MVP Health Care
In the midst of a facility expansion in March 2007, MVP Health Care (MVP), Rochester, N.Y., decided that a reliable mode of standby power was required to ensure smooth operations and to keep all of its clients’ medical records and information safely housed.
In the midst of a facility expansion in March 2007, MVP Health Care (MVP), Rochester, N.Y., decided that a reliable mode of standby power was required to ensure smooth operations and to keep all of its clients’ medical records and information safely housed. MVP, a healthcare provider in Vermont, N.H., and N.Y. has been committed for 27 years to making a positive impact on the health and wellness of its customers. The need to keep medical records and information safe was a logical investment and consistent with the company’s mission. While there was an immediate need for a larger location, MVP also needed to allow room for future growth. The goal was that no matter how much the company grew, there would always be backup power protection should there be an outage due to the inclement weather that is typical of Rochester, especially during the winter months. When Generac Industrial Power dealer R.L. Kistler learned of MVP’s interest in standby power, sales engineer Rob Sweeney knew he had a system to satisfy its needs.
Based in Rochester, R.L. Kistler has been a Generac dealer since 2002, covering much of the upstate New York area including Buffalo and the state capital of Albany. Sweeney was approached for this project by engineer Mark Picard, owner of Picard Engineering, Rochester, who was originally looking for backup power that had either a single engine or a modular system; this was still up for debate.
“When Mark told me what they were looking for, I knew right away that the Generac Modular Power System (MPS) was the way for them to go. They had an immediate load demand of 1,100 kW and wanted a system that had the potential to reach 1,600 kW, if needed,” says Sweeney. “They were also in the market for a system that ran on natural gas rather than diesel due to storage limitations stemming from MVP’s metropolitan location and the fact that natural gas offered extended run times without concern for refueling. I told Mark he’d be hard-pressed to find a competitive system that would be able to not only meet their demands, but also be reasonably priced. After he had an opportunity to shop around, the job was ours.”
Installation with room to grow
R.L. Kistler administered the paralleled installation of 4 x 300 kW Generac natural gas generators in August 2008. Because MVP intended to grow over time, the company needed a system that was modular and did not need to be replaced every time it expanded. As the installation began, Sweeney wanted to make it as easy as possible for the building to add on to the four existing gensets as needed. “We installed a concrete pad designed to hold a maximum of six, 300-kW generators. So when the time comes to expand the system, there is room for two more 300-kW Generac MPS generators, making the placement less labor intensive,” says Sweeney. In addition to the versatility that comes with a Generac MPS, price was also a factor.
One digital control, one generator
In the past, the high cost of paralleling switchgear made the multiple-unit arrangement feasible only for expensive, high-end applications. If MVP had gone with a traditional paralleling approach, it would have had to use 14 to 20 controllers from five different manufacturers. However, the Generac MPS PowerManager control technology requires only one digital control per generator to control all generator functions: speed governing, voltage regulation, genset alarm and monitoring, synchronizing, load sharing, and protection—a much simpler and cost-saving approach.
Advanced microprocessors with high-speed, 32-bit digital electronics are integrated into the MPS controllers, providing paralleling capability and reducing equipment, maintenance, and installation costs. Constantly monitoring power flow, controlling transfer switch functions, and managing the operations of all connected generators are just a few of the features offered by the MPS controllers. The beauty of the Generac MPS system is that each genset backs up the others in the system, so critical loads receive state-of-the-art redundant protection, in addition to providing all the benefits of paralleled power generation in a simple, single-source system.
Looking to the future
Today, the Generac MPS system backs up three floors, one of which houses the main data center—a total of 50,400 sq ft. And MVP has no plans to stop there. “This year, we’ll be adding another 150 servers to our data center on the first floor and while we are appropriately sized right now, we have space to add two more 300 kW gensets and in time that’s exactly what we plan to do,” says Craig Solow, supervisor of Windows administration, MVP. “We could not be more pleased with the natural gas MPS system from Generac. Out of our 10 sites, the Rochester location is the only one that has a modular backup system, the rest are running on single systems, and I am confident that the Generac MPS system is the most secure. Since we installed the Generac MPS system, we’ve had a few outages, some planned, some unexpected, but whatever the case, the transition to standby power was seamless. The MPS system started right up and kept us operating at business as usual for the entire length of every outage. Most companies fear outages, and while we don’t look forward to them, we know that we’re covered.”
Information provided by Generac Power Systems Inc.
Case Study Database
Get more exposure for your case study by uploading it to the Consulting-Specifying Engineer case study database, where end-users can identify relevant solutions and explore what the experts are doing to effectively implement a variety of technology and productivity related projects.
These case studies provide examples of how knowledgeable solution providers have used technology, processes and people to create effective and successful implementations in real-world situations. Case studies can be completed by filling out a simple online form where you can outline the project title, abstract, and full story in 1500 words or less; upload photos, videos and a logo.
Click here to visit the Case Study Database and upload your case study.