Category Archives: Innovation

Hawaii Passes Bill To Democratize Clean Energy

By | Published: May 8, 2013

Last week, Hawaii passed a landmark bill, SB 1087, which will allow the state to create and issue a “Green Infrastructure Bond.”  This bond structure will secure low-cost financing for a variety of clean energy installations, with a focus on reaching populations that cannot afford or do not have access to these energy saving improvements today.  The bond proceeds will be used to fund an on-bill program currently under development at the Hawaii Public Utilities Commission (PUC).  The on-bill program, which is very much in line with EDF’s recommendations for on-bill repayment (OBR), will provide access to low-cost financing for clean energy projects for residential and small commercial customers.

The bill’s intent is to use this low-cost capital to expand access to affordable clean energy for all of Hawaii’s consumers, acknowledging that “Existing programs and incentives do not serve the entire spectrum of the customer market, particularly those customers who lack access to capital or who cannot afford the large upfront costs required-thus creating an underserved market.”  Funding projects with a focus on serving populations that do not have access to other means of financing is especially important in the Aloha State, where electricity rates are the highest in the nation.

The state will issue the bonds and then repay bondholders with funds collected from a utility surcharge, providing a secure form of repayment.  The framework enables a portion of the existing Public Benefits Fee (PBF), currently charged to customers, to be redirected so that overall customer bills are not expected to increase. Read More »

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EDF Energy Innovation Series Feature #19: Energy Analytics From FirstFuel Software

By | Bio | Published: April 9, 2013

EDF's Energy Innovation Series highlights innovations across a broad range of energy categories, including smart grid and renewable energy technologies, energy efficiency financing and progressive utilities, to name a few. This Series helps illustrate that cost-effective, clean energy solutions are available now and imperative to lowering our dependence on fossil fuels.

Find more information on this featured innovation here.

Driving improvements in the built environment is extremely impactful because buildings emit more than a third of our country’s greenhouse gases. Furthermore, according to IBM, roughly 30 percent of building energy usage is wasted. From location to location, however, these changes are sometimes hard to prove beforehand or demonstrate quantitatively after changes or investments are made. As the need to comprehensively tackle energy inefficiency has increased, so has technology's ability to identify and measure the impact that building upgrades (retrofits), operational shifts or basic behavior changes can make.

Companies like Lexington, Mass.-based FirstFuel Software (FirstFuel) are doing for energy information what Google has done for online search: using complex algorithms to help make simple, usable sense of the massive amounts of energy data being collected by smart meters and other energy management devices.  Needing only one-year of hourly meter data and an address, FirstFuel’s Remote Building Analytics platform screens entire building portfolios for high-potential opportunities, conducts deep building audits and tracks energy savings – without ever going onsite or installing connected devices.

Using hundreds of proprietary algorithms and external weather and Geographic Information Systems (GIS) mapping technology, FirstFuel can provide detailed insight into each facility's energy use and lay out specific, actionable recommendations for improved efficiency.  "We call it a ‘zero-touch’ approach," said FirstFuel Software CEO Swapnil Shah. "It's a very simple and compelling value proposition for the customer.  No hardware and no on-site visits mean you can begin to achieve true scale." Read More »

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Should America Get Behind The Fuels Of The Future Or The Past?

By | Bio | Published: March 22, 2013

One of Yogi Berra’s famed quotes is about to apply to America’s energy policy:  “When you come to a fork in the road, take it.”

The truth is, America’s been staring at a fork in the road for a few decades.  Every president since Nixon has talked about freeing the country from its dependence on foreign oil.  And each recent administration has understood that our energy policy affects more than the price of a gallon of gas or a kilowatt of electricity.  It affects job growth, technological innovation and environmental progress (or decline).

The last few months of the budget and debt debate gives us a good picture of the paths America could take.

One path, embraced for years by both parties, entails government investments in new, clean, efficient and affordable energy.  It harnesses the creative talents of our top scientists, engineers, businesspeople and research centers.

The other, most recently articulated in Representative Paul Ryan’s budget, is driven only by a doctrinaire obsession with cutting government – no matter what we sacrifice in doing so.  According to that view,  the government need not invest, because the private sector has it all figured out.  That’s a stunning philosophy given that some of the most important breakthroughs – the Internet, our space program, wind and solar energy development – have happened because government and industry worked hand-in-hand.

The President recently called for a $2 billion Clean Energy Trust that would fund energy research and development.  That’s exactly the kind of thing we need in order to continue the clean energy technology revolution that will make it possible to reduce imports of foreign oil and weaken the threat of rising greenhouse gas emissions. The budget is tight, so how do we find the money for it?  By using money collected from oil companies when they drill for oil and gas on federal lands.  Put another way, we can use some of the proceeds from the fossil fuel industry to help accelerate the transition to a clean, low-carbon energy economy.  Read More »

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Experts Unveil Plan To Double U.S. Energy Productivity By 2030

By | Published: February 7, 2013

Achieving Goal Could Cut Carbon Pollution By One-Third And Save $327 Billion Annually

The Alliance Commission on National Energy Efficiency Policy released a report today with recommendations that would put the U.S. on a path towards doubling its energy productivity by 2030. The Commission, which is chaired by U.S. Senator Mark Warner (D-Va.) and National Grid U.S. President Tom King, is a diverse coalition of energy leaders that includes representatives from energy utilities, academia, industry and environmental groups.  Fred Krupp, President of Environmental Defense Fund (EDF), serves on the Commission.

The Commission found that a doubling of energy productivity (or obtaining twice as much output from the energy we use) would reduce U.S. carbon dioxide pollution down to four billion tons per year by 2030, which is 33 percent below 2005 levels. The full report is available at energy2030.org.

“The Alliance Commission’s recommendations are an innovative approach to greatly increasing our nation’s use of energy efficiency, which represents a huge – and largely untapped – opportunity,” said Fred Krupp, President of EDF.  “Reducing wasted energy through efficiency is a true win-win solution that cuts harmful pollution and saves people money on their energy bills.”

The Commission’s recommendations are wide-ranging, covering multiple sectors of the economy.  The recommendations include: increased stringency of energy efficiency standards for buildings and appliances, creation of financing mechanisms that bring down the cost of energy efficiency projects, reform of utility regulatory policies to enable full use of cost-effective energy efficiency and greater support for research and development.

Achieving the Commission’s goal of doubling energy productivity by 2030 would:

  • Add 1.3 million jobs;
  • Cut average household energy costs by more than $1,000 a year;
  • Save American businesses $169 billion a year;
  • Increase gross domestic product (GDP) by up to 2 percent;
  • Decrease energy imports by more than $100 billion a year; and
  • Reduce CO2 emissions by one-third.

Source: www.energy2030.org

EDF is particularly encouraged by the Commission’s recommendations related to energy efficiency finance and smart grid policies, which are a high priority for EDF.  The Commission recommends that state and local governments work with utilities to create financing mechanisms, such as On-Bill Repayment (OBR) programs.  OBR provides a new route to funding clean energy investments at attractive terms, relying solely on private third-party financing.

OBR programs offer an opportunity for residential and commercial utility customers to finance energy efficiency projects with loans repaid through their utility bills and financed at no additional cost to ratepayers.  The Commission also recommends reforms to state utility regulatory policies that would break down barriers to utility investment in energy efficiency and enable greater use of advanced new technologies that create a smarter and cleaner electric power grid.

Though the U.S. currently lags behind other nations on energy productivity, the Commission believes there are more than $1 trillion in energy-saving opportunities with the right federal, state and local government support, and private-sector buy-in.

The Alliance Commission’s goal of doubling energy productivity by 2030 is ambitious, yet attainable, and it goes well beyond capturing the well-known, low-hanging fruit. I am confident that the solutions proposed by the Commission will drive innovation and technological advancements, which will modernize U.S. manufacturing and help us to compete globally.

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Do We Need Breakthroughs Or A Simple “Carbon Diet?”

By | Bio | Published: January 29, 2013

Over the weekend, The New Republic published an interview with President Obama, where he noted the following: "On climate change, it's a daunting task. But we know what releases carbon into the atmosphere, and we have tools right now that would start scaling that back, although we'd still need some big technological breakthrough."  How accurate is the call for breakthroughs and what do we really need?

First, let’s look at where we don’t need breakthroughs, but instead more deployment – energy efficiency, of course, being Exhibit A.  Creative financing, such as on-bill repayment (OBR), at scale can speed up deployment here.  Similarly, unlocking clean energy to reduce carbon emissions from the electricity sector hinges on affordability.  Wind energy is already competitive with fossil fuels, in large part because the cost of wind energy has come down around 65 percent in the last 20 years, according to the National Renewable Energy Laboratory (yes, declining natural gas prices provide new competition, but EIA projects that natural gas prices will begin to increase in 2018, and wind power purchase agreements are signed for around 20 years at a fixed price).  Residential solar is verging on the tipping point for “grid parity,” or the point at which a source of power becomes cost competitive with other sources.  Bell Labs first introduced solar cells in the 1950s.  Environment California’s Research & Policy Center recently reported that they expect solar to reach grid parity in mid-2014 to 2016 at the outset. 

Of course, progress in lowering costs and increasing efficiency comes on the heels of many smaller innovations.  For example, innovations in materials science underlie many of the most promising technology evolutions, such as the role of carbon fiber as a basic raw material for wind turbine blades or the use of Gallium Arsenide wafers to reduce manufacturing costs for solar cells.  But, nonetheless, given our country’s strength in materials science (think of our leadership with companies like Dow, Dupont and 3M), such innovations seem imminently feasible and in my mind don’t require a major “breakthrough.” 

We’ve also delivered numerous hardware and software innovations to transform our electric grid into a more resilient, smart, “green” grid.  Even carbon capture and storage, to some a high stakes technology bet, is actually just a new configuration or application of engineering equipment we have installed and used for decades, such as heat exchangers, chillers, absorbers, pumps and compressors.

Where would I wave a wand for a breakthrough?  A cheap, reliable and efficient energy storage system wouldn’t hurt, one that replaces the clunky compressed air systems or the size limitations of batteries.  But, overall, the declining cost curves for clean energy solutions, due to innovations large and small, tell us an important story:  solving the climate crises is not unaffordable or necessarily a drag on our recovering economy as many fear.  It is certainly not infeasible nor hinging on that one great technological breakthrough. 

We need non-technological breakthroughs.  Like the new head of the World Bank, Dr. Jim Kim, who in Davos described wanting to make “everything the Bank does aligned with the effort to slow down climate change.”  And it is certainly cheaper than repeating the $50 billion recovery price tags that we might face time and again as Superstorm Sandy becomes the new normal. 

Americans love the quick technical fix.  But, today we have affordable answers right in front of us, it’s the willpower we may be lacking.  So, just as most of us believe that rather than wait for a dieting breakthrough, the best answer to weight loss is reduced consumption and more exercise – we need to go on a carbon diet.  Our economic and environmental health depend on it.

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EDF Energy Innovation Series Feature #18: Gas Leak Detection From Picarro

By | Bio | Published: January 17, 2013

EDF's Energy Innovation Series highlights innovations across a broad range of energy categories, including smart grid and renewable energy technologies, energy efficiency financing and progressive utilities, to name a few. This Series helps illustrate that cost-effective, clean energy solutions are available now and imperative to lowering our dependence on fossil fuels.

For more information on this featured innovation, please view this video on Picarro's innovation.

With the surge in shale gas discovery and development, natural gas, which is approximately 90% methane, is a growing part of our nation’s energy mix. There are now more than 40,000 shale gas wells in operation in the U.S. today – three times as many as in 2005.

Despite its great promise though, current production practices all too often impose unacceptable impacts on air, water and landscapes. Methane leakage is a key area of concern, as leaks during the production, distribution and use of natural gas have the potential to undermine and possibly even reverse the greenhouse gas advantage that natural gas has over coal or oil. This is because methane is a remarkably powerful greenhouse gas and its effect on the climate is 72-times more potent than that of carbon dioxide over a 20-year time frame. Estimates of fugitive emissions range from 1.5 to 9.0%; the truth of the matter is that no one knows for sure.

Enter Picarro SurveyorTM from the Silicon Valley start-up Picarro, which makes devices and software that detect, measure and analyze a range of gasses from acetylene and CO2 to ammonia and formaldehyde. This high-tech solution, which integrates a mobile methane gas analyzer with cloud-based, geo-informatics software, is currently in use by companies like PG&E (not to mention EDF’s own scientists).

"When it comes to safety and environmental impact, we know that fugitive natural gas leaks are an important factor, which gas companies must manage carefully," said Michael Woelk, CEO of Picarro. "Our technology is making that process easier by modernizing the way these companies detect leaks along their pipelines. The result is better public safety and a healthier environment.”

Source: Picarro

About the size of a suitcase, Picarro Surveyor can be installed in the trunk of a car. Additional sensors installed on the car’s roof capture wind speed and direction to determine the source of even the most trace amounts of gas. The technology also distinguishes natural gas leaks from other sources of methane, such as landfills, sewers or livestock. The results are matched with GPS data via Picarro’s cloud-based data processing platform, P-Cubed®, and reporting is available online to anyone with a web-enabled device and secure connection.  This allows personnel to investigate gas sources and coordinate necessary responses to repair the leaks. This real-time, networked detection system replaces the incumbent process of monitoring natural gas pipeline leaks by workers on foot patrolling areas with hand-held detectors and manually logging their results.

PG&E is currently deploying multiple Picarro Surveyors and is optimistic about its results.  "This gas detection technology is revolutionary," PG&E's EVP of Gas Operations Nick Stavropoulos noted in a PG&E video. "It is going to change the way all gas companies across the world try to find and detect leaks. It is so much more precise, so much more real-time, in terms of the information it provides us."

Picarro also layers current wind and weather data on Google Maps and satellite images, providing visual simulations that help pinpoint potential sources and predict possible affected areas.

Natural gas can have significant climate benefits over coal and oil. But only if leaks are adequately detected and quickly reduced.  New emissions detection technology, like Picarro Surveyor, make it possible for industry to implement more effective methane leak detection and repair programs today, and enables regulators to establish emission limits and detection practices that mitigate methane pollution.

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EDF Energy Innovation Series Feature #17: Electric Vehicle Charging From Evatran

By | Bio | Published: December 13, 2012

Throughout 2012, EDF's Energy Innovation Series will highlight around 20 innovations across a broad range of energy categories, including smart grid and renewable energy technologies, energy efficiency financing and progressive utilities, to name a few. This series will demonstrate that cost-effective, clean energy solutions are available now and imperative to lowering our dependence on fossil fuels.

Find more information on this featured innovation here.

In the last few years, the first wave of electric vehicles (EVs) has been introduced in the U.S., marking the most significant technology shift in the auto industry's 100-plus year history.  The Chevy Volt and Nissan Leaf have received the most attention, but Ford and Toyota also have models on the market and nearly every major auto manufacturer has at least one partial- or all-electric model in the works. In other words, EVs have arrived.

Source: Evatran

All EVs can plug directly into a regular 120-volt outlet. But for faster charges, a crop of 240-volt (240v) charging stations are available at Lowe's, Home Depot and other retailers.  Some companies, like Virginia-based Evatran, are taking charging to a whole new level, introducing technologies pioneered in the consumer electronic industry into the garage. The company’s Plugless Power EV charging system takes the plug out of EVs, making the "refueling" process as easy as parking your car.

"Our philosophy is based on ease and simplicity," said Kevin Beck, vice president of business development and sales at Evatran.  "EVs are very simple to own and maintain.  Developing the plugging habit is one of the only hassles, and wireless charging is a game changing technology that will make the EV transition even easier."

The Plugless Power system consists of two parts: a floor sensor connected to a wall-mounted 240v charger and hardware installed under the EV.  When the car parks over the sensor, the system uses inductive charging to refuel the car battery – no plugs necessary. The charging time varies by car model, but the Plugless Power system will provide a full charge in the same amount of time as plugging it in.

Wireless, or inductive, charging is already available for some consumer electronic products.  Several companies make smart phone cases that allow users to simply place their phones on a "charging mat" instead of searching for a charging cable.  EV batteries are a lot bigger, but the technology for Plugless Power is similar.

Inductive charging has its tradeoffs. The process isn't as efficient as wired charging, meaning that not all the energy that makes it to the wall charger makes it into the car battery. Evatran executives acknowledge that the process isn't perfect, but the company has already made significant improvements in efficiency and has made it a focal point of their research and development.

EVs provide a remarkable carbon benefit over gasoline.  Even an inefficient charging system using 100 percent coal-fired electricity is better for the environment than an inefficient gasoline engine.

Currently, the Plugless Power system will be installed after market by local and certified service centers, but true to its mission of simplicity, Evatran is working with EV manufacturers to provide the feature as an option when customers buy the car, like a navigation system, leather seats or tinted windows.  "The goal is to install our system into EVs before customers drive them off the lot."

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EDF Energy Innovation Series Feature #16: Demand Management From REGEN Energy

By | Bio | Published: December 5, 2012

Throughout 2012, EDF's Energy Innovation Series will highlight around 20 innovations across a broad range of energy categories, including smart grid and renewable energy technologies, energy efficiency financing, and progressive utilities, to name a few. This series will demonstrate that cost-effective, clean energy solutions are available now and imperative to lowering our dependence on fossil fuels.

For more information on this featured innovation, please view this video on REGEN Energy's innovation here.

Mark Kerbel would like the world to think of every building as a giant beehive. In these bustling hubs of activity, each electrical device not only takes care of its individual tasks, but it is also aware of what the other devices are doing. They are part of a team and work together to minimize work and strengthen the "hive."

Kerbel is co-founder of Toronto-based company REGEN Energy (REGEN). For REGEN, which makes wireless controllers that monitor and manage equipment with high power needs like heating and cooling, or “HVAC” systems, the beehive isn't simply a sales pitch metaphor. Swarm theory is the company's foundation.

For the last century, our outdated electric grid has generally worked the same way: energy is generated in a remote location and pushed to homes and businesses, where humans make most of the decisions about what switches are turned on and off. Demand management – like REGEN’s energy load management methodology – brings intelligent decision making into the process, which allows for more efficient use of energy, and helps reduce stress to the electric grid during peak times of energy demand by lessening consumer energy consumption.

Credit: REGEN Energy

"We think the natural world has a lot to teach us about efficiency," said Kerbel. "And bees and other swarming animals are among nature's best examples of teamwork and efficiency. Our technology injects swarm theory into a grid that has historically been simple and manual, and makes it intelligent and automatic."

And much, much more efficient.

REGEN's Swarm Energy Management technology employs a node at each electrical load in a building. For example, a large corporate campus might install a REGEN node on each HVAC unit. Using REGEN's patented algorithms (which the company calls “swarm logic”), the nodes communicate with each other wirelessly and are able to balance the attached loads to smooth out the overall demand of a building. In a simple scenario, one HVAC unit might detect that another on a different part of a building will turn off in two minutes, and delay just long enough to avoid adding that extra load. But REGEN's system can also handle more complex scenarios that consider dozens of nodes that control various types of loads.

All of this, REGEN states, can add up to a peak electrical demand reduction of 30 percent for commercial and industrial properties.

In the energy efficiency industry, things that save small amounts of energy are fairly simple and inexpensive. But improvements that reduce energy use as much as REGEN's system are often cost prohibitive on the front end. REGEN promises quick energy reduction with a small up-front expense. And, because the parts of the system communicate wirelessly, it doesn’t require advanced metering or utility-side grid investments. It can work today, in many markets.

"The beauty of our system is that it is simultaneously elegant and simple," Kerbel said. "It is very easy to install — one node per device you want to manage, and they communicate with each other. It doesn’t require any intervention from a customer’s IT department. So it's easy to get online quickly and manage your loads without a massive retrofit or capital expense."

Credit: REGEN Energy

In two early deployments in the U.S. — a big box retailer and a movie theatre chain — REGEN's system resulted in enough energy savings to recoup the system’s cost in one to two years.

As the consumer electronic world evolves, we expect electrical devices to have this kind of awareness and intelligence. But heating and cooling represent such a large proportion of peak demand that it's a logical, helpful and profitable place to start. And, because the payback period is so short, this is a great investment for schools, large corporate campuses and other multi-building sites that have intensive energy needs.

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EDF Energy Innovation Series Feature #15: Building Efficiency Financing Model From SCIenergy

By | Bio | Published: November 29, 2012

Throughout 2012, EDF's Energy Innovation Series will highlight around 20 innovations across a broad range of energy categories, including smart grid and renewable energy technologies, energy efficiency financing, and progressive utilities, to name a few. This series will demonstrate that cost-effective, clean energy solutions are available now and imperative to lowering our dependence on fossil fuels.

For more information on this featured innovation, please view this video on SCIenergy's Managed Energy Services Agreement here.

In our feature on Honest Buildings, we noted that the building sector is responsible for nearly half of CO2 emissions (transportation is a third) and that 75 percent of the electricity produced in the U.S. is used to operate buildings. However, the economics of making buildings more efficient can be tricky. Improvements often require significant capital, and since the tenants – not the building owners – pay the energy bills and reap the savings from efficiency upgrades, building owners often lack the incentive to invest in energy-saving measures.

Enter Managed Energy Services Agreement (MESA), the innovative financing structure from Dallas-based SCIenergy, which provides building owners and managers a way to cut their energy usage without incurring high up-front costs. It does so by allowing an investor to agree to provide energy to a building at a price based on the building’s historical costs. The investor pays for energy efficiency upgrades and then uses the savings to provide a return on their investment.

"We think about intelligence as a source of energy, just like we think of coal, nuclear, oil, and renewables as sources of energy," said Woolsey McKernon, managing director of SCIenergy. “Building operators are leaving billions of kilowatt-hours, and therefore millions of dollars, on the table because the expense is short-term and the payoff is long-term. We flip that model."

Credit: SCIenergy

Tackling the energy challenge from the economic side of things is tough, because in many cases, saving energy dollars long-term requires up-front capital. Services like SCIenergy’s MESA remove that cost barrier and allow customers to reduce their energy use and cost.

Making this approach work requires a unique business model. Customers agree to purchase their electricity and gas from SCIenergy at a monthly cost based on their historical usage. SCIenergy then makes investments in system automation, energy management tools and other building improvements that are expected to save energy. SCIenergy uses the savings to finance their upfront investment at no cost to the property owner. If the savings are less than expected, SCIenergy absorbs the risk.

One SCIenergy customer, Corporate Office Properties Trust, is a real estate investment trust (REIT) that owns more than 20 million square feet of rentable office space, primarily in the Washington, D.C. area. SCIenergy applied its services and made $16 million in improvements to 26 office buildings, resulting in a 25 percent reduction in annual energy costs and more than an 11,000-ton reduction in energy-related CO2 emissions.  In addition, there was an added benefit to tenants as well:  the number of calls to building managers complaining about an office being too hot or too cold dropped 95 percent.

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EDF Energy Innovation Series Feature #13: Building Interaction and Reimaging From e7

By | Bio | Published: November 5, 2012

Throughout 2012, EDF's Energy Innovation Series will highlight around 20 innovations across a broad range of energy categories, including smart grid and renewable energy technologies, energy efficiency financing, and progressive utilities, to name a few. This series will demonstrate that cost-effective, clean energy solutions are available now and imperative to lowering our dependence on fossil fuels.

Find more information on this featured innovation here.

Over the last few months, our Energy Innovation Series has featured companies and organizations that are working on various energy generation, management and efficiency issues. But there are other innovations that extend far beyond what most of us conceptualize as energy.

Across the country, many universities and colleges are investing in energy efficiency and renewable energy and adopting a conservation mindset that has helped these institutions cut energy usage and expenditures, and direct the money saved towards education and other core initiatives.

The Los Angeles Community College District (LACCD) is the largest community college system in the country, serving more than 250,000 students on more than 10 sites around the region.  The system is in the midst of a $6.2 billion bond project that will add 80 state of the art buildings on nine campuses.  And rather than simply sticking new buildings in empty lots, planners are reimagining how these facilities will operate and work together.

e7 Studios is a new architectural organization that is leading the process.  And while the e7 team has energy on its mind, its approach to both data analysis and visualization reaches far beyond standard energy efficiency measures.

"This isn't a simple renovation," said architect and e7 director Michael Rendler.  "It's a re-imagining of how these campuses function and how their pieces interact.  And we believe that to do that correctly, you have to see what you're working with.  Being able to visually move through a design allows us to find new opportunities for energy efficiency and understand how our design choices impact usability and environmental performance."

A cornerstone of e7's approach is a massive database that allows designers to build 3D walk-though visualizations of their designs.  It allows for a whole systems design approach to building management, which will – in turn – help LACCD achieve their “carbon neutrality” sustainability goals.

"Large facilities and campuses really need to be viewed as interconnected organisms, and each part and aspect of a facility generates data that can be captured and visualized," Rendler said.  e7 is working to develop a single, standardized data model to which buildings, campuses and urban areas around the country can be applied.  "Eventually, designers in any part of the world will be able to tap into this information and see their designs."

The wealth of standardized and shared data, Rendler says, will allow better design and performance for a lower cost, as well as more environmental benefits.

In addition to its new approach to design, e7 Studio is focused on bringing new approaches to education.  The studio is not only leading the design process, but it is also involving LACCD students in the process.  Its internship program provides front row seats to one of the world’s largest education design and construction projects.

This approach not only serves as a model for urban and campus redevelopment, it trains a generation of experts who can apply their skills to projects around the world. LACCD hosted Sukreet Singh, an EDF Climate Corps fellow this past summer from the University of Southern California.

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