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Author: James R. Benya
Publisher: John Wiley & Sons
ISBN: 0470904828
Category : Architecture
Languages : en
Pages : 314
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Book Description
The ultimate guide to the retrofitting of lighting for greater efficiency and performance Retrofitting outdated energy-guzzling lighting components with green energy-saving alternatives is a process that promotes sustainability and offers significant benefits for businesses, contractors, and the community at large. Not only can retrofitting improve the overall quality and functionality of light, it also can make spaces safer, easier and less costly to maintain, and more comfortable to inhabit. From lighting technology to retrofit financial analysis, Lighting Retrofit and Relighting evaluates the latest lighting system types, then demonstrates how to apply them for the greatest functional and cost-saving benefit. This book: Discusses the recent advances in lighting equipment and retrofittable controls, for both interior and outdoor use Explains how to do a lighting audit to identify and evaluate logical retrofit choices Includes case studies of retrofits, illustrating improvements in the quality and efficacy of new lighting Demonstrates how cost savings realized over time can not only pay for new equipment but produce a return on the investment Lighting Retrofit and Relighting serves as an ideal reference for students or professionals—whether they are energy auditors, designers, installers, facilities managers, or manufacturers—by taking a close look at the most current lighting technology illuminating pathways toward a brighter future.
Author: James R. Benya
Publisher: John Wiley & Sons
ISBN: 0470904828
Category : Architecture
Languages : en
Pages : 314
Get Book Here
Book Description
The ultimate guide to the retrofitting of lighting for greater efficiency and performance Retrofitting outdated energy-guzzling lighting components with green energy-saving alternatives is a process that promotes sustainability and offers significant benefits for businesses, contractors, and the community at large. Not only can retrofitting improve the overall quality and functionality of light, it also can make spaces safer, easier and less costly to maintain, and more comfortable to inhabit. From lighting technology to retrofit financial analysis, Lighting Retrofit and Relighting evaluates the latest lighting system types, then demonstrates how to apply them for the greatest functional and cost-saving benefit. This book: Discusses the recent advances in lighting equipment and retrofittable controls, for both interior and outdoor use Explains how to do a lighting audit to identify and evaluate logical retrofit choices Includes case studies of retrofits, illustrating improvements in the quality and efficacy of new lighting Demonstrates how cost savings realized over time can not only pay for new equipment but produce a return on the investment Lighting Retrofit and Relighting serves as an ideal reference for students or professionals—whether they are energy auditors, designers, installers, facilities managers, or manufacturers—by taking a close look at the most current lighting technology illuminating pathways toward a brighter future.
Author: James R. Benya (Designer.)
Publisher:
ISBN: 9780470951101
Category : Electric lighting
Languages : en
Pages : 298
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Book Description
Author: Aktuna, Berat
Publisher: Universitätsverlag der TU Berlin
ISBN: 3798328366
Category : Technology & Engineering
Languages : en
Pages : 97
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Book Description
Energy efficient lighting is said to be one of the most cost-effective approaches to save energy and reduce C02 emissions. In order to stimulate the application of lighting retrofits of good quality, IEA Task 50, Subtask B “Daylighting and Electric Lighting solutions” has looked into the assessment of existing and new technical retrofit solutions in the field of façade and daylighting technology, electric lighting and lighting controls. The document provides information for those involved in the development of retrofit products or involved in the decision making process of a retrofit project, such as buildings owners, authorities, designers and consultants, as well as the lighting and façade industry. This source book addresses both electric lighting solu¬tions and daylighting solutions, and offers a method to compare these retrofit solutions on a common basis, including a wide range of quality criteria of cost-related and lighting quality aspects. Simple retrofits, such as replacing a lamp or adding interior blinds, are widely accepted, often applied because of their low initial costs or short payback periods. The work presented in this report aims at promoting state-of-the-art and new lighting retrofit approaches that might cost more but offer a further reduction of energy consumption while improving lighting quality to a greater extend. Energieeffiziente Beleuchtung ist eine der effektivsten Möglichkeiten, Energie zu sparen und damit die Emission von CO2 zu vermindern. Im Rahmen des IEA Task 50, Subtask B “Daylighting and Electric Lighting solutions” wurden daher neue und vorhandene technische Sanierungslösungen für Gebäude in den Bereichen Fassade, Tageslichttechnik, künstliche Beleuchtung sowie Lichtsteuerung bewertet, um die Anwendung hochwertiger Lösungen voranzutreiben. Die Informationen sind dabei für alle in den Sanierungsprozess einbezogenen Personen von großem Interesse, wie z. B. Gebäudeeigentümer, Behörden, Planer und Berater aber auch für Hersteller und Entwickler von Beleuchtungs- und Fassadenlösungen. Betrachtet werden sowohl künstliche als auch Beleuchtungslösungen mit Tageslicht, wobei eine Methode entwickelt wurde, die Sanierungslösungen grundlegend miteinander zu vergleichen. Hierbei werden zahlreiche Kriterien berücksichtigt, die energetische, lichttechnische, thermische und kostenbezogene Aspekte beinhalten. Einfache Sanierungsmaßnahmen wie der Austausch von Lampen oder die Montage innenliegender Jalousien werden weitgehend akzeptiert und oft verwendet, da sie kostengünstig sind und sich schnell amortisieren. Die vorliegende Arbeit hat es sich zum Ziel gesetzt, die Anwendung neuer und dem Stand der Technik entsprechender Beleuchtungslösungen für die Sanierung zu fördern. Diese verursachen zwar eventuell höhere Kosten, ermöglichen jedoch eine weitere Energieeinsparung bei gleichzeitiger Verbesserung der Beleuchtungsqualität.
Author: Craig DiLouie
Publisher: CRC Press
ISBN: 1000356116
Category : Technology & Engineering
Languages : en
Pages : 214
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Book Description
In Lighting Redesign for Existing Buildings, veteran journalist and educator Craig DiLouie identifies opportunities to both save energy and improve lighting performance in existing buildings. The book outlines the decision-making process behind whether to retrofit or redesign an existing lighting system, describes basic lighting design techniques and how to evaluate lighting equipment, details lighting legislation and energy codes, identifies advanced lighting strategies, and describes the role planned maintenance can play in saving energy and ensuring long-term performance. Readers will gain in-depth insight into assessing and capturing their opportunities with better lighting.
Author: Damon Wood
Publisher: CRC Press
ISBN: 8770222355
Category : Science
Languages : en
Pages : 380
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Book Description
First published in 2004. Green Lights lighting specialist Damon Wood takes you step-by-step through upgrading a lighting system, in either a retrofit or complete redesign scenario, for the purpose of increasing both energy efficiency and productivity. This guide is designed for use by anyone who needs to understand the principles of lighting and light's impact on conservation, productivity and safety. Readers will find valuable discussion of lighting quality, upgrade strategies, applications, technologies, economics, maintenance, project implementation and methods for assessing specific opportunities. This fully illustrated guide addresses these issues in lay terms and in an easy-to-understand, logical style.
Author: Damon Wood
Publisher: CRC Press
ISBN: 9780824740078
Category : Business & Economics
Languages : en
Pages : 386
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Book Description
Green Lights lighting specialist Damon Wood takes you step-by-step through upgrading a lighting system, in either a retrofit or complete redesign scenario, for the purpose of increasing both energy efficiency and productivity. This guide is designed for use by anyone who needs to understand the principles of lighting and light's impact on conservation, productivity and safety. Readers will find valuable discussion of lighting quality, upgrade strategies, applications, technologies, economics, maintenance, project implementation and methods for assessing specific opportunities. This fully illustrated guide addresses these issues in lay terms and in an easy-to-understand, logical style.
Author:
Publisher:
ISBN:
Category :
Languages : en
Pages : 60
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Book Description
The increasing level of electric utility rebates for energy-efficient lighting retrofits has recently prompted concern over the adequacy of the market supply of energy-efficient lighting products (Energy User News 1991). In support of the U.S. Department of Energy's Federal Energy Management Program, Pacific Northwest Laboratory (PNL) has developed an estimate of the total potential for energy-efficient lighting retrofits in federally owned buildings. This estimate can be used to address the issue of the impact of federal relighting projects on the supply of energy-efficient lighting products. The estimate was developed in 1992, using 1991 data. Any investments in energy-efficient lighting products that occurred in 1992 will reduce the potential estimated here. This analysis proceeds by estimating the existing stock of lighting fixtures in federally owned buildings. The lighting technology screening matrix is then used to determine the minimum life-cycle cost retrofit for each type of existing lighting fixture. Estimates of the existing stock are developed for (1) four types of fluorescent lighting fixtures (2-, 3-, and 4-lamp, F40 4-foot fixtures, and 2-lamp, F96 8-foot fixtures, all with standard magnetic ballasts); (2) one type of incandescent fixture (a 75-watt single bulb fixture); and (3) one type of exit sign (containing two 20-watt incandescent bulbs). Estimates of the existing stock of lighting fixtures in federally owned buildings, estimates of the total potential demand for energy-efficient lighting products if all cost-effective retrofits were undertaken immediately, and total potential annual energy savings (in MWh and dollars), the total investment required to obtain the energy savings and the present value of the efficiency investment, are presented.
Author: John L. Fetters
Publisher: CRC Press
ISBN: 1351410350
Category : Technology & Engineering
Languages : en
Pages : 252
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Book Description
Complete with checklists and forms, this step-by-step guide tells everything the facilities management professional needs to know about conducting lighting surveys and audits in a commercial or industrial facility. Lighting audits are required when companies undertake lighting retrofits and related projects in order to improve their lighting systems. The best way to ensure maximum performance of the new systems, maximize return on investment, and prove energy savings (in order to qualify for financial assistance or meet government targets) is to start with a comprehensive lighting audit. Public and private incentives along with recent energy saving advances in lighting technology have motivated companies to turn to energy saving solutions. Written by one of the nation's leading authorities on lighting and the education of lighting professionals, this practical handbook provides the auditor with the solid, useful information needed to accomplish accurate surveys and audits.
Author: Martine Knoop
Publisher:
ISBN:
Category :
Languages : en
Pages :
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Book Description
Author: Alice Ikuzwe
Publisher:
ISBN:
Category :
Languages : en
Pages :
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Book Description
The lighting retrofit method is adopted as one of the solutions to reduce lighting energy consumption and improve lighting quality in existing buildings. Lighting controls and energy-efficient light sources are used to achieve the goals of the lighting retrofit. Nowadays, Light-Emitting Diodes (LEDs) are replacing traditional lighting technology owing to their high efficiency and longevity. One of the advantages of LEDs is the controllability function, which allows users to set the light level according to their preferences. This saves more energy and satisfies users' lighting needs. However, over time, the performance of lighting retrofit projects deteriorates subject to failure of the retrofitted lights. Therefore, to maintain the performance of lighting retrofit projects, maintenance must be planned and performed. The impacts of the users' lighting level requirements on LEDs' life characteristics and lighting system performance are investigated by using lighting controls. Light and occupancy sensors adjust artificial light to the light level required by users and detect the presence of users in the zones, respectively. Light sensors measure the average illuminance in the zones. The measured illuminance is compared to the usersa̲2́Ơ4́Ø set illuminance; if the measured illuminance is higher than the usersa̲2́Ơ4́Ø set illuminance, lamps are dimmed to meet usersa̲2́Ơ4́Ø lighting preference, when the measured illuminance is less than the users set illuminance, lamps in the zone are replaced by new ones. The dimming level in each zone at each sampling interval is used to estimate the operating junction temperature, thereafter the degradation rate and luminous flux are calculated. Light levels at workspace are modelled using the lumen method. This model helps to quantify energy savings and predict when lamps will fail to deliver the required light levels. In existing studies, users' lighting level requirements are neglected when investigating the lifetime of the lighting system; however, users' profile and driving schemes affect the operating conditions of a lighting system. From the simulation results, it is noted that lumen output degradation increases when the user's set illuminance is above the illuminance required under normal operating conditions and decreases when the user's set illuminance is below the illuminance required under normal operating conditions. Increased lumen output degradation shortens the lifetime of LEDs and reduces energy savings, while decreased lumen output degradation extends the lifetime and increases energy savings. Generally, lighting retrofit projects contain a large lighting population; investigating when each lamp will fail can be time-consuming and costly. In this research, a mathematical model is formulated to model LEDs' failure by analysing the statistical properties of the lumen degradation rates. Based on the statistical properties of the degradation rates, the cumulative probability of failure distribution and the survival function are modelled. The formulated survival function is incorporated into the lighting maintenance optimization problem to balance energy savings and maintenance costs. A case study carried out shows that, in 10 years, the optimal lighting maintenance plan would save up to 59% of lighting energy consumption with acceptable maintenance costs. It is found that the proposed maintenance plan is more cost-effective than full maintenance. It is concluded that lumen degradation failure should be considered when investigating the performance of lighting retrofit projects, as this may not only affect energy savings but also reduce the level of illumination, which can cause visual discomfort. The initial investment costs of LEDs are still a barrier to the implementation of LED lighting systems in residential buildings. Energy-efficiency projects often face hurdles to access capital investments because decision-makers and funders do not have enough information about operational savings the project can provide and specific financial requirements applied to efficiency investment. In this research, an optimization model is formulated to give decision-makers and funders detailed information about the performance and operational savings that a LED lighting retrofit project can offer and its economic viability. The lumen degradation failure model developed is used to monitor and estimate the energy savings, and the optimal maintenance plan is scheduled to replace failed lamps. In the existing studies, the economic analysis of the lighting retrofit projects is assessed based on lighting population decay due to burnout failure while in this research economic analysis is assessed by considering the lumen degradation failure. The case study results show that the substitution of halogen light bulbs with LED light bulbs could save up to 291.4 GWh of energy consumption, and reduce 273:92 103 tons of CO2 emissions over 10-year period. The optimization model formulated is effective to help the decision-makers and funders to quantify the savings and assess the economic viability of the LED lighting retroiÌ8nÌ+ A̷t project. This optimization model can help the decision-makers and funders to make an informed decision.
