Every four years the American Society of Civil Engineers provides a Report Card for America’s infrastructure. This year the United States received a D+. It’s a slight improvement from four years ago, but still pathetic. Our infrastructure—the very thing that more than 315 million people in the United States rely on every day—is crumbling.

That’s the bad news. The good news is in the opportunity this creates to build a better, long-lasting and more sustainable infrastructure that will benefit both the economy and the environment. A nation of smart buildings, high-speed transportation, clean energy, light-speed communications and sustainable architecture are all now within our reach. And the key to this more efficient and productive future is in sustainable technologies.

The 2013 Report Card for America’s Infrastructure includes evaluations of aviation, bridges, dams, drinking water, energy, hazardous waste, levees, ports, rail, roads, schools, solid waste, transit and wastewater. Since the report’s inception in 1998, every grade in every section from water to roads has been near failing. A consistent lack of investment and maintenance has left our systems in state of decay. This is not hard to see. How many experience more potholes in the roads, traffic jams from outdated stop lights or airport delays from ancient air traffic control systems? How about brownouts and power outages, floods from aged levees and dams or contaminated drinking water from pipes laid in the 19th century?

The Report Card’s constructive criticism can form the basis of a blueprint for modernizing infrastructure with sustainable technology. So much needs reconstructing, and applying sustainable technology and holistic building principals will provide more reliable and long-term solutions. Modernized roads and traffic systems can have a ripple effect on efficiency. Updated communications using fiber optics and wireless technologies will connect rural communities to a global society. There should be solar panels on every inch of roof space, and wind turbines in expired oil fields. Sustainable architecture and building practices for new schools, dams, bridges and waterways will lower our collective carbon footprint. All of this can be done with automated and sustainable technologies—in architecture, energy production, monitoring and automation. Everything will be interconnected and communicating to ensure better stability and efficiency.

What areas need the most work?

The Energy Problem
Let’s face it: Our country’s electrical grid belongs in the third world. If you disagree, then you did not see the Super Bowl. The Report Card states a massive investment is required to avoid power interruptions and eventual collapse. There is currently waste and instability almost beyond measure. During storms or heavy usage the grid is stressed and goes down, affecting millions. The system is designed for the use of fossil fuels to provide energy and is not yet capable of supporting some of the large investments being made in renewable energies. Most of the large wind and solar farms are in rural areas not connected to the grid.

Solution: An updated smart grid, still very much in development, will handle the increased usage and better incorporate renewables like solar, hydro, geothermal and wind power. Modernizing and automating our grid will allow for better power management, such as that in automated buildings and homes, making all of our appliances and devices more efficient. Some buildings and homes are now being designed and retrofitted with automation systems that control and monitor subsystems, including energy management. This can and should be applied on a national scale, using available technology.

The Water Problem (Pipes, Dams, Waste Management) 
The ASCE report states that most of the dams in the country are over 50 years old, there are 250,000 water main breaks a year, and of the 250 million tons of trash in 2010 only 85 million were recycled or composted (a 34 percent rate).  The report also states there are pipes in the northeastern part of the country from the 1880s. Replacing all the water pipes in the country would cost trillions, but the lack of investment is taking its toll.  With an increased population, diminishing reservoirs and consistent drought conditions, wasting water is not an option.

Solutions: Updating and automating water distribution systems will eliminate waste as water becomes our most precious commodity.  Including sensing and monitoring technologies to track contaminants, eliminate waste and stream line repairs. Refining solid waste recycling will divert materials from the landfill to the factories for raw materials. On a smaller scale, buildings and homes using rainwater and graywater harvesting systems recycle water for use in landscaping and flushing toilets. More efficient pool pumps, automated irrigation systems and hot-water recirculators are other great ideas to help homes and businesses save on their water usage and water bills, while conserving our most precious resource. Let’s also not forget that water and energy production are linked: Much of our water is used to cool power plants, so conserving electricity conserves water, and vice-versa.

The Transportation Problem
Image via Report Card for America’s infrastructure
Image via Report Card for America’s infrastructure
Too many of our roads and bridges are in a state of disrepair. And with population increasing, more people use them every day.  Aviation received a D.  The report says our outdated air traffic control system causes $22 billion a year in delays. How much fuel or how many hours are wasted, affecting the bottom line? Public facilities are also included. Schools and parks built for the Greatest Generation and Baby Boomers are crumbling as well.

Solution: Transportation systems could be updated to include high-speed rail, automated traffic systems, pressure sensors on bridges, and readily available plug in stations for hybrid electric vehicles.  Updating air traffic systems with modern technology can automate and streamline the process. Updates are desperately needed in thousands of buildings and locations that could also be tied into an automated society. Big Data and data analytics can be used to analyze how roadways are used and when, and redesign them with the most efficient investments. Government buildings can become more energy-efficient through private-sector ESPCs (Energy Savings Performance Contracts) that pay back long-term loans for efficiency upgrades through the energy savings.

The Digital Deal
In the last 100 years there have been two major investments and overhauls to our country’s infrastructure. We now have the technology to invest in modern, digital versions of the New Deal and Great Society. Yet taxpayers do not have to foot the entire bill.  The 21st century also allows a much larger contribution from the private sector, due to the resources in businesses within local communities. The long-term effect will be different from the past as well.

Make no mistake: The cost of modernizing and updating our infrastructure will cost trillions of dollars and take decades to complete. A large number of our bridges, roads, dams and lights have to be replaced. But the innovations that will result from rebuilding a sustainable society will have a huge, positive impact on our economy and the environment.

Automating and maintaining the new infrastructure will create high-tech green-collar jobs.  Opportunities will abound for businesses and entrepreneurs, from the design process through building and construction. There will also be opportunities for the unemployed and returning veterans. The result will be a modernized United States with a sustainable infrastructure equal to its stature.

Redesigning and modernizing our infrastructure to be sustainable is more than just updating roads and dams. It will revive our economy and our environment. It will make our infrastructure more resilient to climate change and population growth. It will have a ripple effect that will shift the paradigm of our society and set an example to the world that we still possess the gift of innovation.

Tommy Kissell is the owner/president of sustainable electronics integrator Eco High Fidelity of Carrollton, Texas, and a regular contributor to GreenTech Advocates. See some of his company’s cool installs in the links below.

Editor’s note: Most electronics integrators who use Panamax/Furman’s BlueBolt remote monitoring systems do so because of their ability to reboot connected rack components remotely, without requiring costly and time-sucking truck rolls. Though the systems can also monitor the energy consumption of the rack components, this is not the primary driver for their use. Regardless, remote monitoring systems like BlueBolt  help make systems integrators sustainable in other ways. Tommy Kissell of Eco High Fidelity in Carrollton, Texas, explains:

BlueBolt also allows scheduling of components to be shut down for energy conservation.
BlueBolt also allows scheduling of components to be shut down for energy conservation.
How many Thanksgivings, 4th of Julys or Saturday nights have been spoiled by a custom integration client’s frozen satellite receiver or cable box, router or modem? It used to be that the only answer was to roll out a van and send technicians. The technicians’ weekend interrupted, the overtime cost, fuel, and the variable of a van on the road all factor in when the phone rings.

Now custom electronics integrators have evolved equipment racks into command centers that control and monitor entire homes and buildings. Distributed audio, video, automation and subsystems require monitoring, energy management and remote access. Every project has the potential to evolve our sustainability, and remote monitoring technologies like Panamax/Furman’s BlueBolt are taking us there.

BlueBolt’s remote power and energy management system provides real-time, cloud-based control and monitoring that allows integrators to remotely access and reboot equipment connected to some Panamax and Furman IP-addressable power management products. It also allows energy monitoring and scheduled energy conservation by cutting power to some components when they’re not in use, making the rack itself more energy-efficient and sustainable. BlueBolt also has a large and growing network in its Control Partners Program that includes AMX, Crestron, Elan, RTI  and URC, enabling dealers to integrate these systems with BlueBolt technology.

No longer do crews have to drive many miles to reset systems. Today, with more installations revolving around centralized distribution, BlueBolt’s ability to monitor and control the centralized components remotely makes integrators more sustainable. For example, if there is a lock up with a processor or satellite receiver, BlueBolt allows for a remote reset, which fixes the problem and creates the domino effect of sustainability. The technician does not have to drive his vehicle to the van, and then the van to the client—and this saving grace lowers the integration firm’s carbon footprint. It also alleviates the frustration of the client, because technicians do not have to go into the home on evenings and weekends. Clients with secondary residences or larger homes with rooms they use sporadically will benefit from the energy conservation and monitoring features.

BlueBolt's MD2-ZB plug-in module has status lights for each outlet and communicates energy usage and control signals via a ZigBee gateway and RF wireless mesh network.
BlueBolt’s MD2-ZB plug-in module has status lights for each outlet and communicates energy usage and control signals via a ZigBee gateway and RF wireless mesh network.
The limitations of BlueBolt are in the rack.  The rack-based systems cannot monitor the whole house’s energy, but only the components connected to the system. BlueBolt does offer a wirelessly communicating MD2-ZB plug-in module to be used throughout the house to control, protect and monitor devices, but the modules are somewhat bulky and can be unattractive in homes, and you have to plug one into every outlet you want to monitor, which can get pricey at $100 piece.

More energy monitoring and control systems are becoming available through control and automation companies, such as Savant’s SmartEnergy and Crestron’s Fusion EM software and Green Light power meter. And progress is being made in some installations that incorporate circuit-level monitoring such as Powerhouse Dynamics’ eMonitor with control systems, though this often requires some extra programming.

We clearly need to see more systems combining automation and energy monitoring, effectively creating true energy management systems. But systems like BlueBolt are a good start toward making your company more efficient and sustainable. Every van that does not have to roll is a step in the right direction and lessens your carbon footprint. That is a very good thing. Now it’s time to take it to the next level by combining seamless control, monitoring and automation.

Tommy Kissell is the owner/president of sustainable electronics integrator Eco High Fidelity of Carrollton, Texas, and a regular contributor to GreenTech Advocates. See some of his company’s cool installs in the links below.

Rockin’ Without a Carbon Footprint
November 20, 2012
By Steven Castle

Step into this Dallas-area house, and you are stepping into the near future—one in which serves up plenty of today’s coolest digital home entertainments along with a heaping, healthy dose of eco-friendliness, without any compromise.

A 10.56-kilowatt rooftop solar array helps power 14 zones of high-quality audio, three surround-sound systems and a home theater with a 103-inch screen. With a Pakedge enterprise-grade network, these homeowners don’t do without best-of-class communications technologies either. Natural daylighting is harvested by automated shades, water for irrigation comes from 5,000-gallons of automated rainwater storage, and a central rack system provides building efficiencies.

“The amount of energy saved and produced along with the efficiency of current technology allowed the home owners to rock out without leaving a carbon footprint,” says Tommy Kissell of electronics integrator Eco High Fidelity of Carrollton, Texas.

The family room features a 70-inch Sharp TV, surround sound and motorized shades that block or allow sunlight into the space.

Efficiency Starts with Design
Eco High Fidelity was involved in the two-year green home project from the blueprint stage and worked with green design/build firm ArTex Development, one of the leading sustainable design firms in Dallas. First the house was designed to take advantage of sunlight for power and lighting—then it was built to be energy efficient with proper insulation. “We probably had about 1,000 hours of phone calls, meetings, and planning sessions to coordinate the multiple subcontractors that were contributing to the process,” Kissell says. “Collaboration is the key to automation, so we consulted with the pool, irrigation and security companies to integrate their systems into our controls.”

The result is a modern take on living well and sustainably.

An upper portion of the centralized rack is for “don’t touch” processors and components..
The homeowners wanted the systems to be consistent and were big on eliminating wall acne. Eco High Fidelity and ArTex Development knew just what to do, centralizing a rack that holds most of the home’s systems to result in less wire use and keeping everything but TVs and speakers out of most rooms. It’s an underrated technique for building and planning green.

Leftover Category 6 Ethernet cables were used for jumper cables in the rack, which contains an Elan g! home control system processor, efficient Elan integrated Class D switching amps that eliminated extra components and an Aviosys  9100b web server that helps deliver video feeds from security cameras through the house.

“Every piece of material was used in the prewire, trimout or final except Styrofoam,” says Kissell.

Living Well—and Green
The homeowners enjoy all the Pandora and Rhapsody music they like via the Paradigm architectural in-ceiling speakers with zero bezels. In the surround-sound rooms, Paradigm Millenia three-channel soundbars and Yamaha Aventage receivers are used. The theater has Paradigm Studio series in-room speakers housed in a cabinet with a 103-inch Screen Innovations display and a Panasonic projector. The centralized rack is also served by a Furman UPS (uninterruptible power supply) with Panamax Furman’s BlueBolt technology to allow remote resets.

And perhaps the most beautiful thing? It’s all powered by Texas’ abundant sun, courtesy of the 48 solar panels that are hidden from view on the roof designed with a 22-degree pitch specifically designed or the solar installation. “Making solar look good in Dallas is key to making it work,” says Kissell.

Eco High Fidelity Dallas Home Home Theater
The theater features a 103-inch Screen Innovations display and Paradigm speakers.
The solar system’s Fronius inverter, which coverts the solar panels’ DC power to AC for housewide use, outputs its data of energy production to a web-based display. Eco High Fidelity is monitoring the energy production of the solar array, which produces 45 to 60 kilowatt hours (kWh) per day, against data about the homeowner’s usage through their utility bills to give them a report at the end of the year and possibly install an energy monitoring and management system. Kissell has also used a Kill A Watt single plug monitor during the solar system installation.

Eco High Fidelity tried a TED (The Energy Detective) system in the home, but it was not suited to the scale of this project.

Elan Climate app
The Elan g! system’s climate app shows temps in each room and a history for rooms (below).
Elan Climate History

The equipment rack is monitored through two Panamax Furman BlueBolt M5100 power conditioners–one in the main rack and another  in the upper rack for important “don’t touch” components that remain out of reach.The Furman power conditioners can report energy usage back to Eco High Fidelity and allow each of the components plugged into them to be rebooted if necessary. The BlueBolt system is used in most installations primarily for convenient remote rebooting that saves costly truck rolls.

Lights, Water, Control
Windows in the house have Lutron shades that help bring in daylight for lighting or block lighting to maintain a comfortable environment and save on cooling costs.

And because Texas has been host to some serious drought, collecting rainwater for irrigation is vital. Rain barrels supply the Rain Bird automated irrigation system, and a Global Caché network adapter between the Elan g! and irrigation system allows the water supply to switch between the rainwater harvesting system and the city water supply.

Two 2,500-gallon rain barrels provide water for irrigation through an automated pump and irrigation system.
The Elan g! system has Climate, Security, Weather, Shades/Lights, Media, Irrigation, Pool and Cameras apps. A useful mix of an Elan G TS7 in-wall touchpanel, iPads, iPhones, Android-based devices and Elan HR2 Remotes are used for control.

And Kissell is hoping by the end of the year to get a solar or renewable energy app to display the solar production through Elan system touchpanels.

Ultimately, he says, “Movies and music is why we do this, but the paradigm has shifted and our planet is headed toward a sustainable future.

“Architectural approaches have naturally evolved into sustainable practices, and builders are now relying on technology to centralize and control subsystems,” he adds. “The path towards sustainability relies on technology to monitor, control and plan. The automated home will be the collective keystone that will determine our country’s carbon footprint in the 21st century.”

Systems: Eco High Fidelity, Carrolton, Texas

Design/Build: ArTex Development, Dallas