T Innovative Wastewater Management Creates Wetlands Volume 14, Number 2 Summer 2003
Transcription
T Innovative Wastewater Management Creates Wetlands Volume 14, Number 2 Summer 2003
A technical publication of the Water Group of HDR Volume 14, Number 2 Summer 2003 Innovative Wastewater Management Creates Wetlands and Irrigation Supply for the Oregon Garden By Bruce Willey, PE T he City of Silverton, Oregon, needed to comply with tightening environmental regulations while encouraging economic development and maintaining affordable rates. Inventive thinking and fortuitous circumstances resulted in an affordable water reclamation plan that combines wetlands creation with irrigation of a world-class botanical garden. Silverton is a residential community of 6,500 people nestled in the western foothills of the Cascade Mountains, overlooking the fertile Willamette Valley of Oregon. Located 30 miles southeast of Portland, it is best known as home to a scenic state park, where trails take hikers behind spectacular waterfalls. In 1993, the City faced several challenges. The Oregon Department of Environmental Quality required the City to minimize – and possibly cease – discharging treated wastewater to Silver Creek, a water-quality limited stream. The City’s treatment plant had insufficient capacity and was under a state order to improve performance. Finally, like many other small towns, the community had limited resources to pay for the needed improvements. · The Oregon Nurseryman’s Association agreed to locate the Oregon Garden in the city, but needed irrigation water for the project. The Oregon Garden was conceived as a botanical display, garden and nature area that would showcase plants of the Northwest. The garden would provide an educational tool, a tourist destination and a source of inspiration for gardeners. To meet these needs, HDR developed a plan to convey part of the effluent during the summer to the Oregon Garden. After conveyance to the site, the effluent passes through a series of wetlands and is used to irrigate approximately 240 acres, sustaining the plants during the dry summer months without drawing on drinking water resources. This approach, coupled with advanced treatment capabilities, sharply reduces summertime loadings to Silver Creek during critical, low-flow, summertime periods. During the winter, when stream flows are high, chlorine-free secondary effluent is discharged to Silver Creek. The wetlands application was the first in Oregon. Using treated wastewater to create wetlands was previously prohibited, but the state now recognizes the multitude of benefits, due in part to this project. Irrigating the Oregon Garden with reclaimed water creates a high-profile opportunity for public education about water conservation and reuse. Design of Wetlands Sites HDR managed a multidisciplinary team for design of the treatment plant, effluent conveyance and wetland/irrigation facilities. To meet seasonably variable limits for ammonia and nitrate-nitrogen, HDR designed a unique continuous-flow, highrate, activated-sludge reactor. The reactor is configured in a complete-mix, racetrack format, with air cycled on and off to create the aerobic and Water Reuse Provides Solution To address these issues, HDR initiated a facility planning process that was founded on the community’s values: preserving natural resources while providing economical service for ratepayers. A wide range of effluent management strategies was considered, including conventional reuse applications and the export of treated effluent to another river. In the end, the recommended plan was influenced by two key developments: · The City developed an industrial park that required wetlands mitigation. Part of the effluent from the City of Silverton, Oregon’s wastewater treatment plant is conveyed to the Oregon Garden, providing sustenance to plants during the dry summer months. anoxic zones needed for nitrification and denitrification. Other treatment improvements include new headworks facilities, flow equalization, ultraviolet (UV) disinfection facilities, effluent pumping facilities and sludge thickening. A one-mile-long force main conveys the reclaimed water to the Oregon Garden. The wetlands system occupies approximately 16 acres of the garden. Three interconnected complexes contain a chain of 25 cascade cells linked together by discharge swales. Water elevation in each cell is maintained by a vegetated berm until it flows over a spillway from one cell to the next. The vegetation in the spillways acts as a natural filter to improve water quality. The wetlands system is divided into three unique complexes, each with distinctive design objectives: Complex A, where the reclaimed water is first introduced, is a high-rate monoculture wetland with an emphasis on nutrient removal capability; Complex B is a low-rate, uplands wetland; and Complex C is a large, low-rate terraced wetland. The three wetland types were developed to increase the diversity of plant life and provide greater research capabilities regarding the functionality of wetlands for pollutant removal and habitat creation. Irrigation water for the garden is withdrawn after wetland Complex A. This provides the water at a high elevation on the site and allows reduced hydraulic and nutrient loadings to wetland complexes B and C. HDR coordinated multiple federal, state and local agencies to obtain timely approval and secure funding. The project benefited from low-interest loans and grants from such diverse sources as the U.S. Environmental Protection Agency, the Rural Development Agency, the Oregon Lottery, the Oregon Department of Transportation, and the Oregon Department of Land Conservation and Development. Costs to the community were further reduced through generous inkind contributions of piping material, wetlands plantings and labor to plant the wetlands. Success in Oregon Construction of the treatment plant, reclaimed water pipeline and wetlands systems was completed in 1999. The treatment plant performance has been exceptional, routinely producing a high-quality effluent with summertime The Oregon Garden – shown here in 2000 – is irrigated with reclaimed effluent, providing a win-win situation for the world-class botanical garden and the City of Silverton, Oregon. ammonia-nitrogen concentrations of less than 0.5 mg/L and nitrate-nitrogen concentrations of six to 10 mg/L. The Oregon Garden formally opened to the public in June 2000 and has become a highly popular attraction. This year, more than 200,000 people are projected to visit the garden and wetlands. Bruce Willey can be reached in HDR’s San Diego, California, office at (858) 712-8306, fax (858) 712-8333 or email [email protected].