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CATEGORY: Topics » LEED/Sustainability
By Lighting Controls Association, on December 12, 2009
 A free brochure now available from Schneider Electric details lighting control requirements within the Leadership in Energy and Environmental Design (LEED®) Green Building Rating System™, and lighting control’s energy and cost-savings potential in the certification process. The brochure, titled “Lighting control solutions for LEED certification,” is geared to commercial building facility managers, including those in industrial, retail, healthcare and education settings, and is available online.
“This new brochure is a great resource because it not only highlights lighting control options available from Schneider Electric to assist facility managers with their LEED certification process, but it also outlines the specific components of the LEED rating system,” said Scott Jordan, product manager, Schneider Electric Installation Systems & Control. “Schneider Electric has been designing, manufacturing and supporting results-driven lighting control for more than 20 years, a track record unmatched in the industry. We have the expertise to understand a customer’s LEED project goals and can recommend the right solution set to meet those goals. This brochure is a great starting point.”
The LEED Green Building Rating System, administered by the U.S. Green Building Council, defines common standards of measurement for efficient use of resources within five types of buildings: new constructions, existing buildings, commercial interiors, K-12 schools, and building core and shell. LEED is a points-based system with four certification levels — Certified, Silver, Gold and Platinum — awarded based on total points earned. Points are awarded in the categories of Sustainable Site; Water Efficiency; Energy & Atmosphere; Material & Resources; Indoor Environment Quality; Innovation in Design; and Regional Priority.
The new brochure identifies how Schneider Electric lighting control solutions can contribute to the accrual of LEED certification points in several of those categories, including:
Sustainable Site — Lighting control from Schneider Electric can be applied to reduce light pollution by lowering light levels, operating shades and blinds, and switching lights automatically to adjust to sunset and sunrise schedules.
Energy & Atmosphere — Lighting control can be leveraged to reduce energy consumption and peak demand to optimize energy performance, while seamlessly integrating a building’s lighting control and electrical metering functions for system-level metering. Schneider Electric also provides a wide variety of enhanced commissioning services, including initial design consultation, project management, start-up and ongoing system monitoring, to ensure its lighting control solutions are delivering maximum energy savings and performance.
Indoor Environment Quality — Controllability of systems and lighting by building occupants is available from Schneider Electric for everything from individual offices to large open spaces to entire buildings. Daylight and views can be maximized by controllable window treatments, operated in conjunction with daylight harvesting and time-based scheduling.
Innovation in Design — Credits are available to design teams for performance beyond those set by the LEED Green Building Rating System, and good examples include use of innovative Schneider Electric lighting control and power monitoring systems.
“There are many ways to alter general building operations to gain LEED certification, but lighting control is essential because it involves many of the categories within the certification process,” Jordan said. “Lighting is one of the largest contributors to energy waste in buildings, and Schneider Electric has tools to help facility managers find the right solution based on need, size and LEED certification level being pursued.”
For more information about Schneider Electric, visit www.squaredlightingcontrol.com.
By Craig DiLouie, on May 1, 2009
The sustainable design movement encourages energy code compliance, daylighting, individual user control, responsible outdoor lighting and control system commissioning. But it also promotes exceeding energy codes that are already strict, resulting in lighting choices that may be guided more by the energy consumption of buildings than the visual needs of their occupants.
Indeed, the very notion of exceeding an energy code appears to contain inherent risks, even though the LEED green building rating system and even a Presidential executive order mandating upgrades for Federal buildings are all based on this approach. If energy codes are developed based on available technology and IES recommendations for light levels, why push beyond to save energy when doing so might compromise user satisfaction and productivity?
The traditional answer is that it is possible to have good design and very high efficiency largely due to technology that has already leaped ahead when a new code is announced, as these programs simply seek to stimulate demand for existing cutting-edge solutions. This argument is reaching a point of diminishing returns, however, as codes are becoming so restrictive they are beginning to consume cutting-edge technology themselves. To continue going beyond, we’re going to have to rethink codes in terms of energy consumed instead of power installed, wholeheartedly embrace advanced controls, and focus on design instead of just technology.
But does the specification community have the expertise to achieve these goals outside those projects produced by the top designers in the field?
“Achieving high levels of lighting energy efficiency appropriately involves thoughtful design,” says Carol Jones, lighting program manager for Pacific Northwest National Laboratory. “Simple approaches, such as replacing T12 with T8 lamps, can achieve meaningful savings, but many building owners and tenants have already taken these steps. To get to the next level of performance, more comprehensive and integrated approaches are needed. But we have a capability challenge. Not enough people know how to do good lighting on a very low energy budget.”
The U.S. Department of Energy (DOE) has taken a different approach with its Commercial Lighting Solutions (CLS) program, a component of Commercial Building Energy Alliances, private-public forums seeking to reduce energy consumption by significant levels in new and existing buildings in their vertical building markets. CLS seeks to stimulate adoption of advanced lighting technologies and design practices by making them available to the broader lighting specification community, not just the leaders in the field.
The result is an extraordinary interactive web tool that enables any lighting decision-maker to save 30% more energy than the ASHRAE 90.1-2004 standard energy code without sacrificing lighting quality that users need from lighting systems. (It’s important to note that CLS is based on saving kWh through design, not kW solely through equipment choices.) Intended users include designers, owners, contractors, distributors and others interested in the latest sustainable, energy-efficient solutions.
 CLS provides design templates enabling lighting specifiers to achieve 30% more energy savings than the ASHRAE 90.1-2004 energy standard without sacrificing lighting quality. DOE has started with the retail market, identifying a range of space types and then engaging expert lighting designers to work with building owners, architects and manufacturers to produce design templates for typical spaces that can be used in new construction and relighting projects. Called “vignettes,” these templates include lighting layouts, controls recommendations, projected demand and energy savings, component specifications and supporting documentation.
This is only the beginning. In the future, the tool will project energy cost savings and link designers to participating utilities, where applicable, to access rebates and other financial incentives for their design. CLS will also expand to include more templates in retail and later reach out to other building categories such as office and institutional buildings.
“CLS is not an ‘intelligent lighting designer’ and is not meant to replace the design process, but instead help lighting specifiers leapfrog the learning curve by providing a spectrum of possibilities for energy-efficient design,” says Jones. “CLS offers these design options based on best practice design principles for those wishing to exceed code without sacrificing quality for efficiency.”
Note that some lighting expertise is needed to understand and implement the design recommendations, and higher expertise will be needed if your project is atypical or has special lighting needs, as CLS was designed to target typical conditions in mainstream construction.
CLS version 1.0 for retail buildings is free to the public after officially launching at Lightfair International in early May.
Get it free here: https://www.lightingsolutions.energy.gov.
By Craig DiLouie, on May 12, 2008
 The NEMA Premium Ballast special mark distinguishes the ballast as the highest-performing electronic ballast on the market. The National Electrical Manufacturers Association (NEMA) launched the Premium Ballast program to identify the industry’s most efficient fluorescent fixed-output and dimmable electronic T8 ballasts, thereby providing a mechanism for market recognition and specification of these products.
Ballasts qualifying as NEMA Premium Ballasts are recognizable via a special mark on the label distinguishing these products as the most efficient T8 ballasts on the market.
As of the time of publication, Advance, OSRAM SYLVANIA, Universal Lighting Technologies and GE have achieved NEMA Premium Ballast certification for their high-efficiency products. (September 2008 update: Robertson Worldwide has achived NEMA Premium Ballast certification for its high-efficiency products as well.)
In the past several years, ballast manufacturers have begun offering high-efficiency electronic ballasts that provide the same light output as a standard electronic ballast but do so more efficiently, reducing lighting power by another 2-5W, typically 3W.
However, this definition of “high efficiency” is informal: Some manufacturers have used it to describe the most efficient products, others to describe all electronic ballasts. Lack of recognition and a slightly higher cost have inhibited market adoption, frustrating manufacturers, which worked together through NEMA to overcome these barriers.
The Consortium for Energy Efficiency (CEE) had worked with NEMA to develop a definition of high-efficiency T8 ballasts—using a metric called ballast efficacy factor (BEF), expressed as ballast factor ÷ input watts x 100—which became adopted as NEMA Standard BL 2-2007 covering electronic ballasts for use with 4-ft. T8 lamps. This standard became the threshold to qualify for designation as a NEMA Premium Ballast.
It is believed this will promote the most efficient ballast options to end-users and utility rebate program generic specs, creating pull-through in the marketplace, as occurred earlier with the NEMA Premium program for electric motors. More than 25 utilities, for example, use CEE minimum performance levels in their incentive programs.
High-efficiency T8 electronic ballasts include instant-start, programmed-start and dimmable models; can be specified as low (<0.86), normal (0.86-1) and high (>1) ballast factor; are available with universal voltage; can be specified for operation of one, two, three or four lamps; and may include value-added features such as anti-striation and anti-arcing. They have no limitations compared to standard electronic ballasts.
High-efficiency ballasts can cost 10-20% more than standard electronic ballasts while producing an additional 5-7% energy savings in typical projects (see Table 1).
 Table 1. High-efficiency electronic ballasts can save an additional two to five watts per ballast, depending on the number of lamps. Source: OSRAM SYLVANIA. In an installation with two-ballasted four-lamp fluorescent fixtures on 10×10 centers (100 sq.ft. area), using high-efficiency ballasts can add about $0.03-$0.06 per sq.ft. to the cost of the project—while reducing annual operating costs by about $0.04 per sq.ft., based on an assumption of savings of $2 per ballast (or $1 per lamp) per year.
NEMA advises this simple language for specification for new light fixtures: “Luminaire shall contain a NEMA Premium electronic ballast (do not substitute).” For retrofit or spot replacement, specify: “Ballast shall be a NEMA Premium electronic ballast (do not substitute).” Then specify the starting method, number of lamps and ballast factor.
While the program currently only covers electronic ballasts operating 4-ft. T8 lamps, the NEMA Premium Ballast program may expand in the future to include T4, T5 and HID ballasts and possibly also LED drivers and power supplies.
For more information about the NEMA Premium Ballast program and to access a list of qualifying ballast models, click here (PDF).
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A free brochure now available from Schneider Electric details lighting control requirements within the Leadership in Energy and Environmental Design (LEED®) Green Building Rating System™, and lighting control’s energy and cost-savings potential in the certification process. The brochure, titled “Lighting control solutions for LEED certification,” is geared to commercial building facility managers, including those in industrial, retail, healthcare and education settings, and is available online.
