Global ETD Search

1	Energy savings and maintenance optimization of energy-efficient lighting retrofit projects incorporating lumen degradation Ikuzwe, Alice January 2020 (has links) 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 users’ set illuminance; if the measured illuminance is higher than the users’ set illuminance, lamps are dimmed to meet users’ 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 retroïnˇA˛t project. This optimization model can help the decision-makers and funders to make an informed decision. / Thesis (PhD (Electrical Engineering))--University of Pretoria, 2020. / Electrical, Electronic and Computer Engineering / PhD (Electrical Engineering) / Unrestricted UCTD Energy-efficient lights luminous flux degradation
2	Illumination properties and energy savings of a solar fiber optic lighting system balanced by artificial lights Lingfors, David January 2013 (has links) A solar fiber optic lighting system, SP3 from the Swedish company Parans Solar Lighting AB, has been installed in a study area/corridor test site. A collector is tracking the sun during daytime, focusing the direct sun irradiance via Fresnel lenses into optical fibers, which guide the solar light into the building. The illumination properties of the system have been characterized. The energy saving due to reduced need of artificial lighting have been calculated and methods for balancing the artificial lights in the test site have been evaluated. The illumination at the test site using solar light was at least as high as when using the artificial lights and even higher at very clear days. The luminous flux output (500 lm) was somewhat lower than specified by the manufacturer (550 lm) at 100 000 lx direct sun illuminance. The output at 130 000 lx was high 767±33 lm the sunlight coupling efficiency 23 %. However, for a 20 m SP3 system the luminous flux output (400 lm) at 100 000 lx was higher than specified (350 lm). The SP3 system of Parans provides high quality solar light. It has a fuller spectrum close to the spectrum of the sun compared to the fluorescent lights at the test site. The correlated color temperature of the system was 5800±300 K and the color rendering index 84.9±0.5. The lighting energy saved due to decreased need for artificial light was estimated to 19 % in Uppsala which has 1790 annual sun hours. The savings in Italy, which has 3400 sun hours, is 46 %. Additional saving, especially in warmer countries can be obtained due to decreased need for cooling in the building as the solar luminaires provide negligible heat to the indoor air. Economical saving could also be realized by improved well-being of the occupants spending time under the solar luminaires. Three ways of balancing the artificial light due to sunshine fluctuations have been investigated. The global horizontal irradiance could not be used as a control signal for balancing the artificial lights but a pyranometer attached to the SP3 sun tracking collector was usable. Also the signal from an indoor luxmeter sensor could be used for balancing the light. However the signal from the light sensor which makes the SP3 collector to track the sun is probably the most cost effective method as it would serve two purposes; tracking the sun and balancing the artificial lights. daylight optical fibers solar light energy saving illuminance luminous flux correlated color temperature color rendering index luminous efficacy
3	Sistema RGB com controle de fluxo luminoso e redução de variação cromática / RGB system with light flux control and color shift reduction Cordeiro, Rodrigo Godoy 10 July 2014 (has links) Coordenação de Aperfeiçoamento de Pessoal de Nível Superior / This work proposes a control methodology of luminous flux through independent sink temperature and current applied to red, green and blue LEDs. The main characteristics of solid-state lighting and LEDs themselves are presented, along an architectural approach trends in decorative lighting and artistic scope. Also are discussed the color theory and the history of regulation of colors through the standard CIE (International Commission on Illumination) since the creation of CIE 1931 to the CIE 1976 standard, creating an uniform space for the comparison of results of luminous sources. The constant flux system is proposed, using the equations for estimating the flux that is controlled by a microprocessor in practice, obtaining satisfactory results when compared with the open-loop dimmer system, resulting in a low chromatic variation Δu'v' regarding to studied set of colors, thus representing an imperceptible change to the human eye, taking into account the CIE 1976 standard. / Este trabalho propõe uma metodologia de controle de fluxo luminoso através da temperatura de dissipador e corrente, aplicada a diodos emissores de luz vermelhos, verdes e azuis. São apresentadas as principais características da iluminação em estado sólido e dos diodos emissores de luz propriamente ditos. Uma abordagem arquitetônica das tendências da iluminação decorativa em âmbito artístico é apresentada. É abordada também a teoria das cores. A história da regulamentação das cores através do padrao CIE (Comissão Internacional de Iluminação) é mostrada, desde a criação do padrão CIE 1931 até o padrão CIE 1976. Cria-se, assim, um espaço uniforme para a comparação de resultados de fontes luminosas. O sitema de fluxo constante é proposto, utilizando equações de estimação do fluxo. Este é controlado através de um microprocessador, obtendo-se resultados satisfatórios quando comparado com o sistema em malha aberta. Os resultados mostram uma variação cromática Δu v menor que 0.0035 para as cores ensaiadas, representando assim uma variação imperceptível pelo olho humano, levando-se em consideração o padrão CIE 1976. Controle de fluxo luminoso Variação cromática Colorimetria Diodo emissor de luz Iluminação decorativa Luminous flux control Color variation Colorimetry Light-emitting diodes Decorative lighting CNPQ::ENGENHARIAS::ENGENHARIA ELETRICA
4	Att Ljussätta Ett Rum : En ljusstudie och ljussättning av en sjukgymnastikavdelning / To Illuminate a Room : A light study and light planning of a physiotherapy practice Larsson, Klara, Lindeskog Markus, Sarah January 2015 (has links) Ljus påverkar människan psykiskologiskt och fysiskt, trots detta är de krav som idag finns på belysningen inte tillräckliga för att beakta de miljöegenskaper ljuset bidrar med. Ett visst ljus i kombination med en viss färg och material påverkar människan på olika sätt. De krav som ställs tar bara hänsyn till de tekniska aspekterna. Hur ljus estetiskt påverkar ett rum är en faktor detta arbete tar hänsyn till, då det påverkar människans välmående. Detta projekt behandlar två olika rum, ett rum för träning och behandling samt ett väntrum på en sjukgymnastikavdelning tillhörande Södersjukhuset i Stockholm. Dessa två rum har genomgått en ljusstudie och ljusplanering med syfte att skapa en ljussättning som är anpassad för sitt ändamål och som upplevs trivsam och behaglig. Vissa skillnader mellan projektets framtagna förslag och ett verkligt projekterat förslag har även jämförts. För att genomföra ljusstudien och ljusplaneringen har beräkningar utförts i belysningsprogrammet RELUX. På grund av att ljus inte enbart kan simuleras med hjälp av datorprogram har även fysiska modeller byggts för att analysera valet av färgtemperatur. Studiebesök på sjukgymnastpraktiker och träningsanläggningar har gjorts för att få inspiration. Även intervjuer med sjukgymnaster har gjorts för att få förståelse för vilka faktorer som måste tas hänsyn till vid en ljusplanering för denna typ av verksamhet. Litteraturstudier har gjorts för att få en djupare kunskap i hur ljus agerar i olika miljöer. Ljusplaneringen har resulterat i en jämn och god belysning i de två rummen. Kraven för belysning enligt SS-EN 12464–1:2011, har uppfyllts. Ljuskällornas färgtemperaturer har fastställts med hänsyn till färgerna i rummen, varmvit i väntrummet och neutral i tränings-/behandlingsrummet. Armaturer med uppljus och nedljus har valts i syfte att minska bländning och luminansskillnader. Downlights har valts för att belysa väggar och föremål. För att skapa en upplivande atmosfär i rummen har även dekorbelysning använts. Slutsatsen av detta arbete har visat att det är viktigt att ta hänsyn till en jämn belysning, anpassa belysningen och ljuskällans färgtemperatur efter färgsättning och material samt att anpassa belysningen efter alla synuppgifter som kan komma att krävas av personen som skall utföra arbetsuppgifter i rummet. / Light affects humans psychologically and physically, despite this the lighting requirements does not pay regard to the environmental characteristics that light contributes with. A specific light in combination with a specific color and material affects the human being in different ways. The lighting requirements only takes the technical aspects into account. In this project consideration will be given to how the light aesthetic affects the well-being. In this project two rooms will be processed, a waiting room as well as a room meant for rehabilitation. The rooms are placed in a building that includes physiotherapy at Södersjukhuset in Stockholm. The rooms have participated in a light study to create a light environment that is adjusted to its purpose as well as it is pleasantly perceived. Some differences between this lighting project and an actual lighting project have been compared. To perform this light study, various calculations have been done in the lighting planning software RELUX. Light can not solely be simulated with computer software, therefore physical models have been built to analyze the choice of color temperature. Visits to physiotherapy practices and training facilities have been done for inspirational purposes. Interviews with physiotherapists have also been done to reach a better understanding of what factors are needed to be taken under consideration while planning the lighting. Literature studies have been made to get a deeper knowledge in how light reacts in different environments. The lighting planning has resulted in an even lighting in both rooms. The requirements for lighting according to SS-EN 12464-1:2011 have been fulfilled. The different color temperatures of the light sources have been determined regarding the colors of the rooms, warm white in the waiting room and neutral in the rehabilitation room. Armatures with up and down lights have been chosen with the purpose of decreasing glare luminary differences. Downlights have been chosen to lighten up the walls and various objects. To create an uplifting atmosphere in the room, decor lighting have also been used. The conclusion of this work has shown that it is important to take luminance uniformity, adapt the light and color temperature to the room and its colors and materials into account. It is also important to adapt the light to all the different visual works that can take place in the room. Adaption Color Rendering Color Temperature Illuminance Light Planning Lighting Requirements Luminaire Luminance Luminous Flux Uniformity Adaption Armatur Belysningskrav Belysningsstyrka Färgtemperatur Färgåtergivning Jämnhet Ljusflöde Ljusplanering Luminans Civil Engineering Samhällsbyggnadsteknik
5	Zpětný výpočet křivek svítivosti svítidel určených pro osvětlování komunikací / Reverse calculation of the luminous intensity curves of street lighting luminaires Knápková, Dagmar January 2019 (has links) This master´s thesis deals with the reverse calculation of luminous curves for roads according to ČSN EN 13201. The thesis is divided into the theoretical and the practical part. The theoretical part describes the basic requirements and procedures for calculating the luminous curves. The practical part describes the program, created in the Matlab environment, which is designed for the practical calculation of the ideal luminous curve, for each situation given by the user. Further particular example of the calculation is given.
6	Technologie zalévání LED pásků epoxidovými hmotami / Technology of pouring LED strips with epoxy materials Rudy, Veronika January 2021 (has links) The thesis deals with the pouring of epoxy materials over LED strips. The research part contains an introduction to photometry and summarizes the types of potting compounds along with their characteristics. The practical part delves into the effect different amount of pigment has on the photometric properties. This is assessed based on verified measurements performed with the help of a goniophotometer on samples with different amounts of pigment, which were created using an integration sphere. Furthermore, a brightness analysis and a long-term outdoor test were performed.
7	Změny spektra zářivého toku světelných zdrojů v závislosti na napětí / Spectram power distribution of radiant flux depending on supply voltage Novotný, Tomáš January 2008 (has links) The master’s thesis consists of two parts. The first part describes base quantities of lighting engineering, basics of the electrical energy transformation to the light energy, laws of the thermal radiation and characteristics of incandescence and discharge light sources used for general illumination. This part concludes with a theoretical analysis of influence of power supply on the parameters of light source’s luminous flux. The second part of the thesis deals with the draft and configuration of a workplace for measuring spectral radiation of light sources depending on power supply. The last part of the thesis is created by the evaluation of spectral radiation and other light parameters changes according to the light source’s power supply changes.
8	Numerické modelování zdrojů světla / Numerical Modelling of the Light Source Pavelka, Adam January 2011 (has links) The master’s thesis deals with photometry units used in light engineering. There are defined the methods of modelling the illumination systems, their advantages, disadvantages and possibilities of using. Furthermore, the thesis deals with modelling of two illumination systems by ray-tracing in programming environment of MATLAB. The master’s thesis describes the analysis of the problem and the program designing process. Acquired model results are then compared with the real measurements of both illumination systems which allow the discussion of the results and the deviations of the models.
9	Provozní vlastnosti LED a jejich modelování / Operational Parameters of LED and their Modelling Pavelka, Tomáš January 2017 (has links) Doctoral thesis deals with parameters of LED light sources and their static and dynamic changes due to variable operational conditions. Firstly there is briefly described the history of light emitting diodes, that brought LED from unintentional observation of luminescence to light source, which is generally used through the whole area of lighting techniques. Thesis focuses on light parameters analysis, which are specific for semiconductor light sources and their mutual relations. These relations in compliance with understanding the principles of light emission in semiconductor light sources enable establishing of basic connections and effects usable for LED behaviour model. Mutual relations of LED parameters and influencing factors are verified by measurement of chosen testing samples. For deeper understanding of diode parameter influencing mechanisms there are analysed current degradation models including degradation of partial components. On the basis of these facts there is created a model of LED luminaire operating with LED parameters together with cooling system that represent the integral part of the luminaire. Impact of supply drivers is also studied, because they are necessary for LED operation. Designed model supports the area of static changes of light parameters, as well as the dynamic changes of output parameters. Presented model is verified by testing measurements at basic operational states and partially outside of the common operational limits. There are also presented the possibilities of real use of the model that involve the evaluation of designed luminaire for specific light sources, searching for optimal operational limits, optimization of luminaire heatsink or using public lighting systems for regulation of electricity grid load fluctuations.
10	Avalia??o da efici?ncia energ?tica de l?mpadas LED / Evaluation of the energy efficiency of LED lamps Miyashiro, Mauro Massanori 09 February 2017 (has links) Submitted by SBI Biblioteca Digital (sbi.bibliotecadigital@puc-campinas.edu.br) on 2017-03-10T19:12:54Z No. of bitstreams: 1 MAURO MASSANORI MIYASHIRO.pdf: 2380997 bytes, checksum: fc2d550825d50d0a996842532845e496 (MD5) / Made available in DSpace on 2017-03-10T19:12:54Z (GMT). No. of bitstreams: 1 MAURO MASSANORI MIYASHIRO.pdf: 2380997 bytes, checksum: fc2d550825d50d0a996842532845e496 (MD5) Previous issue date: 2017-02-09 / Light Emmiting Diode ? LED. Efici?ncia energ?tica. Portaria n? 144/2015. INMETRO. Fator de pot?ncia. Fluxo luminoso. Efici?ncia energ?tica. The objective of this study was to evaluate the energy efficiency of LED light bulbs (Light Emitting Diode) commercialized in the Brazilian market in the period of 2015/2016 and the development of a low cost test system to measure the mains voltage, current, consumption and power factor of LED lamp. For the evaluation of the LED lamps, the equipment available in the laboratories of the Eldorado Research Institute was used, and as a reference, the requirements established by Ordinance No. 144/2015 of the Instituto Nacional de Metrologia, Qualidade e Tecnologia - INMETRO, published on March 13, 2015. This Ordinance made it mandatory for manufacturers and importers to certify LED bulbs as of February 26, 2016. In order to carry out this work, a set of LED lamps from different manufacturers was acquired in the retail market to be subjected to functional tests of consumption of energy (watts), power factor (PF), luminous flux (lumens) and luminous efficiency (lumens/watt). The data obtained were compared with the nominal values declared by the manufacturers, as specified in the INMETRO ordinance. The results show that 11% of the samples failed in the energy consumption test and 83% failed in the power factor test. The developed test system was validated comparing its measurements with the results obtained in the tests carried out in INMETRO certified laboratory. Through this work it was possible to have an overview of the energy efficiency of LED bulbs currently commercialized in the country. / O presente trabalho teve como objetivo avaliar a efici?ncia energ?tica de l?mpadas com tecnologia LED (Light Emitting Diode) comercializadas no mercado brasileiro no per?odo de 2015/2016 e o desenvolvimento de um sistema de teste de baixo custo para medir a tens?o da rede el?trica, a corrente, o consumo e o fator de pot?ncia de l?mpada LED. Para a avalia??o das l?mpadas LED foram utilizados os equipamentos dispon?veis nos laborat?rios do Instituto de Pesquisas Eldorado e como refer?ncia os requisitos estabelecidos pela Portaria n? 144/2015 do Instituto Nacional de Metrologia, Qualidade e Tecnologia - INMETRO, publicada em 13 de mar?o de 2015. Esta Portaria tornou obrigat?ria para fabricantes e importadores a certifica??o das l?mpadas LED a partir de 26 de fevereiro de 2016. Para a realiza??o deste trabalho foi adquirido no mercado de varejo um conjunto de l?mpadas LED de diferentes fabricantes para serem submetidos a testes funcionais de consumo de energia (watts), fator de pot?ncia (FP), fluxo luminoso (lumens) e efici?ncia luminosa (lumens/watt). Os dados obtidos foram comparados com os valores nominais declarados pelos fabricantes conforme especificado na portaria do INMETRO. Os resultados demonstram que 11% das amostras falharam no teste de consumo de energia e 83% falharam no teste de fator de pot?ncia. O sistema de teste desenvolvido foi validado comparando suas medi??es com os resultados obtidos nos testes realizados em laborat?rio certificado pelo INMETRO. Atrav?s deste trabalho foi poss?vel ter um panorama amostral da efici?ncia energ?tica das l?mpadas LED comercializadas atualmente no pa?s.

Search results