, Prow, Picnic Lawn and Shelter, Play Barn, and South Lawn (Figure 7). The Earth Mound, Prow, and Lawns are open areas intended for passive and active recreation, and offer magnificent views. The Towers, Play Barn, and Picnic Shelter are adapted from the original manufacturing structures.
The earth mound
Part of the master plan, known as the “Great Mound”, this hill was molded out of thousands of cubic yards of rubble from building foundations covered with fresh topsoil. The
sundialat the top of the mound was created by two local artists, Chuck Greening and Kim Lazare. Formed out of concrete and delineated with rocks, shells, glass, bronze and many other materials the sundial tells time by using the body of the visitor as stylus. The viewer’s shadow tells the time of day and the season.
The north and south lawns and picnic lawn
Soil has been bioremediated with 18” of sewage sludge and sawdust. This process has decontaminated the soil and allowed for the growth of field grass which makes possible constant, hard use with low maintenance.
There are two groups: 1) six synthetic natural gas generator towers with their attendant processing towers, and 2) oil absorber and oil cooler (between the Play Barn and the generators). The generators operated in pairs and were built at different times.
(A): Towers 1 and 2 (largest and closest to the lake) are Semet-Solvay–type generators built in 1937-38. Each has a single outer shell made of welded steel lined inside with refractory brick. Tower 1 is 80 ft (24 m) and Tower 2 is 75 ft (23 m) tall. At their peak they could manufacture 6 million cubic feet (170,000 m³) of gas a day.
B): Towers 3 and 4 were built in 1947, Towers 5 and 6 (northern-most), in 1947. They have the same brick inner shell and welded-steel outer shell construction as Towers 1 and 2, but are smaller. All four towers have an outer diameter of 22 feet (6.7 m) and are 50 feet (15 m) tall. The brick liner has an inside diameter of 20 feet (6.1 m) and is 33½ feet (10.2 m) high. The outer shells are equipped with nozzles for pipe and instrument connections, access doors, air blast doors, gas outlets, and sight holes. The towers rest on concrete pedestals. (Blueprints, 1945-46).
Wash boxes and scrubbers associated with generators 3-6 were also built in 1946-47. The small tanks (10 ft diameter, convert|11|ft|m|abbr=on tall, each mounted on three supporting legs) next to the generators are wash boxes, one per generator. For each pair of wash boxes there is one primary scrubber that rests on a concrete pedestal and stands convert|48|ft|m|abbr=on tall (11.5 ft diameter). The output from the two primary scrubbers goes into the single secondary scrubber of welded steel construction (12 ft diameter, convert|68|ft|m|abbr=on tall). Farthest from the generators are two small tanks (about convert|20|ft|m|abbr=on tall) that were the original secondary scrubbers. All piping that connects these towers is of 3/16 inch (5 mm) plate steel. (Blueprints, 1945-46)
Between the generators and the play barn stand the oil absorber (80 ft) and cooler (40 ft). The cooling towers lowered the temperature of the light oil-gas mixture from the scrubbers, then the oils were separated from the gas in the oil absorber tower. The light oils were the secondary products benzene, toluene and solvent naphtha.
This concrete platform was built in 1936 as an unloading area for coal. The platform was integrated into the park design and handrails placed at the lakeside edges.
Play barn and picnic shelter
The buildings date back to the original coal-gas facility (ca 1910) and were constructed of wood. The pump house (also known as the exhauster house) is about 7,340 sq ft (680 m²) and the boiler house is about 5,720 sq ft (530 m²). The wood frames of both buildings remain intact and in place on concrete slab foundations.
The boiler house, now the picnic shelter, originally housed two boilers. One provided steam for the gasification process; the other provided steam for the steam engines that powered the Pump House compressors. The tubes from one boiler remain in place at the eastern end of the building and are an impressive display of seldom-seen industrial technology.
The pump house is now the play barn. Most of the pumps, compressors, and piping are still in place. The 3000 hp (2,200 kW) compressor’s 10 short ton (9 t) fly-wheel ran continuously to keep the plant running 24 hours a day. In this building air was compressed for the oxygen-extraction process, the oxygen was then pumped to the generators for the first stage of gas manufacturing, and the final product was compressed and pumped to either the storage tank or down the lines of main to customers.
Outside the play barn, the sole surviving smoke arrestor hood has been refurbished as a play structure for climbing. Designed and built by the Company in 1935, three were installed in order to reduce pollutant emissions.
Concrete train trestles now form a part of the GWP entrance. They were part of the original 1906 gas plant and ran along the north side of the Office and Laboratories Building. Nothing remains of this building, but the trestles show where the train tracks ended and coal was delivered. Coal cars would ride up the trestles and release coal into hoppers parked under the trestles.
GWP was designed to be an urban, intensively used pleasure ground utilizing unique structures. “The traditional escape from the city into the sylvan settings of remote areas has changed for many people into a seeking of a more active encounter. Introspection and retreat are easily accomplished without physical isolation, but facilities for social interaction with persons other than intimate friends are more scarce with respect to population growth. …new sites should be offered in a vast and varied park system to accommodate experimentation and innovation in both design and program.” (Master Plan, 1971) Because of the Gas Plant structures and the magnificent setting, GWP complements the rich heritage of Seattle’s Post-Victorian parks and offers expanded programs in ways that the latter cannot. Throughout every year hundreds of thousands of people use GWP. They gather to celebrate Independence Day and watch fireworks. Concerts, kite-flying, jogging, public meetings, and the open space and views of the park itself are attractions that keep GWP in constant use.
Gas Works Park is a unique landmark for the City of Seattle. The original structures qualify as industrial archaeology and are the last remaining examples of a type of technology. These structures have been double served by Gas Works Park for not only have they been preserved but they have been integrated into an innovative, ground-breaking park design. Paul Goldberger wrote in the New York Times “Seattle is about to have one of the nation’s most advanced pieces of urban landscape design. The complex array of towers, tanks and pipes of the gas works forms a powerful industrial still life … serving both as a visual focus for the park and as a monument to the city’s industrial past. The park represents a complete reversal from a period when industrial monuments were regarded, even by preservationists, as ugly intrusions on the landscape, to a time when such structures as the gas works are recognized for their potential ability to enhance the urban experience.” (NY Times, 8/30/75) Few, if any examples of Seattle architecture have won the national and international recognition given to Gas Works Park. The possibility for
National Landmarkstatus was recognized in 1971 when Victor Steinbrueck inventoried the Gas Works and Eric DeLony of the National Park Servicewrote: “… Gas Works Park will not only be a unique first in the United States, if not the world, but will set an important precedent for the future preservation of industrial structure through an imaginative plan for adaptive use.”
The combination of a dramatic site and historic structures with the innovative park design has only increased the importance of Gas Works Park. The integrity of the original Gas Works is impressive. Although not all of the structures were saved, the character defining and prominent group of towers remains. The reuse of the pump house and boiler house has maintained building structure and much of the machinery. The site retains its original boundaries and lake frontage.
The Seattle Gas Company’s production plant located on Lake Union, now known as Gas Works Park, was co-founded by one of Seattle’s foremost pioneers, A.A. Denny. Throughout the first half of this century the Gas Company was a significant participant in and contributor to the growth of Seattle and adjoining communities. Although its primary product was city gas for energy, the plant also manufactured other basic products necessary for urban growth: tar for roofing; lampblack for pigment in tires and ink; charcoal briquets for odor-free and efficient home heating; sulfur for insecticides, ammonium sulfate, and sulfuric acid; and
toluenefor use in explosives. Toluene was in high demand during World War II and production of it was essential to the war effort (e.g., for making TNT and various types of gun powder). Through these products the gas works contributed in an integral way not only to daily commercial and domestic life in Seattle, but also to interests at a national level.
The structures and machinery standing in GWP today are remnants of the Industrial Revolution that transformed the face of the world. GWP is the sole survivor of gas works from that era in the United States, preserved as a public park. It is the only site that could be documented with most of the generating equipment intact. During its production era, this gasification plant was only one of 1400 such plants in the U.S., but it is now a unique and dramatic collection of industrial revolution era technology. Though obsolete, these towers, machines, and buildings are a monument to humanity’s inventiveness and offer a visual statement of pioneering technology. As UW Professor of Anthropology Kenneth Read so eloquently expressed it, “History sits on this little wasteland, not only the parochial history of a given city, but also a fragment of the chronicle of world and culture. It is certainly as valuable a document as anything preserved in the Museum of History and Industry.” (Read 1969, p 43-45)
In addition to its early history, the impact of Gas Works Park on land reclamation and industrial preservation attitudes and techniques extends far beyond Seattle. GWP has gained national and international standing as a prototype for industrial site conversions. It is studied, cited as an exemplary model, and referenced in educational textbooks and scholarly works. Since opening, GWP has won numerous awards for design excellence, vision, and innovation. The jury for the President’s Award of Excellence stated: “A remarkably original and attractive example of how to reclaim a seemingly hopeless and obsolete industrial installation. Instead of being destroyed or disguised, it has been transformed into a lighthearted environment … A project of historical significance for the community. A symbol of American technology preserved.” A list of awards and exhibitions is provided in Appendix A, a selected bibliography of works on the topic of GWP in Appendix B, and a complete chronology of the site, dating from 1851, in Appendix C.
Gas Works Park and its Towers are of a scale and form easily seen from any location around Lake Union. The park is a tangible, highly visible piece of Seattle’s early history and of industrial revolution era technology. The Towers are a gothic sculptural presence and the contrast of these monolithic forms superimposed on the city skyline is unique and visually exciting. The experience is further enhanced by changes in perspective gained by moving around and through these forms of another era. “The black shapes of the towers on their grassy point leap out with startling clarity against the bright collage of the shoreline, silhouettes that might be the pictogram for the works of industrial man.” (Landscape Australia, February 1980)
Gas Works Park is also a symbol of attitudes about growth and progress. The structures and machinery that remain in GWP today speak about us, and about our history. These structures tell the story of what we valued decades ago, and they show us how we went about acquiring that which we valued. They remind us of a disregard of the environment which went along with the development of the city. These structures are a constant reminder of the very real industrial history of the site, of Lake Union and of Seattle. They tell us that Seattle was once (not that long ago) a stretch of wilderness, abundant with raw materials for fueling an industrial revolution. Gas Works Park presents in an engaging way the difference between then and now: “then” wilderness was seen simply as a storehouse of raw materials to feed hungry machinery; “now” we also place value on the wild places that remain.
Gas Works Park is also an outstanding work of its designer, Richard Haag, a prominent Seattle landscape architect. Haag is the only person to twice receive the American Society of Landscape Architects Award for design excellence, one of the awards given for his design of Gas Works Park. Haag has received international acclaim for his design of Gas Works Park.
* William S. Saunders (Ed.): "Richard Haag. Bloedel Reserve and Gas Works Park." New York: Princeton Architectural Press 1998
* Pirzio-Biroli: "Adaptive re-use. Layering of meaning on sites of industrial ruin." in: Arcade journal 23/2004
Udo Weilacher: "Syntax of Landscape." Basel Berlin Boston: Birkhauser Publisher 2008. ISBN 978-3-7643-7615-4
* [http://www.cityofseattle.net/parks/parkspaces/gasworks.htm Parks Department page on Gas Works Park]
* [http://www.gosleepgo.com/guide/us/wa/seattle/gas-works-park Gasworks Park] on GoSleepGo
* [http://www.vrseattle.com/pages/browse.php?cat_id=802 Quicktime VR movies of the park]
* [http://www.ecy.wa.gov/biblio/0303014.html A 2003 government report, "Sediment Toxicity Near Gas Works Park"]
* [http://www.ecy.wa.gov/programs/tcp/sites/gaswkspk/gaswks.htm Washington State Dept. of Ecology Page on Gas Works Park]
* [http://www.seattlewiki.org/wiki/PeaceWorks_Park_vigil PeaceWorks Park Vigil] , on the [http://www.seattlewiki.org Seattle Wiki]
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