Contractingbusiness 3793 Cb0710 Qhca Sigman 1

Show Me State Showplace

June 30, 2010
Sigman Heating and Air Conditioning/Sigman Indoor Climate Solutions LLC is no stranger to the Quality Home Comfort Awards. Perennial winners, Sigman is known for its ability to land some of the largest and most interesting residential projects in St. Louis area — or anywhere in the U.S., for that matter.

Sigman Heating and Air Conditioning/Sigman Indoor Climate Solutions LLC is no stranger to the Quality Home Comfort Awards. Perennial winners, Sigman is known for its ability to land some of the largest and most interesting residential projects in St. Louis area — or anywhere in the U.S., for that matter.

Still, there must have been some dropped jaws even at such an experienced company when Joel Sigman, president of the company's indoor climate solutions division, brought the team together to begin planning the comfort system for a newly constructed home with 41,000 sq.ft. of conditioned space. No matter how many large and complicated projects a company has done, a number like that must cause the team's collective hearts to beat just a little bit faster.

"To say the least, this is the most space that our company has ever conditioned for a residential home," says Joel Sigman. "This project involved every aspect of a heating and cooling system on a large scale. Not many things were missed in this home. Indoor air quality was satisfied with fresh air ventilation, HEPA filters, and humidity control, and efficiency was taken care of with geothermal, radiant heat, high efficiency boilers, and good design."

The final design for the forced air system called for 16 geothermal systems totaling 68 tons, with an additional four geothermal systems totaling 40 tons for the radiant system.

The geothermal systems are driven by a large loop field. The field is broken down into four pods of 16-tons. There are 12 wells at 200-ft. for each pod. The primary loop manifold has 14 crossovers and 4-in. copper pipe. The manifold for the primary loop had to be built on-site. It covers the entire basement sidewall (14-ft high) and hangs from the ceiling. The return and supply lines are tied together in a first in/last out configuration.

"The weight of all the copper made mounting and securing the manifold difficult, because there were minimal places to install brackets," Sigman says. "The weight was such a concern that as the manifold traveled across the ceiling the carpenters installed additional floor joists that sat from beam to beam, but were shorter than the main floor joist, so that the main joist would not carry any of the weight."

Each crossover is piped to a flow controller. The manifold is built with multiple ball valves so that all the piping can be easily flushed. The pumps are set up in parallel and series to satisfy the 192 gpm flow. The 4-in. pipe splits for each of the sets of pumps, and features check valves to prevent back flow. This pump design allows for proper flows, quiet and efficient pumps, and means that the system will not shut down upon a pump failure.

"The house was to have poured concrete on the floors, so we offered the homeowner the option of radiant heat," Sigman says. "It made sense since many of the ceilings on the main floor are 14 ft. to more than 20 ft. high. The radiant heat system has 18 zones and covers over 30,000 sq.ft of floor. The tubing for the home's sunken basement, basement, and four-car garage (not to be confused with the homes other, five-car garage) is set on 12-in. centers. The indoor pool, main floor, and second floor are set on 6-in. centers. There are 134 circuits, 24 manifolds, and more than 50,000 ft. (that's 9.5 miles) of ½-in. oxygen barrier PEX tubing. The system uses four 10-ton water-to-water units to create enough hot water to heat all the spaces that have radiant heat, and the indoor pool.

Challenges arose in making sure the forced air system kept up with all the changes that took place as construction progressed. For example, the grand salon’s outside wall was pushed back about seven feet and a third floor observatory added — and then topped with a fourth story lookout. These changes created some "redesign-on-the-fly" challenges for the Sigman team. The second floor and two of the bedrooms on the main floor were originally going to be conditioned using two 5-ton systems. With the addition of the observatory the systems were split, making three systems for the second floor, a separate air handler for the main floor bedrooms, and five zones.

The room below the main floor bedrooms the art studio with an exposed ceiling and spiral duct, which meant no duct could run below the bedroom floors. The observatory was tricky because there was very limited space for the supplies and the duct. The solution was a Unico high velocity duct system. "This allowed us to set the air handler in the limited space provided and get the supply outlets up to the fourth floor lookout, which is accessed from a spiral staircase that goes up from the observatory floor," Sigman says.

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The duct layout also had to change to accommodate the oversized duct required for the media room. Because sound was such a big consideration in the design, specialty products were used for every aspect of the duct installation. The insulation was 1-in. thick internal acoustic insulation, the duct hangers were an L-bracket that eliminated all vibration, and then a wrap was put around the duct. "This wrap could have stopped a bullet," Sigman says. "It was very heavy; screws with washers were used to hold it to the duct. In addition, all this work had to be done from scaffolding because the media room sits above the gym and the gym ceiling is more than 20 feet high."

Sigman designed the media room with 15 cfm of fresh air per person and 165 total cfm fresh air. At seven air exchanges per hour times 9,000 cu.ft., that meant an airflow of 1,050 cu ft/min, and 250 ft. per minute at each register. This design allows for slow air movement to avoid any air noise while supplying a lot of volume for the small space and good air exchange. Sigman provided a fan with a silencer to move air across the projector to help keep it cool as it runs.

Needless to say, in a home of this size and complexity, there were numerous other facets that brought everything together. The gymnasium and pool area presented their unique challenges, as did the controls and snow melting system. The homeowner, for example, wanted the controls for the system to be as close to invisible as possible.

"The controls were going to be tied to the home automation system," Sigman says. "The automation company had said that our Aprilaire controls were compatible with their system. Since we were unfamiliar with their communicating controls we had commercial reps to the shop to go through their controls and explain how the controls worked and what would be needed to satisfy the needs of the homeowners."

Ultimately, however, solutions were found to all the challenges, and the creative and talented team from Sigman Heating and Air Conditioning/ Sigman Indoor Climate Solutions — which includes nine technicians certified by North American Technician Excellence (NATE) — brought it all together for the client in a remarkable comfort system that came in at just under $1 million.

"A system this size requires a great deal of teamwork and coordination," Sigman says. "The men did a great job making sure that nothing was missed. The design is only as good as the craftsman installing the system, and the team did a great job of making sure that the highest level of quality went into every part of the job."

The only concern for Sigman is where to go from here. "I don't know how we'll top this one," Joel Sigman says, "but don't worry, we'll keep trying to come up with something interesting."


Forced Air System:

  • 13 ClimateMaster Tranquility 27 geothermal heat pumps; 3 ClimateMaster ClimaDry Tranquility 27 geothermal heat pumps
  • 3 Bryant variable speed air handlers with auxiliary heaters
  • Unico advanced blower module; Unico blower module with advanced control board
  • Unico R-410a heat pump coil
  • Unico 5 kW auxiliary heater
  • 4 Grundfos loop pumps
  • 13 P.C.I. geothermal flow controllers
  • BGM supply flow controller
  • Spirotherm VSR500 5-in. air eliminator


  • 5 Honeywell HZ432 TrueZone panels
  • 10 Honeywell dampers
  • 3 ClimateMaster ClimaDry thermostats
  • 19 Aprilaire thermostats
  • 34 Aprilaire temperature sensors
  • 11 Aprilaire humidity control
  • 11 Aprilaire humidity sensors

Indoor air quality:

  • 10 Fantech CM 3000 HEPA filters
  • Fantech pool heat recovery unit
  • 9 Fantech heat recovery ventilators
  • 16 Fantech inline bath fan kits
  • 3 Fantech dryer boosters
  • 3 Fantech inline fans and silencers
  • 10 General Aire steam humidifiers
  • 1 Honeywell steam humidifiers

Radiant floor heat/ pool heat:

  • 4 GeoComfort 10-ton water-to-water units
  • 4 120 gallon storage tanks
  • 6 Grundfos circulators
  • 26 Taco circulators
  • 50,000 ft. Viega ½-in. oxygen barrier tubing
  • 24 Viega stainless steel manifolds
  • Amtrol expansion tank
  • Spirotherm air eliminator
  • Weil-McLain pool plate exchanger
  • 8 Taco zone control panels, 2 to 6 zones
  • 18 Honeywell Pro 8000 thermostats
  • 18 Honeywell remote sensors
  • 4 Penn Johnson Controls

Snow melt/water heating:

  • 2 Knight 500,000 Btu boilers
  • 2 Lochinvar 120-gal. indirect storage tanks
  • 2 Tekmar snow melt controls
  • 8,000 ft. of Viega ¾-in. oxygen barrier tubing
  • 8 Taco pumps
  • 2 Amtrol expansion tanks
  • 2 2-in. Spirotherm air eliminators