RGD Hosts Clients at 2014 Honda Classic

March 3, 2014--RGD was happy to host several clients behind the lines at this year's Honda Classic at PGA National.   Participating clients had the opportunity to walk behind the lines with several of the tournament's stars including Tiger Woods, Rory McIlory, Lee Westwood and winner Russell Henley.  Thanks for everyone who participated, we look forward to next year! 

The green building fad plays a key role in promoting energy savings, but does it do so at the expense of human health?

In the last 6 years, there has been a significant shift in the U.S. Green Building Council LEED rating system. This shift has been marked by an increased emphasis on energy efficiency over indoor environmental quality (IEQ). This shift was first noted in LEED 2009, with the IEQ Category decreasing from 71.7% (second most) available points to 13.6% (barely third most) points, while the energy category increased from 24.6% to 31.8%. These ratings remain similar in LEED version 4. The only requirements regarding IEQ according to LEED are related to controlling the environmental tobacco smoke and providing the ASHRAE minimum amount of outdoor air.   This is the precedent for many other rating systems as well. 

If your air quality isn't up to par, one of the reasons below could be your culprit. 

Reasons for Poor Indoor Air Quality 

1. Non-Cleanable Interior Ventilation Surfaces 
2. Too Much Outdoor Air 
3. Cellulose Materials In High Water Use Areas
4. Roof Pollutant Sources Near Air Intakes 
5. Construction of Dirt and Debris Left on New Building Ventilation Surfaces 
6. Ventilation Fan Cycling On And Off 
7. Using Hazardous Materials in New Buildings 
8. Building Envelope Issues 
9. Air Handling Units With Poor Access
10. AHU Condensate Lines in Bad Locations or Improperly Installed 
11. Inadequate and Improper Use of Products Identified as Low Emitting 
12. Inappropriate Air Quality Evaluation Parameters and Methods for New Green Building Pre-occupancy 
13. Depending Too Much on Building Flush Out 
14. Filers Not Performing Per Rating Due to AHU Design Or Maintenance/Installation Issues 
15. Installing Drywall Before Roof Or Windows are in Place 
16. Not Designing or Constructing for Radon Mitigation 
17. Exposed Fiberglass Insulation In Return Air Plenum Above Ceiling Tiles 
18. Plumbing Construction Defects 
19. Ventilation Supply and Return Short Circuits
20. Not Negatively Pressurizing Rooms with Pollutants Source 

For More Information: "20 Reasons your Green Building may not have Green Indoor Air." Engineered Systems. January 2014. 

Future Engineering: How CAD Could Change

CAD software has been the industry norm for years, but recent developments in technology are causing the CAD culture to shift.   For engineers, that will mean adapting their skills in order to accommodate these changes.  In the November 2013,  P.E. Magazine explores this evolution by highlighting some of the notable trends as a result of these developments, which are summarized below.  

1. 3D Models- One of the biggest trends is the transition from 2D modeling to 3D.  The result of this transition is enhanced collaboration between team members, higher quality of construction documents, and less errors and design changes.  It is not IF you will switch to BIM, but when. 
2. Analyzing the model--As the industry moves toward 3D modeling, more companies are developing tools to better interpret these 3D designs. While many of these calculations aren't new feats, the ability to do these calculations on a computer using an inexpensive software, while answering an architect's email certainly is.  
3. Affordable Powerhouse Computers--While technologies are making computers more powerful, they are also reducing in cost. The engineer can design, analyze, render and animate design all one one machine. 
4. Model Coordination and Clash Detection--3D modeling is enhancing collaboration between disciplines. Disciplines can work on individual systems and sync their models with team members. This enables teams to catch mistakes early, speed up projects and reduce in-field engineering costs. 
5. More Distributed and Connected Work Teams-- In the modern world, it is a rarity when design teams work within a close proximity of one another. That's why cloud-based software is becoming more of a necessity.  There is still a concern about the security of intellectual property, but engineers should certainly still consider cloud based solutions as an option. 
6. Software and Computer Rental- For specialty projects, where unique software is needed, software companies are now allowing firms to rent software to accomplish specific project goals.  

CAD changes are inevitable, the question will you be prepared for the shift?

Originally published in P.E. Magazine under the title "CAD Forecast." November 2013.

Building Information Modeling (BIM)-The Dream Realized

"The scientific man does not aim at an immediate result. He does not expect that his advanced ideas will be readily taken up. His work is like that of the planter-for the future. His duty is to lay the foundation for those who are to come, and the point the way." - Nikola Tesla 

BIM is transforming how we think about
 design & construction. 

As an industry buzz word, Building Information Modeling (BIM), has been gaining steam over the last few years. For many, it is the future of our industry, merely in its infancy; but with the release of new technologies there is little doubt that when the full potential of BIM is realized our approach to design will change.

One of the technologies responsible for this shift is Autodesk Revit, a BIM software. Released in April 2000, Revit is quickly evolving from simply being 'cutting edge' technology into a necessary and preferred tool of choice for a growing number of architects, builders and engineers. It will soon become a requirement to design, document and deliver the project. For design professionals it is no longer a question of IF you will adopt BIM, but when.

For the past year, RGD's team has slowly been adopting Revit. Our goal is to transition to 100% utilization by January 2014.  By nature, Revit promotes collaboration between disciplines and key personnel, which allows for the creation of designs that are both spectacular and realistic. We have found this to be true as our Revit experience expands, and we hope that by embracing Revit, we will be able to better serve our existing and future clients so that their designs can be fully realized.

How will RGD's Adoption of BIM Benefit You?

• Greater coordination and collaboration between our team and yours. 
• Faster delivery of projects. 
• More economical designs.  
• Less errors and design changes.  
• Better visualization of your designs. 

As the potential of BIM matures, RGD hopes to grow along side it.  By using the best technologies available on the market, we can provide even better engineering solutions to our clients. Our commitment to BIM is a commitment to you.

To learn more about RGD's services, please visit our website.

Fan Efficiency Grades--Overcoming Energy Challenges

Fans account for a large amount of the energy consumed in HVAC systems.  According to Michael Ivanovich--director of strategic energy initiatives for the Air Movement Control Association (AMCA) International,  fans account for 80% of the so-called parasitic load--that is HVAC loads other than prime movers like chillers and boilers.

Selecting fans to reduce energy waste has been difficult in the past, as there were no universal fan selection guides and metrics.   In 2007, AMCA international began working to develop a fan efficiency classification system, called the Fan Efficiency Grade (FEG).  It was formalized with the publication of AMCA 205 in 2010

What is a Fan Efficiency Grade

AMCA defines FEG as "a numerical rating that classifies fans by their aerodynamic ability to convert mechanical shaft power, or impeller power in the case of a direct driven fan to air power."  This allows engineers to more easily differentiate between fan models. The higher FEG ratings, the more efficient the fan model. 

Why FEG Matters 

It is important to understand the nature of FEGs, because these efficiency grades, essentially an index of inherent aerodynamic quality, are referenced in last year's international Green Construction Code (IGCC), and the 2013 update of ASHRAE 90.1.

It is likely more will adopt the AMCA fan standards, as AMCA members begin to work with 2015 International Energy Conservation Code (IECC) language and members of the SHARE 189.1 committee.

Reference:

AMCA "Fan Industry-Facing up the Energy Challenges" 

Do We Need More Engineers?

The Engineer Debate:
Quantity vs. Quality

According to the Bureau of Labor Statistics, the number of science and engineering jobs in the U.S. is expected to grow more than 1 million between 2010 to 2020. What's more, it is expected that the nation will need 1.3 million of these professionals to replace workers who are exiting the field.

Despite these statistics, engineering ranks number 6 on the hardest jobs to fill in the U.S. As many firms struggle to find competent employees to hire.  The question is why, when there seems to be so many engineers looking for employment and so many eager firms looking to hire?

It is this question the PE Magazine attempts to dissect in their October issue.  So who is right? Does the U.S. need more engineers or fewer engineers? And does the problem stem from the lack of preparation of our graduates or does responsibility rest on the unrealistic expectations of firms who are hiring?  

Perhaps both are to blame.  Here is a breakdown of some of the noticeable deficiencies of graduates with engineering degrees along with the firms seeking to hire:  

The Graduates 

• The large majority of graduates lack  field experience, which means firms must invest a substantial amount of time training recent graduates. 
• There is no universal software used by every firm. Often graduates aren't familiar with the software utilized by the firm they are applying to because often what they use in their classes is not always the same. 
• Lastly, graduates lack initiative on the job, which if a sought after quality by most firms. 

The Employers 

• One of the major problems with employers is that they desire something unavailable in the market place. As experienced engineers with the technical skills they require often have secure positions and/or expect substantial wages for their expertise. 
• Likewise, employers have unrealistic expectations for their new hires.  
• Lastly, many employers don't want to pay what it may take to secure talent. 

What's the Solution?  

There isn't a perfect solution, but clearly the academic and professional world must work together to overcome these difficulties.

Engineering curriculum should require students to partake in an internship for a semester, which is common for degrees like education.  Likewise, engineering firms must recognize that perfection does not exist. Instead, new hires must be viewed as the investment that they are.  It may take years for the new hire to reach its full productivity comparable to the employee's salary. 

Tell us what you think?
Should companies be concerned about the potential lack of engineers or is it simply a result of inefficient preparation of graduates or unrealistic expectation?

Solar Powered Systems Give Hope for Developing Countries

Solar Powered Sterilization System developed
by researchers at Rice University. 

For developing countries, the basic amenities are a rarity often taken for granted by those who are privileged enough to use them on a daily basis.

However, technological advancements, such as solar power systems, are giving hope that one day developing countries may have access to electricity, sewage treatment and other services.

Researchers from The Rice University Laboratory for Nanophotonics in Houston, have developed a solar-powered sterilization system that uses nanometerials to create steam from water.  This system has the ability to convert as much as 80% of sunlight's energy to heat that is capable of killing germs. Researchers are optimistic that this system could help countries that lack sanitation.

In a report published by the Proceedings of the National Academy of Sciences, when the system is used in conjunction with a specially designed autoclave, it is capable of sterilizing medical instruments and sanitizing human waste.  The setup can reportedly handle the waste of a family of 4 with two treatments a week.

According to Naomi Halas, one of the team leaders, a professor and fellow nanophotonics researcher at Rice, the ability of the solar system to efficiency convert sunlight into steam, opens the door for sterilization systems that are independent of electricity.

The efficiency of the system originates from the use of light-harvested nanoparticles. These particles heat up so quickly that they instantaneously vaporize the water and create steam, all before the water even boils.

This system is more than 24% energy efficient. This is even more remarkable when compared to the photovoltaic solar panels, which have an energy efficiency of around 15%.

The heat and pressure created by the steam also sufficiently kills microbes as well as spores and viruses.

This article was derived from the headline "Focused Attention," which appeared in the October 2013 edition of Mechanical Engineering. 

BIM-The Way of the Future?

Technological advancements have revolutionized how many industries operate. Take for example, the telecommunications industry.  In recent years, the art of letter writing has quickly been replaced by email and texting. In fact, communication has never been easier. 

For the construction industry, change has occurred more gradually, but now, Building Information Modeling, or BIM, may be finally changing that.  

   

What is BIM? 

BIM is a three dimensional digital representation of a building and its characteristics.  As one of the most promising developments in architecture, engineering and construction, BIM allows for the creation of a virtual model through a digitally constructed building.

This computer generated model contains precise geometry and data, which can be used to make decisions and improve the design process.

Benefits of BIM

BIM technology has numerous benefits for design professionals and facility owners and managers. 

• Tighter Coordination: BIM enables all members of the design team, including the customer, contractor and specialists to work more collaboratively. This improves the project's development through every stage of the design process.  No longer will the interaction of firms and disciplines be confined to the exchange of construction documents.  BIM enables tighter integration of the design teams, which results in a more cohesive and effective design.
• Less Costly Revisions: The integration of the schedule and cost information improves the sequencing during construction. You can get a complete picture during the design.
• Life Cycle Data: BIM is further enhanced after the construction of the facility. BIM is first and foremost about the information and data.  It acts as a computerized maintenance management system. Equipment specifications and schedules are easily accessible and critical functions can be integrated into the system.

Additionally, in a study conducted by the Stanford University, Centre for Integrated Facilities Engineering of 32 major projects using BIM (2007), it was determined that BIM will enable:

• Up to 40% elimination of unbudgeted change 
• Cost estimation accuracy within 3% 
• Up to 80% reduction in time taken to generate a cost estimate. 
• A savings of up to 10% of the contract value through clash detections. 
• Up to 7% reduction in a project time. 

McGraw-Hill Construction reported that the use of BIM technology increased from 17% in 2007, 49% in 2009, to 71% in 2013. Despite it's rapid growth, the widespread implementation of BIM technology still faces significant challenges. Still, the potential of BIM technology makes it an indispensable tool and skill for the design professional. Those who opt not to adopt BIM, may find themselves falling behind. 

Resources: 
http://www.smartplanet.com/blog/take/the-future-of-construction-meet-bim-or-else/441

http://www.burnsmcd.com/Resource_/Article/5721/PdfFile/aticle-SeeingtheFutureBIM.pdf

http://www.construction.com/about-us/press/bim-adoption-expands-from-17-percent-in-2007-to-over-70-percent-in-2012.asp

http://www.wspgroup.com/en/wsp-group-bim/10-truth-bim/

Generators: What you Need to Know

Nothing is more frustrating than a power outage.

From unpredictable weather to man-made natural disasters your business's operations are in jeopardy of being disrupted. Even more disheartening is the statistic that when businesses are forced to close because of a disaster, at least one in four never opens again.

By having a generator for your facility, you can ensure that your operations can continue to run smoothly no matter the disaster happening around you.

Choosing a Generator 
There are a variety of generators available and knowing the advantages and disadvantages of both can better help you make an informed decision.   One of the first choices you must make is whether or not to invest in a portable or standby generator.

Portable vs. Standby

Portable generators must be
manually hooked to appliances. 

Portable Generators

During a power outage, you must hook up your portable generator and plug it into the appliances you want to power or a subpanel. While portable generator are less money, they have limitations. Your portable generator can only be hooked up to a certain number of appliances at a time.

Standby generators  are wired into
 the building's electrical system.

Standby Generators

Unlike portable generators, standby generators are wired into your building's electrical system through a power switch.  Your standby generator will automatically start during a power outage.  A standby generator isolates your "emergency" electrical wiring and provides power to the selected equipment from the normal power source which then transfers the emergency load to the generator.  When power is restored the switch will also connect "emergency" circuits back to the utility lines and turn off the generator. In addition to the convenience of automatic switching, permanent generators offer higher power levels compared to portable units and longer run times.  

Sizing your Generator 

To choose the appropriate sized generator you must determine what your electrical needs are. Consider all the items you would like to power during an outage. Find the wattage and the year it was made. Add up the wattage of all your appliances and other items you want to power and double it. This can give an estimate of the amount of 

Choosing the Right Fuel

Most generators run on gasoline, but there are also other fuel alternatives that  s depending on your needs.

Natural Gas

Advantages:  Cleaner compared to oil and coal, inexpensive and readily available.

Disadvantages: Extremely explosive and a fire hazard, emits carbon dioxide and it is a limited or non-renewable resources.

Propane

Advantages: Long shelf life, doesn't evaporate overtime, clean burning, quieter engine noise level, and more emission compliant. 

Disadvantages: Pressurized cylinder of flammable gas, fuel system is more complicated, tanks are not as aesthetically pleasing, fuel system plumbing results in higher installation cost, somewhat expensive fuel.

Diesel

Advantages: Higher ratio of costs to energy density, assures steady power,reduces maintenance because there are no spark plugs or wires, long life span and least flammable fuel source.

Disadvantages: Expensive, tends to be nosier, large and bulky and considered a pollutant.

Be Careful What you Say...Your Walls Could be Listening!

Princeton researchers develop a way to
 embed ultra-thin radios  to plastic sheets. 

Eavesdropping just took on new heights with the creation of walls that can listen and even speak. 

Researchers at Princeton University have developed a way to embed ultra-thin radios to plastic sheets, which can be placed on a variety of structures.  These listening walls have the potential to be the foundation for invisible communication systems inside buildings or to function as sophisticated structural monitors for bridges and roads. 

Originally the intent of this technology was for the application of smart building energy management. Through the use of distributed radio arrays that are patterned on wallpaper, temperature sensors and occupancy sensors are able to communicate with a central management system. 

These thin plastic sheets have the potential for several applications. The sheets can be painted without diminishing their function and can be applied to irregular surfaces such as bridge decks or supporting columns because of their flexibility. 

Patterning Circuits on Plastic 

One of the major difficulties with this technology was patterning circuits on the plastic sheets, as the high temperatures needed to create circuitry will melt the plastic. New methods for patterning circuits on plastics have helped researchers surpass this problem. However, these new methods compromise the performance of electronic components such as transistors, which are vital in the operation of complex devices such as radio transmitters. 

Transistors, the building block of modern electronics, are devices that control or switch the flow of electrons in circuits. The silicon crystal that forms the base of transistors allows for electrons to move quickly.  

Because plastic is susceptible to melting at high temperatures, researchers turned to amorphous silicon transistors in place of crystalline silicone, as amorphous silicon does not require high temperatures like the crystal form.  However, amorphous silicon lacks the highly ordered inner structure of the crystal form. This inhibits the electrons ability to move efficiently, as it is like changing from a smooth superhighway to a gravel road. 

Researchers were poised with the challenge of speeding up the movement of electrons through the transistor (faster movement means higher frequency), despite the lower-performing amorphous silicon transistors. 

The Super-Regenerative Circuit 

To overcome this problem, the Princeton researchers found inspiration from the father of FM Radio, Edwin Armstrong. In 1922, Armstrong developed the super-regenerative circuit, which uses other components to increase the radio's frequency and bypass the poor performance of the amorphous silicon transistors. 

In 1922, Edwin Armstrong
developed the super-regenerative circuit.

By bouncing electrons between a capacitor and an inductor, the super-regenerative circuit, is able to store and discharge energy.  The energy change caused by the bouncing electrons depends on the super regenerated circuit's capacitor and inductor--not the transistor.  This allows the radio to operate at a high frequency despite the poor quality of the transistors. 

The key was to prevent the electrons from being lost as they bounced back and forth between the capacitor and the inductor, as lost electrons would than be compensated through the faulty transistors. This meant high quality capacitors and inductors.  

This was good news to researchers as large inductors are easier to build. And due to the fact that the radios were designed to fit on walls, there was plenty of space. In the end, despite the poor quality transistors, the circuit worked perfectly with the new system.  

The Future of Structural Monitoring Systems? 

Researchers are developing ways to use this technology to create flexible structural health monitoring systems for bridges, buildings, pipelines and other structures.  

Plastic sheets embedded with radios
could better detect structural problems. 

Currently, engineers are able to use single-point sensors or fiber optic strips to detect structural problems. Unfortunately these devices are limited and can only collect data from relatively small spaces. This makes detection of early problems difficult, as most problems occur on larger spaces. 

Plastic sheet technology could make monitoring these structures more efficient.  The linked sensors could potentially detect imminent structural problems over larger areas. 

While the research of this project still remains in early development the results are encouraging. A prototype is in the works, but it will take many years of research and development before this technology is utilized in such a manner. 

This article was originally published, "The Walls have Ears: Princeton researchers develop walls that can listen, and talk" from Phys.org on August 21, 2013.  

Sick? Your Air Conditioning Could be the Cause

Is your air conditioning making you and your family sick? 

For many, air conditioning is the embodiment of comfort living, particularly in the summer months when the heat index can be unbearable.  But could your air conditioning be causing more harm than good? 

According to the Director of the Common Cold Centre at Cardiff University in Wales, Professor Rob Eccles, exposing the body to extreme temperatures could actually make you sick. 

 Here's Why: 

As warm blooded animals, the human body's optimal temperature is around 98 degrees Fahrenheit. In extreme cold environments the body will fight to maintain this body temperature.

Cold temperatures cause blood vessels
 to  constrict and diminish number 
of white blood cells.

One of the body's defense mechanisms against the cold is the thermal regulator in the brain. As soon as it receives a message from the temperature sensors in the skin, the blood vessels are alerted to constrict. This immediately causes a person's skin to become ashen or mottle, which is quickly followed by shivering in order to generate heat to raise the body temperature. 

As a result, the blood vessels in the nose and throat, both of which are favorite locations for bacteria and viruses to hide, will constrict therefore limiting blood flow. 

As the blood flow diminishes, the white blood cells that typically fight bacteria and viruses do too. This allows these dormant risks to develop in to colds. Low blood flow to the throat means that there isn't enough white blood cells to ward off infection. 

Sweating exacerbates the problem because it keeps the body colder. This makes it more of a challenge for the body to maintain its optimal temperature. 

Going from hot to cold environments could put
you at risk for a cold. 

Professor Eccles emphasizes that a cold will only develop if the bacteria or virus is already present in the body.  

This phenomenon occurs when going from a hot environment to a cold atmosphere not the other way around. Though, Professor Eccles recommends limiting the number of times you go from a cold environment to the hot outside as when your body acclimates to the heat and steps back inside the chilling cycle will begin again. 

This article was derived from the headline "Does Going from Hot to Cold Cause Colds?" which appeared on August 20, 2013, in the U.S. edition of The Wall Street Journal. 

Benefits of Green Building

The green building phenomenon is sweeping across the world, but many doubt the benefits of this movement.

Instead, they believe it is simply a political agenda or a means for more costly construction projects.

The reality is, a green building project can have environmental, economic and social benefits as described below: 

Environmental Benefits 

• Emission Reductions--Green building techniques such as solar powering and daylighting can increase energy efficiency and reduce harmful emissions.
• Water Conservation-Implementing water recycle programs for urinal flow and irrigation can significantly lower water consumption and increase savings.
• Temperature Moderation-Conscientious building designs and site selection can reduce the urban heat island effect caused the heat retention properties of tall buildings and urban materials.

Economic Benefits

• Energy & Water Saving- Green design and technology can drastically reduce operation costs. This can offset any additional project costs, while offering long-term savings. 
• Increased Property Advantages-Low operating costs that come with green facilities can lead to lower vacancy rates and higher property values.
• Increase Employee Productivity & Health-There is a positive correlation between indoor environmental conditions and improved employee health and productivity. 
• Sales Improvements-Studies show stores with more natural light have more sales. 

Social Benefit 

• Improved Health-Poor indoor environment quality can contribute to respiratory problems, allergies, and nausea headaches. Implementing green building features can provide for a healthier and more comfortable living and working environment.  
•  Improved schools-About 40% of the schools in the United States are subject to poor environmental conditions that can affect the health and learning of students.  Studies show that schools utilizing green building techniques often experience a reduction in student absentees and see an improvement in test scores. 
• Healthier Lifestyles & Recreation- Sustainable designs preserve natural environments and provide for more recreation and exercise opportunities. They also promote alternatives to driving such as bicycling and public transport. 

What’s so special about Clubhouses?

Ballen Isle Country Club
West Palm Beach, Florida

The Complexities of Designing HVAC Systems for Clubhouses  

Clubhouses are unique among buildings. They house restaurants, community centers, banquet halls, entertainment complexes, retail spaces, fitness and spa centers and even offices all wrapped up into one facility! 

Dripping Diffusers

The clubhouses' unique nature is one of the major reasons why faulty HVAC systems are common; especially in humid climates such as Florida.

Perhaps, one of the most frequent issues that engineers uncover during a due diligence survey is a facility operating under a severely negative air pressure condition.

Common Symptoms of Negative Air Pressurization  

•  A lack of fresh or clean air, instead a musty smell or other bad odors lingering in the air
• Condensation on the Diffusers
• Visible Mold or Mildew Growth along with Moisture on the Walls 
• Sticky or Damp Furnishings
• Varying Temperatures Throughout the Facility 
• Stagnant, Stale or Heavy Air that causes Humidity or Condensation 
• A Rush of Air or Draft when Opening an Exterior Door 

According to Bob Davenport, RGD Consulting Engineers' Principal Engineer, who has over 35 years of experience designing HVAC systems, "Operating a clubhouse with severely negative pressure can result in serious indoor air quality problems over time." 

Solutions

 If not caught before the start of microbial growth, negatively pressurized facility can be a costly issue to rectify. This is why having the proper HVAC equipment and a good maintenance program is important to preventing issues such as negative air pressure from occurring. 

Ensuring that the clubhouse building is equipped with 100% outside air pre-conditioner, runs continuously and supplies a constant and equal volume of dehumidified outside air to the building is key to maintaining the air pressure. 

There are a variety of methods for achieving this goal, and the most effective HVAC design system can be determined by a professional engineer after completing a thorough survey of the facility's systems. However, even the best designed HVAC systems can fail when they are not maintained. 

Just as important as working closely with an engineer for the design of your facility's HVAC system, is the creation of an aggressive maintenance program.   With these two factors planned well, your facility's HVAC system will stay balanced and healthy for years to come. 

This article is adapted from "Is Your Clubhouse Stuffy" written by Robert Davenport, PE, LEED AP + BC. 

Thermostat Wars: HVAC vs. Home Security Industries

The HVAC industry is battling with homeowners, home security and home automation companies to determine who has the authority to install thermostats as a part of "smart home systems." 

The issues has taken on new heights with several HVAC industry organizations pushing for legislation to prevent home security and other non HVAC companies from replacing thermostats with products that communicate with security and home control systems. 

HVAC companies claim that HVAC systems use exclusive protocols and special communicating thermostats to control equipment that don't follow standard thermostat configurations, protocols or wiring. 

According to Dominick Guarino, the CEO of the National Comfort Institute, this approach to this issue has little substantiation, as many home security and home automation companies have their employees complete extensive education to be able to install this technology. However,  the issue that should be at the forefront of this battle, is who is responsible if the technology is incorrectly installed.  

Guarino recommends that instead of fighting this issue on a government level,  HVAC companies should fight this battle in the marketplace through education.  Let your customers know that having a third party install an intelligent thermostat could have negative consequences.

To learn more about this issue, visit the original article here.

Due Diligence: Why you Need it Before Buying

Buying a building can be a daunting task, but don't let a bad decision haunt you for years to come. Being a pro-active buyer and having a professional engineering firm perform due diligence to your facility prior to

your purchase can significantly decrease problems later down the road.

What is Due Diligence? 

Due Diligence is the process of systematically investigating and verifying the condition of a facility in order to audit the potential investment. If you are considering purchasing a commercial property,  due diligence can confirm that your intended use of the facility is possible.

A professional engineering team can help you evaluate whether or not there are any major issues with the building.  After the analysis of your facility, the firm will produce a report of their findings that will include:

1. Analysis of the structural, mechanical, electrical, plumbing and fire protection systems' conditions and adequacy. 
2. Estimated life span of existing equipment and structural support. 
3. Recommendations for immediate repairs and replacements.
4. Upgrades for improving existing systems' efficiency and reducing costs.
5. Building Code Violations that needed to be addressed.

Are you looking to Buy?

 Let RGD Consulting Engineers help you get the most of your investment.  While many engineering firms specialize in particular areas, RGD is a multidisciplinary engineering firm and able to evaluate all your structural, mechanical, electrical, plumbing and fire protection systems.  Contact us to see how we can help you on your next project.

Understanding Green Certification Programs

As the Green Building movement expands, so do the resources available to design professionals and business owners.  Knowing your your project's objectives and goals can help you determine what

certification program is best for you.

Here are a few organizations that offer Green Building Certification program:

1. The Global Building Initiative (GBI)  

The Green Building Initiative is a web based green building program. This LEED alternative is, aims to reduce a facility's overall environmental impact, while improving sustainability.

The program is geared toward new construction and big renovation projects, but offers guidance and a cost effective green building rating system.

The GBI can help reduce operational costs, qualify for tax incentives, meet federal mandates or increase the marketability of your buildings.

2.  GBC Florida Green Commercial Building Certification Program.     

This nonprofit corporation is committed to spread the green building initiative in the state of Florida.  They provide a variety of resources and sponsor a variety of education programs for design professionals, consumers and government entities.

3. USGBC's  LEED Program 

LEED or Leadership in Energy & Environmental Design, offers flexible and comprehensive certification programs that address the entire building's lifecycle. 

With LEED, building owners and operators have a practical means for measuring and implementing green building design, construction, operations and maintenance solutions. 

LEED uses third-party verification to determine that a facility or community was built with environmental and sustainability in mind. 

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! 

New Liability Laws for Design Professionals in Florida

As of July 1 2013, Florida Design Professionals have liability protection under the condition they follow specific requirements of the new bill.  Previous court decisions have stripped engineers of the right to enforce liability clauses in design professional contracts.

Under Senate Bill No. 286, signed by Governor Rick Scott in April, redefines the term "design professional to include Geologists . It also specifies that individual design professionals employed by a business entity may not be held liable for negligence.  

In order to be protected by this statute, contracts between the business entity and claimant, must exclude mention of specific design professionals, and include a clear statement specifying that the individual employee or agent may not be held liable.   A design professional will not be held liable for negligence for professional services under these conditions:

1. The business entity must execute the contract with a claimant or with another entity for the provision of professional services on behalf of the claimant; 
2. The contract includes a prominent statement, in uppercase font that is at least 5 point sizes larger than the rest of the text, that, pursuant to this section, an individual employee or agent may not be held individually liable for negligence;
3. The contract does not name the individual employee or agent as a party to the contract;  
4. The business entity maintains any professional liability insurance required under the contract; and any damages are solely economic in nature the damages do not extend to personal injuries or property not subject to the contract.
5. The conduct of the design professional giving rise to the damages occurs within the course and scope of the contract; and
6.  The harm does not extend to persons or property not subject in the contract and is exclusively economic in nature.

If a contract fails to meet these specifications, then a licensed engineer employed through a business entity is not except from personal liability for negligence, misconduct and wrongful acts.  

Visit Florida Senate Bill No. 286, to learn more the liability protection for design professionals. 

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.  

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 +.