Public Lighting Strategy:
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Sustainable Lighting Strategy The Key Factors Abu Dhabi Sustainable Reduce all Roadway and Pavement lighting levels and ensure more targeted design for both Roadway and Pavement lighting Ensure Parks and Public Realm projects are designed with suitable lighting for long-term efficiency and quality for the environment and people Specify energy and optical efficient quality LED and other new low-energy technology and appropriate controls for all uses Introduce Emirate-specific Performance Benchmarking system for and LED and new technologies for external lighting Mandate Policy to include statutory brightness hierarchy and design guidance for all external public lighting. Align with other AD documents e.g. Estidama Return maintenance of all road lighting back to asset owners (Municipalities, and DoT) Explore energy-saving and step-dimming systems for traditional technology high-mast road lighting. Maintain ongoing research analysis 5
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Savings & Costs: Public Lighting Cost Use of LED technology gives a 67% reduction in energy usage & CO2 emission reduction vs. existing technology Proposed Lighting Strategy is 34% cheaper than existing standards/ technology over 20 years considering energy economic cost, achieving an overall saving of AED 1.13 Billion 1 Electricity Cost - 35 fils/ KWh Policy vs. Current @ Economic Cost LED Efficient Technology Policy Current Technology Continuation PV in AED '000 existing condition existing improved new (2030) roads total existing unimproved new (2030) roads total variance total benefit capital investment 488,859 496,766 862,914 1,359,681 488,859 915,546 1,404,405 44,724 3% non power opex 245,564 167,788 53,433 221,221 245,564 70,070 315,633 94,413 30% power cost 1,285,098 525,388 64,873 590,261 1,285,098 298,860 1,583,958 993,697 63% total PV 2,019,521 1,189,943 981,220 2,171,163 2,019,521 1,284,475 3,303,996 1,132,833 34% road length lm (approx) 3,335,530 3,335,530 3,341,535 6,677,065 3,335,530 3,341,535 6,677,065 3,341,535 100% population 1,740,000 1,569,884 1,530,116 3,100,000 1,569,884 1,530,116 3,100,000 1,530,116 total power consumption ('000 kwh) 6,369,972 2,298,800 443,508 2,742,309 6,369,972 2,046,238 8,416,210 5,673,901 67% CO2 emissions kg 5,287,077 1,908,004 368,112 2,276,116 5,287,077 1,698,377 6,985,454 4,709,338 67% Power economic cost, fils/kwh 0.35 CO2 emission in kg/kwh 0.83 21
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HORIZONTAL SURFACES SITE ELEMENTS VERTICAL SURFACES Abu Dhabi Sustainable LIGHTING APPROACH: VISUAL HIERARCHIES Government Buildings Iconic Buildings Bus & Rail Stops Landscape Features Monuments and Features Wayfinding Water Features Flags/Banners Public Art PRIORITIZATION VALUE OF LIGHT INTENSITY (in relationship to COMPOSITION: each other) 1 2 3 4 5 6 7 8 9 10 LAYERS OF LIGHT - Intensity/Contrast - Vertical/Horizontal - Balance/Harmony - White Light/Colored Light GUIDELINES: Lighting Various Elements of Nighttime Experience Based on Different Zones BUSISNESS ZONES INTENSITY VEHICULAR REALM - Iconic Elements of the Business or District High Arterial - Facades and Tops of Buildings over 10 Stories High Collector - Entrances and Street Frontage For all Buildings High / Med Internal 1 - Landscape and Water Features Med / High Internal 2 COMMERCIAL / RETAIL ZONES INTENSITY Vehicular Intersections/Rotaries - Iconic Elements of the Business or District Med to High Car Parks Bridges - Facades, Tops of Buildings or Graphics of Commercial Establishments High - Plazas, Pedestrian Walkways or Promenades Med PEDESTRIAN REALM - Entrances to Commercial and Retail Establishments Med to High Sidewalks Adjacent to Roads - Exterior Experiences i.e., Sidewalk Cafes Low Sidewalks Away from Roads - Landscape and Water Features Med / High Pedestrian Intersections/Crosswalks RESIDENTIAL ZONES INTENSITY Plazas - Iconic Elements of the Community i.e., Portals Low Parks - Pedestrian Walkways or Pathways Low Bicycle Paths - Landscape Low 24
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Lighting & PRFD Projects: Lighting Masterplanning at Concept Design Stage (MACRO Scale) 26
Lighting & PRFD Projects: Lighting Masterplanning at Preliminary/Detailed Design Stages (MICRO Scale) 27
Implementation 28
How to specify LEDs for the Extreme Environment of the Middle East What are the issues with LEDs for use in the Middle East? Temperature? Humidity? Dust? Sand? Corrosion? Performance? Drivers? Answer is: QUALITY fixtures & lighting design address all the above There are no issues in specifying LEDs for Middle East external use...if Correct technical LED Specifications are written and enforced Correct lighting design criteria/standards/brief are issued Consultant/Designers are required to Specify and Design correctly Specifications and Standards are enforced through all project stages Any Equal & Approved submissions and/or value engineering is monitored and controlled 29
LED Fixture Specification The key areas to define with benchmarks/criteria LED Fixture efficacy LED Fixture thermal design LED Fixture testing performed at actual local maximum nighttime temperature/humidity, plus safety factor Storage (or daytime) temperature tolerance of components and fixtures LED source colour temperature and rendering LED chip binning Driver specification IP, IK rating & corrosion/environmental resistance Photometry Useful Life calculation criteria Photobiological safety Long warranties 30
LED Fixture Specification LED Fixture efficacy Whole Luminaire Efficacy: The optimum efficiency of the luminaire shall be confirmed as follows: Minimum luminaire efficacy shall be: 75llm/cctW (@min50-degc, min95%rh Which is given as Total Luminaire Design(Deliver) Lumen Output (llm) over Total Luminaire Circuit Watts(cctW) at minimum 50-degrees Centigrade Operating Outside Ambient Temperature and minimum 95% Relative Humidity. The efficacy being stated at minimum 50 Deg C (Greater than or equal to 75 llm/cctw) should be supported by a thermal test report for the luminaire. This report should provide percentage depreciation of light output at 50 Deg C from testing value of 25degreeC or 35degreeC. This can be compared with LM-79 efficacy at lab temperature from photometric report and de-rated. The effect on the driver case temperature at minimum 50degreeC should also be shown. 31
LED Fixture Specification LED Binning 32
LED Fixture Specification LED MacAdam Ellipses 33
The Policy is being implemented by DMA/ADM through new stringent Lighting Specifications and tables of lighting design criteria have been written and being applied on all current and future projects. The Policy will be expanded into a comprehensive Abu Dhabi Sustainable Public Lighting CODE document to offer best practice design advice as well as standards and statutory criteria. 34
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The Tables of New Lighting Strategy Reduced Roadway Illuminances has been now issued under DMA Decree-39 36
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All new Public Realm projects are being designed fully in accordance with the Lighting Strategy requirements on both ensuring balanced illumination levels and lighting quality of the designs 38
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The Specifications have now become DMA Specifications and officially issued under the DMA Decree-39 to cover the whole Emirate: All Municipalities, DoT and Developers have to adhere. 40
The Current Lighting Strategy and Specification Documents Will be Expanded into a National Statutory Design Guidance CODE Document Typical International Exemplar Documents: 41
Interim Guide produced for ADM s Consultants Lighting Best Practice for Roads, Parks and Public Realm projects. (already being used extensively) 42
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Al Salam Street Sustainable LED Lighting Installation The roadway, tunnel and traffic signal lighting for the Salam Street project is all undertaken for the first time in the region utilizing LED technology throughout. This was undertaken as part of the DMA/ADM Sustainable Lighting Strategy to provide the best possible long-term sustainable lighting solution
Al Salam Street Sustainable LED Lighting Installation The new roadway and tunnel lighting levels are approximately 60% lower across all road categories and the use of LED efficient long-life technology was implemented throughout for the first time in Abu Dhabi. Highly efficient lighting fixture optics were utilised to ensure light is focused only where it needs to be avoiding wasted light and reducing light pollution. This further maximizes the overall lighting efficiency of roadway lighting installations 45
Al Salam Street Sustainable LED Lighting Installation 46
Al Salam Street Sustainable LED Lighting Installation Salam Street s LED signals draw approximately 80% less power than traditional incandescent signals, last around 8-times longer and the loss of individual LEDs will not lead to a total loss of the indication, maximizing safety at intersections. The combination of the LED road, tunnel and signal lighting systems provides a virtually maintenance free installation for the whole of Salam Street; a solution that is now being applied throughout the city of Abu Dhabi 47
Al Salam Street Sustainable LED Lighting Installation The Municipality of Abu Dhabi City s Salam Street project recently won the prestigious Green Initiative Prize at the 2011 Gulf Traffic Awards as well as winning the Project of the Year Category at the 2012 Middle East Electricity Awards. 48
Sheikh Zayed Bridge Lighting As part of the Abu Dhabi Gateway project, the new Sheikh Zayed Bridge has been lit with a sustainable long-term roadway and architectural lighting system to both enhance the form of the flowing structure, representing undulating sand dunes, but also is programmed with special scenes for occasions and importance dates within the UAE without ever needing to bring in and connect additional lighting equipment Nominated for the 2012 Lighting Design Awards Best International Exterior Project
Sheikh Zayed Bridge Lighting 50
Sheikh Zayed Bridge Lighting The lighting scenes comprise of dynamic coloured light that smoothly flows across the Maqtaa channel 51
Sheikh Zayed Bridge Lighting A system of special targeted energy efficient roadway and architectural fixtures have been designed to avoid light spill, with light applied only where needed. The architectural lighting is able to produce any of 16 million colours with a DMX lighting control system to program and sequence the effects on the bridge and also ensure all effects are tuned off from 1am until dawn for maximizing the efficiency and lamp life of the installation 52
From One Extreme to Another... Antarctica 53
Coldest place on earth Highest continent Designing Windiest for continent Antarctica Driest continent No Coldest indigenous place population on earth Bigger Highest than continent USA and Mexico combined No Windiest building continent supplies or usable resources (except water) The Driest last continent great un-spoilt wilderness No indigenous population Bigger than USA and Mexico combined No building supplies or usable resources (except water) The last great un-spoilt wilderness 54
Halley VI 55
Building at Halley: on the Brunt Ice Shelf Surrounded by over 2,000km of frozen sea ice in winter Lowest recorded temperature -56C Sun does not rise for 105 days every winter Less than 3 month summer season 200kph wind speeds have been recorded Moving 400m per year towards Weddell Sea Movement variable with depth and location Snow accumulation around 1.5m per year Major shelf calving event predicted in 5 to 10 years 56
Halley is also where the Ozone Hole is... 57
Halley VI 58
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Thank You 62