Equipment company will supply three cranes at the Palm Beach facility.
Babcock & Wilcox Power Generation Group has awarded Konecranes, based in Springfield, Ohio, a contract to supply three fully automated 17-ton CMAA Class F waste-handling cranes for the Solid Waste Authority of Palm Beach County’s Palm Beach Renewable Energy Facility #2, a municipal solid waste-to-energy (WTE) power plant in West Palm Beach, Fla.
The facility, capable of processing 3,000 tons of municipal solid waste per day, is the second phase of an already-operating WTE enterprise, also built and operated by B&W PGG. According to a release, when complete, the two plants will be the largest WTE operation in North America.
Konecranes, which supplies cranes for the solid waste industry, has installed close to 400 WTE cranes worldwide over the last 50 years.
“The important thing to understand is that for WTE crane designs in the past, the amount of cycles that the cranes underwent were highly underestimated,” says Pat Patton, senior operations specialist with Arcadis-US, (formerly Malcolm Pirnie) consulting engineer to the Solid Waste Authority. “Early U.S. cranes modeled on the steel industry were operating at levels three to four times their designed cycling rate in WTE applications. Therefore, the robustness of the cranes is critical to long-term performance. Konecranes takes this into consideration in their design and I’ve never seen a report of a failure from Konecranes on cyclic fatigue.”
The cranes will be delivered in May of 2013. Konecranes’ service group will perform load testing and runway alignment analysis with its optic RailQ runway alignment survey in 2014. The facility’s burn tests will occur in early 2015, with the target date for full operation and power generation in mid-2015.
The cranes will be supplying three mass burn boilers at a combined feed rate of 125 tons per hour, along with the ability to receive up to 600 tons per hour of waste delivered by truck. In normal operations two cranes will work while one is held in reserve, but during peak conditions all three cranes will operate. The facility will generate up to 100MW of power. Depending on the season, the new plant can supply power for up to 50,000 homes.
The cranes will be controlled from a pulpit overlooking the pit. During receiving hours they will operate in semi-automation mode. The cranes will be pre-programmed to feed the hoppers, but the operator can step in and use the crane’s grapple to remove any large item, such as a refrigerator, that is not appropriate for burning. During non-receiving hours, the cranes will operate on their own in full automation.
“It is up to the operator on duty to get a sufficient stockpile homogenized and in place to minimize the need for intervention during the night time shifts,” says Patton. “The facility’s control room and the crane consoles are located in the same room, allowing interaction between the boiler operators and the crane operators. When the cranes are in full automation mode at night, the boiler operator can step in and perform any operation needed.”
Konecranes DynAPilot anti-sway technology allows the cranes to operate very close to the pit walls without causing damage, while the programmable anti-collision and protected areas features ensure safe operation around people. The process-duty GL Hoist provides the robustness needed to cope with a burn rate of 125 tons per hour and a receiving rate of 600 tons per hour.
For more information on Konecranes, visit the company’s Website at www.konecranesUSA.com.