The 500 kW generator sets are equipped with digital controllers that allow the generators to run in parallel without traditional free-standing switchgear and controls. |
Typically, this power system expansion would mean buying two additional 500 kW units, plus expensive paralleling switchgear needed so that all three could work together. However, the cost of the paralleling switchgear put the project over budget. Instead, with the help of MTU Onsite Energy and its local distributor United Engines, plant officials chose an innovative solution: United Engines installed three 500 kW generator sets from MTU equipped with digital controllers that allow the generator sets to run in parallel without traditional free-standing switchgear and controls. The unique approach saved the water district approximately $300,000 and created a standby power system that was faster, simpler and more compact.
Rural Water District #3 serves urban and rural areas outside Owasso, Collinsville and Skiatook north of Tulsa, located in an area known as Tornado Alley. The plant treats water from Lake Oologah and distributes it to residents from six water towers through miles of distribution lines. Without standby power, the plant would not be able to supply water to the residents in the event of an extended outage. Even the most reliable utility cannot always withstand the ice storms, lightning strikes and other severe weather common to the region.
The emergency standby generator sets supply backup power for the treatment plant's raw water and recirculation pumps, process and filter controls and valves, and sludge transfer pumps, as well as power for laboratories, offices, and safety and security systems.
"We absolutely require backup power at the treatment plant," said Jerry Gammill, manager of Rural Water District #3. "A few years ago, an ice storm knocked out power to the community for seven days, but we were able to provide running water the whole time. It's critical that the treatment plant function despite a power outage. We fully expect the new system to provide the same reliability."
Digital Controls
The purpose of paralleling switchgear is to provide synchronization, load sharing and load management for a system with multiple generator sets.
"To save cost and footprint, we designed a system without traditional switchgear, using the digital controllers on the MTU Onsite Energy generator sets (enhanced DGC 2020 with auto-sync) and motorized breakers mounted onboard each generator set to provide the paralleling function," said Greg Esau, sales engineer with United Engines.
Esau was one of the first MTU distributors to apply the DGC 2020's paralleling function on a missioncritical application in the field.
The original plan was to parallel the existing 600 kW generator set with one new 1,000 kW generator set, but that soon became unfeasible.
"The dilemma was how to synchronize the older generator with a newer generator set without having to make extensive modifications to the older unit," said Joseph Baran, professional engineer with Innovative Engineering Group, LLC, Tulsa, designers of the expanded treatment plant. "Bypassing the original generator set made the project feasible, while saving money and adding redundancy."