How to Reduce your Energy Costs this Summer

Air-conditioning is often a welcomed relief from the unremitting summer heat, but the high costs associated with energy consumption can leave homeowners and facility managers unsatisfied. 

Currently, HVAC systems are responsible for around 40% of total building energy consumption, which is why it is no surprise that according to a recent report by Navigant Research, the revenue of energy efficient HVAC systems will increase from 17.2 million in 2013 to $33.2 billion in 2020.  

If an energy efficient HVAC system isn't in your budget this year, there are several budget friendly ways for keeping your energy consumption down this summer. 

1. Change your Filters 

Clean air filters are key to getting the best air flow from your HVAC system. Not changing your filters could mean more maintenance because it forces your system to work harder and less efficiently. 

2. Add Insulation 

Check to make sure your facility is properly insulated. According to the United States Department of Energy (USDOE), insulation not only can reduce your carbon imprint and save you money on your energy bill, but it can help maintain a consistent temperature throughout your facility. 

3.  Programmable Thermostats 

A programmable thermostat can help control your system even when you aren't around. By setting different temperatures for different times of the day,  you are better able to monitor your energy consumption and cut on your costs. 

4. Invest in

Energy Efficient Shades 

Keeping your windows covered all day and installing energy efficient shades can help reduce the load on your AC unit. 

5. Annual HVAC Systems Maintenance 

Like your car, your HVAC system needs a yearly checkup. This can help ensure that your system is running efficiently and prevent costly problems later on. 

Getting a cooling load calculation completed by a certified engineer can also determine the efficiency of your HVAC system and can make sure your system meets required building codes.  

Want to find out if your HVAC system is running efficiently?  RGD Consulting Engineers can perform an on-site inspection of your facility to determine the proper remediation to help you save money on your energy consumption. Inquire today! 

Enhancements Completed on Broken Sound Clubhouse

The Broken Sound Club located in Boca Raton, Florida recently unveiled the final  phase of a $26 million renovation that included design and construction upgrades to the pool, bistro, spa and fitness center.

The transformation, which began in 2010, took 3 years to complete and was designed by Peacock and Lewis Architects, constructed by +The Weitz Company and +RGD Consulting Engineers provided the designs for the mechanical, electrical and plumbing requirements of the project.

The new poolscape features beautiful waterfalls, kids pool area and a heated whirlpool. The Bistro offers guests casual dining and an outdoor bar and table setting in which to enjoy refreshments.

Another part of the enhancements is the addition of the tranquil Moonstone Spa. The 13,100 sq. ft. spa offers a refreshing ambiance for guests with six treatment rooms, a couple's suite, men's and women's locker rooms equipped with showers, steam rooms, relation rooms and whirlpools along with gender specific relaxation rooms.

Next to the spa, the new 7,000 sq. ft. fitness center offers an array of group classes, private, training sessions, free weights, cardio machines and wellness services.

For the past 35 years, RGD Consulting Engineers has provided Florida and the Caribbean with mechanical, electrical, plumbing, fire protection and structural engineering services. You can also find RGD on LinkedIn, Twitter and Facebook.  

RGD Engineers Provides Engineering Solutions for new Jewish Community Center & Meyer Academy

Construction is well underway for th $30 million Mandel Jewish Community Center and Arthur I. Meyer Academy on Hood Road. Tercilla Courtemanche Architects are responsible for the design and RGD Consulting Engineers will provide the engineering solutions.

Construction of Mandel Jewish
Community Center

JCC will offer a variety of educational and recreational activities including a summer camp, adult education classes and special need programs. the 56,000 sq. ft, JCC is expected to open this summer and has several notable features:

• Early Childhood Learning Center 
• Indoor children's play area
• Gymnasium 
• Fitness Studio 
• Social Hall 
• Fully equipped classrooms for adult education
• Art Gallery and Cafe
• Youth Lounge 
• Aquatics Center
• Playground 

Rendering of Meyer I. Jewish Academy

In addition, the property will be shared by the Arthur I. Meyer Jewish Academy. The 41,600 sq. ft. facility will serve up to 500 students k-8 grade and construction is expected to be completed in June 2014. Students will start the 2014-2015 school year at the new facility.

RGD has worked closely with Tercilla Courtemanche Architects throughout the construction of JCC and will continue to do so for the Meyer Academy. Both facilities will work together to provide the finest educational and recreational programs to the Jewish community. 

RGD Consulting Engineers is multi-faceted engineering based out of South Florida. For more information about RGD Engineers, please visit the RGD Website. You can also find RGD Engineers on LinkedIn, Facebook, Twitter and Google +.

Palm Beach's newest Cocktail Lounge: HMF

Palm Beach, Florida--March 5, 2013--Opened in December of 2012, The Breakers' newest restaurant venture, HMF, introduces a thrilling new take on the classic cocktail lounge. 

The HMF, named for The Breakers' founder Henry Morrison Flagler, is a nod to the timeless American glamour of the cocktail culture.  Hospitality designer, Adam D. Tihany, acting as a design consultant for Peacock + Lewis Architects, was challenged with the task of re-creating the historic Florentine Room into a "contemporary Palm Beach cocktail soiree." 

"The nostalgia and the glamour of yesteryear are quite en vogue, while palates continue to become more sophisticated," said Tihany.  "We conceived HMF to be an open, interactive arena of decadent delights, and to cultivate a distinctly social, dynamic and inviting environment for the resort's savvy clientele."  

For the remodeling of the former Tapastry Bar and L'Escalier, RGD Consulting Engineers was enlisted to create and manage the mechanical, electrical, and plumbing designs. RGD worked closely with Peacock + Lewis Architects to ensure that Tihany's vision was captured. 

The new space features an open theater-style kitchen, a wine wall, and two mahogany bars with the original high beamed ceiling and wrought-iron chandeliers. The HMF is opened daily and offers its regular menu from 5 p.m.- 10 p.m. and its late night menu from 10 p.m. - 1 a.m. 

RGD Consulting Engineers is a multi-faceted engineering firm based out of Jupiter, Florida.  For more information about RGD Consulting Engineers or any media inquiries, please contact Nate Davenport at 561-743-0616 or visit the RGD Website here.   You can also find RGD on LinkedIn, Facebook, Twitter, and Google+. 

Jupiter Engineering Firm instrumental in development of Renaissance Charter Schools

Renaissance Charter Schools are expanding throughout Palm Beach County and RGD Consulting Engineers is proud to be a part of the expansion.

The Renaissance Charter Schools are managed by Charter Schools USA Inc., a Fort Lauderdale based company. They currently manage 37 schools in the state of Florida and are hoping to increase that number.  Last year, a Renaissance Charter school was opened in West Palm Beach, and three more are being planned.   

RGD Engineers has played an integral role in the development of these schools throughout the county.  Recently, RGD provided mechanical, electrical, and structural solutions for Renaissance Summit Blvd. located in West Palm Beach.  The school is now accepting applications for 2013-2014. 

Planning for another Renaissance school is underway with the new location in the Gardens.  Construction cannot begin until, city planning, zoning and appeals board reviews the plan and the city council approves it.  RGD Engineers will be planning and providing on-site management for the mechanical, electrical, and structural designs.

How to Avoid Costly Air Quality Problems

           As I approached the club's main entrance, the automatic doors opened and a rush of air filled the lobby. I noticed the receptionist's hair rustle as she placed her hand on the papers on the desk to keep them from blowing on the floor. As I waited for the club manager, I could smell a slight mustiness in the air, furnishings felt sticky, and the air conditioning diffusers were sweating. Discussions with the club manager revealed that members complained frequently of being warm. The card rooms were stuffy and the humidity was so high in the locker rooms that mold was growing on some of the golf shoes. Further investigation revealed that the building was operating under a severely negative pressure condition.

Few things damage a clubhouse more profoundly than a negatively balanced HVAC system. It is most acute in humid, Southern climates.Operating a clubhouse with severely negative pressure can set off an avalanche of bad things that can result in serious indoor air quality problems over time. Correcting these problems after the microbial growth has started can be a very expensive process.The good news is that these problems can be averted with proper HVAC equipment selection and a good maintenance program.

How it Happens

      A negatively pressurized building draws unconditioned outside air through every available opening. The lobby area is usually the first to feel the impact. Automatic doors opening and closing allow a huge amount of humid air to enter with each cycle, making the receptionist sweat in the summer and freeze in the winter.The lobby diffusers begin to sweat and soak into the surrounding hard ceiling where mold starts to grow.The humidity level everywhere inside the building rises.

Members feel warm because the evaporative cooling they get naturally from their skin under lower humidity conditions is reduced, so they call the facilities manager to lower the temperature in the space. Under elevated humidity conditions, the temperature usually needs to be maintained at 68-69 degrees for the majority of people to feel comfortable. When this happens, the building is in its most dangerous state for microbial growth. When the interior temperature of the building maintained is lower than the outdoor dew point temperature for a significant amount of time, water vapor will be drawn through the exterior walls. It usually condenses on the first impervious membrane it encounters. This can be the back of the wall board or some vinyl wallpaper. Once condensation occurs, mold, and the inevitable remediation costs, will not be far behind.
              Negative pressure is a condition found in clubhouses with alarming frequency. Clubhouse buildings, by their nature, employ significant numbers of constant volume exhaust fans. Usually the largest component of exhaust is located in the food service facility. It is not unusual for a major cooking facility to be exhausting 10,000-20,000 cubic feet per minute (CFM) of air from the cooking hoods. A properly balanced cooking hood system should be replacing approximately 80 percent of the exhausted air with fresh make-up air. This is usually supplied through a make-up air plenum located near the front of the hood. This leaves a net exhaust of 3,000-4,000 CFM from the kitchen area.

Add to this another 600-1,200 CFM from the dishwasher hood and another 500-1,000 from a display kitchen hood, and the aggregate exhaust can be in excess of 6,000 CFM from the food preparation area alone. Another 2,000-3,000 CFM likely will be added from the locker rooms and restrooms throughout the building. The net result is that a large clubhouse building can have a constant volume exhaust rate of 8,000-10,000 CFM. This is particularly problematic for clubhouse buildings because the exhaust rate is large compared with the square footage of the building, and units are run continuously.
To counteract the exhaust and maintain a neutral or preferably positive pressure in the building, an offsetting amount of outside air must be introduced. Because exhaust fans are at

Operating a clubhouse building with severely negative pressure can set off an avalanche of bad things that can result in serious indoor air quality problems over time.

constant volume (which means they run continuously with no variation in the flow rate), the make-up air also must be introduced in a similar manner.This is done through the air conditioning system- and therein lies the challenge.In humid Southern climates the humidity in the outside air is normally very high and goes through dramatic seasonal swings.The HVAC engineer is faced with the daunting task of providing a stable temperature and humidity condition inside the building with wildly varying outdoor temperature and humidity conditions.

Air conditioning systems maintain inside conditions normally by increasing or decreasing the air flow and/or the supply air temperature.There are a number of techniques engineers use to accomplish this task and some are more successful than others. Chilled water systems can use variable frequency drives on the air handlers to vary the air flow. Direct expansion systems, such as package roof top units, simply turn on and off based on the sensible demand. The challenge for clubhouse engineers is that neither of these methods are effective in maintaining neutral or positive pressure in the building when exhaust fans are running continuously.

What to Do?

Clubhouse buildings must be equipped with a dedicated 100 percent outside air pre-conditioner. This unit runs continuously and supplies a constant and equal volume of dehumidified outside air to the building. It should be interlocked to run when the cooking hood exhaust system runs. There are a number of manufacturers that produce this type of equipment. It can be done with chilled water or direct expansion equipment. The units are designed to remove large amounts of moisture from the air stream.

 The units also include a method of reheating the supply air to prevent overcooling the space. It can be done with a non-energy absorbing hot gas reheat coil or with electric heat. Sizing the unit is a subject of design as long as it can deliver an amount of outside air at least equal to the exhaust.

A very useful system to include is a cooking hood variable air volume system. This system uses variable frequency drives on the exhaust and make-up air fans to slow the exhaust rate down when there is no significant cooking being done on the line. The reality is that a fairly small amount of the hood's total daily operating time involves heavy grease and smoke-laden cooking. There is no need for the hood to be running full speed when there is no smoke being generated.

To provide comfort at the cooking line, it is advisable to provide temperature control for the hood make-up air. In the summer, the ambient air temperature can easily be 95 degrees plus. Dumping this air down on the chef at the cooking line can raise the temperature in this area to 110 degrees. This alone frequently drives the chef to turn the make-up air fan breaker off. Cooling half of the makeup air stream to 55 degrees and re-mixing with the remaining air will drop the temperature from 95 degrees in the summer to 75 degrees and 70-80 percent humidity.

With the basic equipment in place, the unit needs to be maintained regularly. All of the above discussed equipment can fail due to lack of maintenance and put the building into a negative air balance. The problem is that the equipment can fail and not be immediately noticed until serious problems start to develop. An aggressive maintenance program will keep the building properly balanced and healthy for many years.

About the Author

Robert Davenport is president and principal Engineer of RGD & Associates Inc., a South Florida firm specializing in clubhouse construction and renovation projects. 

 For more information about our services, visit RGD Consulting Engineers corporate website.