Ameri Energy Group SunShine II Simulations

Slides:

Advertisements

Similar presentations

One Point Perspective A step-by-step guide.

Advertisements

Sustainable Lighting Strategies

Kitchen & Bath Lighting. A good lighting design should: Look good – both people and design space Provide the proper amount of light in every room Be.

16469 Low Energy Building Design Lighting Cameron Johnstone Department of Mechanical Engineering

Shadows. Floor Wall Torch Solid Object.

Measurement of Radiation - Solar radiation - Long wave radiation - Net radiation - Exposure of radiation sensors.

The Concept of Daylighting Lighting buildings prior to the late 1800s relied chiefly on daylight from windows. Lighting buildings prior to the late 1800s.

Parametric Study of Daylighting Strategies with Consideration of Glare Problems Case Study: IGES Research Center in Zushi Santiago L. Torres Sakamoto Laboratory.

Daylighting and Modeling SOURCE, SPACE, AND SENSORY EXPERIENCE

SOLVENT Development of a ventilated solar-screen glazing system consortium concept objectives glass properties glass selection overview problem tool energy.

Adapting to people & the environment System Overview Workspace specific Quality illumination Personal dimming control Occupancy sensors Daylight dimming.

Lighting Calculations

Outlines:-Outlines:- Environmental Design. Architectural Design Modifications. Structural Design Quantity compare Lighting and Mechanical Design.

Right Prisms Geometry Mr. Bower BowerPower.net. Example of a right prism Here is an example of a triangular right prism – Do you see the triangles at.

Why BoldPlay? Brilliant Design. Intuitive Engineering Innovation + Design = Performance Serious Energy Savings Ideal direct/indirect distribution maximum.

Aperture Placement & Area. Aperture Refers to any daylight source – Windows – Skylights – Openings – Transparent or translucent surfaces Placement and.

1) This classroom has _______. A)Too much lighting B)Not enough lighting C)About the right amount of lighting.

K. F. Chan (Mr.)ELEC LUMEN METHOD Utilization factor -- Ratio of flux received by reference plane to total rated lamp flux in the installation. Utilization.

BAE SYSTEMS DESIGN PROJECT: DAYLIGHTING TECHNIQUES/ AFTERNOON DE-”LIGHT” EDSGN 100 Sec. 6 Team 3: David Young, Robert Vadella, Victoria Rodriguez, Phil.

Environmental Controls I/IG Lecture 18 Daylighting Design & Analysis Design Strategies Glazing and Reflectors Sidelighting Analysis Method Lecture 18 Daylighting.

Ballenger East Building Final Presentation Design Development Architectural Engineering Senior Thesis Presentation 2009 Lighting / Electrical Option Student.

Chapter 1, Section 3 Pages 25-30

Lighting calculations

Kitchen & Bath Lighting. A good lighting design should: Look good – both people and design space Provide the proper amount of light in every room Be.

Photometric Data Photometry is the science of measurement of light.

Offices May 2nd, 2011.

Artificial Lighting Design Task lighting for general purpose rooms involves the installation of light sources that will provide the optimum amount of.

Lecture 9: Windows and Daylighting Material prepared by GARD Analytics, Inc. and University of Illinois at Urbana-Champaign under contract to the National.

 Diffuse Light – fills in shadows – reducing contrast.  Diffuse sources deliver light evenly in every direction. Lamp itself  Diffused sources can be.

Chris mccain Wayne biddy. The sun is a medium sized star that radiates energy from nuclear fusion reactions in its core. The small fraction of energy.

Kwok Ngai Kan ES The benefits of proper lighting  To allow employees to comfortably see what they’re doing, without straining their eyes or their.

First installation of SOLARSPOT D900 CTT MAYA – PORTUGAL mq for the main distribution of the Portuguese mail service 206 system installed, in a.

DAYLIGHT CALCULATIONS. Components of the Natural Light :  There are three separate components of the natural light that reaches any point inside a building:

Lecture Objectives: Define Solar Radiation Components Introduce Internal Surface Energy Balance.

Daylight as an Evolutionary Architectural Form Finder. Tarek Rakha The American University in Cairo Paper id: 121 Authors:Tarek Rakha and Khaled Nassar.

The Energy Impact of Daylighting and Your Impact on Building Design Jon McHugh, MSME Heschong Mahone Group ASHRAE/AIA Meeting April 20, 1999.

CDC Daylighting Analysis PNNL March 07, Methodology Daysim is used to analyze daylighting availability over a year course and glare condition.

Department of Technical Education

Tools for rapid architectural lighting analysis Daniel Glaser 1, Osbert Feng 2, Jan Voung 2, Ling Xiao 2, John Canny 2, Ellen Yi-Luen Do Radiance.

The Built Environment CONS5C08. >>FACULTY OF TECHNOLOGY AND BUILT ENVIRONMENT Learning resources NZBC G7 Natural lighting NZBC G8 Artificial lighting.

CSE Renovation Project Boston, MA Xiaoyin Wu (Laura) Lighting/Electrical | Architectural Engineering | Penn State University.

What can we see in the sky?. IN THE SKY WE CAN SEE MUCH MORE!

Objectives Learn about daylighting Review lighting -terminology -technology -design.

Do you know the difference between Light Energy and Solar Energy? Light Energy vs. Solar Energy Is manmade Pollutes Is a natural resource Does not pollute.

Objectives Learn about lighting design.

North Hills Junior High School Schematic Lighting Design

Lighting layout DIY Several design scenarios – Stationary object and camera – One person to document EACH scenario on paper – Another person to photograph.

PPF: a tool to study solar irradiation and illuminance in urban areas Raphaël Compagnon (September 2002) Developed in the framework of the European project:

SIZE - Top SERVER ROOM Designed by – openbox |

North Hills Junior High School Pittsburgh, PA Senior Thesis Final Presentation 2005 Chris Rush Lighting / Electrical Faculty Consultant: Dr. Mistrick.

Functions of Lighting – Allow a person to see without straining his or her eyes – Enhance the look of a room or space – Improve safety in areas that may.

LOGO Benefits of LED flood lightsLED flood lights.

A Study on the Solar Illumination Provided by a Water Bottle

Incandescent Light Bulb LUMEN DESIGN METHOD Where: N = E A F UF LLF N = number of lamps E = level of illuminance A = Area at working plane.

Setup received from Serban

ART 2640, Building Systems of Interior Environments Fall Semester 2016 Tuesdays & Thursdays 9:00-10:20 Grover Center E218 Matthew Ziff, Associate Professor.

Ambient Graze. Ambient Graze Why TruGroove Perimeter? Graze Version Dramatic reverse parabolic optic 8:1 uniformity on a 9’ wall Efficacies.

Tas Climate Based Daylight Modelling

METHODS OF ILLUMINANCE CALCULATION

Tas Climate Based Daylight Modelling

Climate Based Daylight Modelling

Light Dependent Resistors LDR נגדים רגישים לאור

Lecture Objectives: Finish with review of radiation Learn about

Introduction to Graph Theory

Integrated Daylight Simulation

iSolar Lighting System - For areas lack of electricity

Announcement Next class: 15 minutes quiz

Objectives Finish Lighting system design Daylighting.

Presentation transcript:

Ameri Energy Group SunShine II Simulations 18’ Room 11/19/14 Daylighting System Version Existing diffuser for bottom lens, existing clear for top lens Sky Condition Clear Solar Altitude 40° Room Size 150’ x 100’ Wall Height 18’ Ceiling Reflectance 80% Wall Reflectance 50% Floor Reflectance 20% # Daylighting Systems 35 Daylighting System Spacing 20’ x 20’ Average 80 fc 856 lux Max 110 fc 1178 lux Min 26 fc 275 lux Avg/Min 3.11 Max/Min 4.28

Ameri Energy Group SunShine II Simulations 25’ Room 11/19/14 Daylighting System Version Existing diffuser for bottom lens, existing clear for top lens Sky Condition Clear Solar Altitude 40° Room Size 150’ x 100’ Wall Height 25’ Ceiling Reflectance 80% Wall Reflectance 50% Floor Reflectance 20% # Daylighting Systems 35 Daylighting System Spacing 20’ x 20’ Average 70 fc 755 lux Max 102 fc 1093 lux Min 17 fc 185 lux Avg/Min 4.08 Max/Min 5.91

Ameri Energy Group SunShine II Simulations 32’ Room 11/19/14 Daylighting System Version Existing diffuser for bottom lens, existing clear for top lens Sky Condition Clear Solar Altitude 40° Room Size 150’ x 100’ Wall Height 32’ Ceiling Reflectance 80% Wall Reflectance 50% Floor Reflectance 20% # Daylighting Systems 35 Daylighting System Spacing 20’ x 20’ Average 64 fc 684 lux Max 93 fc 1001 lux Min 17 fc 182 lux Avg/Min 3.76 Max/Min 5.50

Ameri Energy Group SunShine II Simulations 18’ Room – 500 lux 11/19/14 Daylighting System Version Existing diffuser for bottom lens, existing clear for top lens Sky Condition Clear Solar Altitude 40° Room Size 150’ x 100’ Wall Height 18’ Ceiling Reflectance 80% Wall Reflectance 50% Floor Reflectance 20% # Daylighting Systems 18 Daylighting System Spacing 20’ x 25’ Average 49 fc 525 lux Max 84 fc 909 lux Min 10 fc 109 lux Avg/Min 4.78 Max/Min 8.27

Ameri Energy Group SunShine II Simulations 25’ Room – 500 lux 11/19/14 Daylighting System Version Existing diffuser for bottom lens, existing clear for top lens Sky Condition Clear Solar Altitude 40° Room Size 150’ x 100’ Wall Height 25’ Ceiling Reflectance 80% Wall Reflectance 50% Floor Reflectance 20% # Daylighting Systems 24 Daylighting System Spacing 20’ x 20’ Average 52 fc 561 lux Max 89 fc 955 lux Min 10 fc 106 lux Avg/Min 5.32 Max/Min 9.06

Ameri Energy Group SunShine II Simulations 32’ Room – 500 lux 11/19/14 Daylighting System Version Existing diffuser for bottom lens, existing clear for top lens Sky Condition Clear Solar Altitude 40° Room Size 150’ x 100’ Wall Height 32’ Ceiling Reflectance 80% Wall Reflectance 50% Floor Reflectance 20% # Daylighting Systems 24 Daylighting System Spacing 20’ x 20’ Average 49 fc 525 lux Max 80 fc 857 lux Min 11 fc 116 lux Avg/Min 4.52 Max/Min 7.38

Ameri Energy Group SunShine II Simulations One Daylighting System: Candela Plots 11/19/14 Daylighting System Version Existing diffuser for bottom lens, existing clear for top lens Sky Condition Clear Solar Altitude 10°

Ameri Energy Group SunShine II Simulations One Daylighting System: Candela Plots 11/19/14 Daylighting System Version Existing diffuser for bottom lens, existing clear for top lens Sky Condition Clear Solar Altitude 20°

Ameri Energy Group SunShine II Simulations One Daylighting System: Candela Plots 11/19/14 Daylighting System Version Existing diffuser for bottom lens, existing clear for top lens Sky Condition Clear Solar Altitude 30°

Ameri Energy Group SunShine II Simulations One Daylighting System: Candela Plots 11/19/14 Daylighting System Version Existing diffuser for bottom lens, existing clear for top lens Sky Condition Clear Solar Altitude 40°

Ameri Energy Group SunShine II Simulations One Daylighting System: Candela Plots 11/19/14 Daylighting System Version Existing diffuser for bottom lens, existing clear for top lens Sky Condition Clear Solar Altitude 50°

Ameri Energy Group SunShine II Simulations One Daylighting System: Candela Plots 11/19/14 Daylighting System Version Existing diffuser for bottom lens, existing clear for top lens Sky Condition Clear Solar Altitude 60°

Ameri Energy Group SunShine II Simulations One Daylighting System: Candela Plots 11/19/14 Daylighting System Version Existing diffuser for bottom lens, existing clear for top lens Sky Condition Clear Solar Altitude 70°

Ameri Energy Group SunShine II Simulations One Daylighting System: Candela Plots 11/19/14 Daylighting System Version Existing diffuser for bottom lens, existing clear for top lens Sky Condition Clear Solar Altitude 80°

Ameri Energy Group SunShine II Simulations One Daylighting System: Candela Plots 11/19/14 Daylighting System Version Existing diffuser for bottom lens, existing clear for top lens Sky Condition Clear Solar Altitude 90°

Ameri Energy Group SunShine II Simulations One Daylighting System: Candela Plots 11/19/14 Daylighting System Version Existing diffuser for bottom lens, existing clear for top lens Sky Condition Cloudy Solar Altitude 10°

Ameri Energy Group SunShine II Simulations One Daylighting System: Candela Plots 11/19/14 Daylighting System Version Existing diffuser for bottom lens, existing clear for top lens Sky Condition Cloudy Solar Altitude 20°

Ameri Energy Group SunShine II Simulations One Daylighting System: Candela Plots 11/19/14 Daylighting System Version Existing diffuser for bottom lens, existing clear for top lens Sky Condition Cloudy Solar Altitude 30°

Ameri Energy Group SunShine II Simulations One Daylighting System: Candela Plots 11/19/14 Daylighting System Version Existing diffuser for bottom lens, existing clear for top lens Sky Condition Cloudy Solar Altitude 40°

Ameri Energy Group SunShine II Simulations One Daylighting System: Candela Plots 11/19/14 Daylighting System Version Existing diffuser for bottom lens, existing clear for top lens Sky Condition Cloudy Solar Altitude 50°

Ameri Energy Group SunShine II Simulations One Daylighting System: Candela Plots 11/19/14 Daylighting System Version Existing diffuser for bottom lens, existing clear for top lens Sky Condition Cloudy Solar Altitude 60°

Ameri Energy Group SunShine II Simulations One Daylighting System: Candela Plots 11/19/14 Daylighting System Version Existing diffuser for bottom lens, existing clear for top lens Sky Condition Cloudy Solar Altitude 70°

Ameri Energy Group SunShine II Simulations One Daylighting System: Candela Plots 11/19/14 Daylighting System Version Existing diffuser for bottom lens, existing clear for top lens Sky Condition Cloudy Solar Altitude 80°

Ameri Energy Group SunShine II Simulations One Daylighting System: Candela Plots 11/19/14 Daylighting System Version Existing diffuser for bottom lens, existing clear for top lens Sky Condition Cloudy Solar Altitude 90°

Ameri Energy Group SunShine II Simulations One Daylighting System: Candela Plots 11/19/14 Daylighting System Version Existing diffuser for bottom lens, existing clear for top lens Sky Condition Dark - LEDs Solar Altitude n/a

Ameri Energy Group SunShine II Simulations One Daylighting System: Illuminance Plots 11/25/14 Daylighting System Version Existing diffuser for bottom lens, existing clear for top lens Sky Condition Clear Solar Altitude 10°

Ameri Energy Group SunShine II Simulations One Daylighting System: Illuminance Plots 11/25/14 Daylighting System Version Existing diffuser for bottom lens, existing clear for top lens Sky Condition Clear Solar Altitude 20°

Ameri Energy Group SunShine II Simulations One Daylighting System: Illuminance Plots 11/25/14 Daylighting System Version Existing diffuser for bottom lens, existing clear for top lens Sky Condition Clear Solar Altitude 30°

Ameri Energy Group SunShine II Simulations One Daylighting System: Illuminance Plots 11/25/14 Daylighting System Version Existing diffuser for bottom lens, existing clear for top lens Sky Condition Clear Solar Altitude 40°

Ameri Energy Group SunShine II Simulations One Daylighting System: Illuminance Plots 11/25/14 Daylighting System Version Existing diffuser for bottom lens, existing clear for top lens Sky Condition Clear Solar Altitude 50°

Ameri Energy Group SunShine II Simulations One Daylighting System: Illuminance Plots 11/25/14 Daylighting System Version Existing diffuser for bottom lens, existing clear for top lens Sky Condition Clear Solar Altitude 60°

Ameri Energy Group SunShine II Simulations One Daylighting System: Illuminance Plots 11/25/14 Daylighting System Version Existing diffuser for bottom lens, existing clear for top lens Sky Condition Clear Solar Altitude 70°

Ameri Energy Group SunShine II Simulations One Daylighting System: Illuminance Plots 11/25/14 Daylighting System Version Existing diffuser for bottom lens, existing clear for top lens Sky Condition Clear Solar Altitude 80°

Ameri Energy Group SunShine II Simulations One Daylighting System: Illuminance Plots 11/25/14 Daylighting System Version Existing diffuser for bottom lens, existing clear for top lens Sky Condition Clear Solar Altitude 90°

Ameri Energy Group SunShine II Simulations One Daylighting System: Illuminance Plots 11/25/14 Daylighting System Version Existing diffuser for bottom lens, existing clear for top lens Sky Condition Cloudy Solar Altitude Any

Ameri Energy Group SunShine II Simulations One Daylighting System: Illuminance Plots 11/25/14 Daylighting System Version Existing diffuser for bottom lens, existing clear for top lens Sky Condition Dark - LEDs Solar Altitude n/a