Originally constructed in 1936, Doyle Drive is a busy thoroughfare that carries thousands of cars per hour in peak traffic periods. In 1990 it underwent a full seismic evaluation and was determined to have reached the end of its useful service life, deemed structurally and seismically deficient due to the ravages of time and continuous use. Its replacement will be an entirely new Presidio Parkway design, including two short tunnels, a wide landscaped median, and engineered transitions to city streets to ease traffic and improve safety. When completed, the new parkway will also produce a dramatic visual change, as the bulky concrete Doyle Drive structures are removed to reveal striking views of the Presidio and San Francisco Bay.

In spring 2010, Phase I of the project got underway, with the construction of a tunnel and detour roadway to shift traffic completely off Doyle Drive. Demolition of the old structure, which involved about 4700 linear feet of roadway, including some 150 spans in three distinct structures, began in 2012. Yet the plan required that the road be completely closed for just one weekend to demolish the entire length.

“There was only a 57-hour window to demolish the existing structure and complete construction of the bypass before we had to reopen the roadway to vehicle traffic,” explains California DOT (CalTrans) resident engineer Andrew Yan. “The structure was divided into four main components, all to be demolished within the same time frame. It was a tall order, but we planned every detail.”

The takedown required a fleet of 40 pieces of demolition equipment, including 20 hydraulic excavators outfitted with a variety of work tools, such as hammers, grapples, pulverizers, and shears. Crews also used backhoe loaders, track loaders, wheeled loaders, and articulated dump trucks, all running continuously to meet the tight deadline.

Because of its proximity to the Presidio, a historic national park that remained open to the public during demolition, the contract called for a dust control plan to prevent all visible dust from leaving the project boundaries while work was underway.

“In some places, the public areas were less than 100 feet away from the demolition activity,” Yan says. “There’s also a residential neighborhood and business corridor adjacent to Doyle Drive. “We also had to consider the nearby marsh, wetlands, and forest, as well as the wildlife within those habitats.”

With dust suppression such a high priority, CalTrans researched several equipment options to supplement traditional water trucks and manual spraying. “Because we had simultaneous demolition in four distinct locations, we needed dust control over a very wide area,” Yan says. “But the manpower we could commit to that was limited. The initial equipment designs we reviewed didn’t convince us that they could deliver the coverage we required.”

Yan remembered that another CalTrans project, the Oakland Bay Bridge West Approach in San Francisco, faced similar dust suppression issues. Engineers had successfully controlled the demolition dust on that job with large atomized misting units from Dust Control Technology (DCT), Peoria, Ill. After reviewing specifications on the various models and discussing the project requirements with DCT, he arranged a rental of eight DustBoss DB-60s, with onsite training supplied by the manufacturer.

Dust Management by Design

The DB-60 is a large-scale suppression unit with special atomizing nozzles that create an engineered mist, sizing the droplets specifically for optimum dust control. A powerful 25-hp fan launches the droplets over long distances, allowing one full-oscillation machine to cover almost 125,000 square feet with a dust-trapping mist.

The DB-60 is one of the few suppression technologies that are effective on both ground level dust and airborne particles. When particle sizes or service environments dictate, DustBoss designs are also engineered to allow a wide range of customizations, including the company’s variable particle sizing technology. Using a variety of nozzle sizes, shapes, patterns, and flow, DCT can tailor the mist output to suit specific dust particle sizes and extreme conditions.

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