5000 N. Willamette Blvd.Fax 503 943 7316
Portland, OR97203-5798
Functional Specifications
Project Pilot Rock: Stanford’s Restaurant and Bar Lighting Design and Schematic
Contributors:
Kristin Glanville
Ethan Prevost
Approvals
Name / Date / Name / DateDr. VanDeGrift / Dr. Lillevik
Insert checkmark (√) next to name when approved.
University of PortlandSchool of EngineeringContact: E. Prevost
Revision History
Rev. / Date / Author / Reason for Changes0.5 / 09/04/03 / S. Lillevik / Initial draft
0.8 / 09/13/03 / S. Lillevik / Changed table formatting and added revision history page
0.85 / 09/29/03 / S. Lillevik / Moved figure titles below figure.
0.9 / 10/08/06 / K. Glanville; E. Prevost / First draft of Functional Specs
0.95 / 10/12/06 / K. Glanville; E. Prevost / Second draft of Functional Specs
1.0 / 10/29/06 / K. Glanville; E. Prevost / Third draft of Functional Specs
1.1 / 11/2/06 / K. Glanville; E. Prevost / Fourth draft of Functional Specs
University of PortlandSchool of EngineeringContact: E. Prevost
functional specificationsRev. 1.1Page 1
STANFORD’S restaurant and bar
lIGHTING sCHEMATIC
Table of Contents
Summary
Introduction
Background
Requirements
Overview
Room List
Lighting Specifications
Resource Guides
AutoCAD LT 2000
IESNA Lighting Handbook
Interpreting the National Electrical Code 2005
Seattle Energy Code
National Fire Protection Association 101: Life Safety Code
Software Specifications
Operating System Software
AutoCAD
AGI
Conclusions
Appendices
Restaurant Layout
Sample Lighting Design Schematic
Bar Layout
Kitchen – Prep Line, Cook Line, Server, Cooler, Dry Storage
Beer Cooler, Liquor Storage, Dish Wash Room, Break Room
University of PortlandSchool of EngineeringContact: E. Prevost
functional specificationsRev. 1.1Page 1
STANFORD’S restaurant and bar
lIGHTING sCHEMATIC
List of Figures
Figure 1. Block Diagram of Groups for the Stanford’s Restaurant Design
University of PortlandSchool of EngineeringContact: E. Prevost
functional specificationsRev. 1.1Page 1
STANFORD’S restaurant and bar
lIGHTING sCHEMATIC
List of Tables
Table 1. Room List
Table 2. Lighting Requirement
Table 3. Guides
Table 4. Software Programs
University of PortlandSchool of EngineeringContact: E. Prevost
Functional specificationRev. 1.1Page 1
sTANFORD’S restaurant and bar
lIGHTING sCHEMATIC
Chapter / Summary1
Contained in this document are the lighting design specifications for a new Stanford’s Restaurant and Bar to be located at the Northgate Mall in Seattle, Washington. A rough layout can be seen in Appendix A. This project will focus on the lighting design and resulting layout for each room in the restaurant. Various lighting levels will be needed for the type of atmosphere desired. A more somber atmosphere will be designed for the dining areas, while a brighter atmosphere will be needed for the kitchen and restrooms. For light levels, the Illuminating Engineering Society of North America (IESNA) guide will be followed and will be based on readings taken at the Stanford’s Restaurant in Clackamas, OR. The light levels will be simulated using the AGI program lighting simulator. A combination of incandescent and fluorescent lighting will be used based on the desired effects. The National Electrical Code (NEC) shall used as a minimum safety standard and the restrictions set by the Seattle Energy Code will be followed.
Our final project presentation will be a model representing the restaurant. The model will be an enclosed three dimensional building with separate detachable parts so that the lighting may be seen. It will be constructed out of Styrofoam core. The lighting will be simulated using LED lights with different colors representing different circuits. We will demonstrate through a switch which lights are attached to which circuit. The circuit plan will follow the AutoCAD schematics of the design. A sample of a finished lighting electrical design plan for a Safeway can be seen in Appendix B.
University of PortlandSchool of EngineeringContact: E. Prevost
Functional specificationRev. 1.1Page 1
sTANFORD’S restaurant and bar
lIGHTING sCHEMATIC
Chapter / Introduction2
The project is an electrical lighting design schematic of a Stanford’s Restaurant and Barlocated at the Northgate Mall in Seattle, Washington. The purpose of the document is to familiarize the Stanford’s Restaurant lighting design layout and requirements with our peers, advisors, and industry representatives. Through the tables and figures one should have an understanding of the layout of the restaurant and the requirements needed to light each room and area.
Contained in this document is a background of the entire Stanford’s Restaurant project. The entire scope of the project is outlined in this document. The physical specifications are listed, which include each of the rooms located in the building. These specs are located in the requirements section. Also, included in the requirements are the types of lighting being considered for each room. Much of this project will be done in design using simulated software. The specific programs that shall be used are mentioned. In this project, as in most, guides will be consulted. These guides can be found in the last part of the requirements section.
What are not covered are the specific materials that will be used in implementing the design. This means that the cost of materials is not listed. The structural and mechanical aspects of the building are being taken care of by a separate team. However, the AutoCAD drawings for the building are shown, as they are needed for the electrical design. The power layout will not be included in the lighting design.
University of PortlandSchool of EngineeringContact: E. Prevost
Functional specificationRev. 1.1Page 1
sTANFORD’S restaurant and bar
lIGHTING sCHEMATIC
Chapter / Background3
The architectural layout for the Stanford’s Restaurant was drawn by Scott Edwards architectural company. The layout drawings were then given to Interface Engineering for them to design the lighting, power and fire alarm electrical circuits for the building. Interface Engineering has already accomplished this task and has handed over the designs to the owners’ Contractor. The restaurant is currently being constructed. Interface Engineering provided the original architectural drawings without the electrical design. As well, they gave us the mechanical plan drawings. We will take the original layout then design our version of the lighting. Once designed, we will compare our design with the actual design that is underway at the construction site. Interface Engineering has volunteered to let us use their facilities and resources including lighting guides, simulations software and access to the professional lighting design engineers.
The overall Stanford’s Restaurant project is composed of multiple teams. One of the teams is in control of the electrical design including power, lighting and fire alarm circuits. We will be working only on the lighting design. The mechanical team is in charge of the appliances, air conditioning units, and heating units. The architect designed the layout of the building in regards to the needs of Stanford’s Restaurant. The Contractor will oversee the construction of the building.
For the senior design portion, we will be using AutoCAD and AGI in order to create blue prints for the electrical lighting schematic. References such as building codes, available power and obligations of the utility companies will be consulted. The design will follow the minimum safety standards set by the National Electrical Code and the Seattle Energy Code. Our final product will be a model of one of the rooms of the restaurant. We will simulate the various circuits with different colored LED lights.
University of PortlandSchool of EngineeringContact: E. Prevost
Functional specificationRev. 1.1Page 1
sTANFORD’S restaurant and bar
lIGHTING sCHEMATIC
Chapter / Requirements4
Overview
The restaurant contains an upper dining area, a front dining area, a side dining area, a patio and a lounge with a bar. There shall be 85 tables in all. The Upper dining area shall contain four, quad-seating sections and shall be outlined by 14 four person booths. The front dining area shall contain seven square tables and six, four person booths. The side dining area shall contain six square tables and four, four person booths. The lounge shall have five round tables, nine booths, and four half-booth seating sections. Included in the lounge there shall be a bar with seating for 27 people. The patio shall contain 14 round tables. Four restrooms are included; a woman’s restroom, a men’s restroom, a unisex restroom, and an employee restroom.
The kitchen shall have three sections. There shall be three sections included in the kitchen. The rough layout of the kitchen can be seen in Appendix C. The kitchen shall be laid out with a section for the prep line, a section for the cook line and a section for the server. Next to the kitchen shall be a walk-in cooler and a walk-in dry storage room. On the opposite side shall be a dish washing room, an office, a break room, a trash room, a beer cooler, and liquor storage. This can be seen in Appendix D and Appendix E.
The lighting electrical schematic is part of an overall design team effort that includes electrical and mechanical engineers from Interface Engineering, architects from Scott Edwards Architecture, and the Contractor. All teams together will make up the entire scope of the project. We are working in conjunction with the electrical design team from Interface Engineering. Within the electrical design team there are three subcategories; power, lighting, and fire alarms. The product will be an electrical design lighting schematic for the Stanford’s Restaurant located in Seattle, Washington.
Figure 1. Block Diagram of Groups for the Stanford’s Restaurant Design
Room List
Table 1. Room List contains the types of rooms in the Restaurant.
Table 1. Room List
RoomsLounge
Restrooms (4)
Office
Lounge
Upper Dining Area
Side Dining Area
Front Dining Area
Vestibule
Patio
Lobby
Bar
Electrical Room
Trash Room
Kitchen
Liquor Storage
Beer Cooler
Food Cooler
Mechanical Room
Dry Storage
Break Room
Lighting Specifications
Table 2. Lighting Requirement contains the various types of lights that we will be choosing for the design.
Table 2. Lighting Requirement
Types of LightingFixed Downlight
Adjustable Downlight
WallWash
Custom Large Chandelier
Custom Small Chandelier
Custom Pendant
Custom Wall Sconce
Exit Sign
Resource Guides
Table 3. Guides contains the resource guides that will be referred to in laying out the lighting design. The guides will be used to specify the design according to national electrical design codes and the Seattle energy codes as well as to understand how to operate AutoCAD.
Table 3. Guides
Guide bookAutoCAD LT 2000
IESNA Lighting Handbook
Interpreting the National Electrical Code 2005
Seattle Energy Code
NFPA 101: Life Safety Code
AutoCAD LT 2000
This guide is used for help in understanding the CAD user interface. There are many symbols used in designing an electrical system and this guide will help distinguish what each symbol represents. This guide will help with the understanding of what a proper design schematic should look like.
IESNA Lighting Handbook
This guide is used for determining the proper placement for each room. This guide lists the type of room and the amount of lighting required for a specific task that is likely to take place. For this project we will be following this guide to make sure the building is properly lit.
Interpreting the National Electrical Code 2005
This book shall be referenced in order to make sure that proper safety procedures are followed. This will aid in the design placement of the light fixtures and the proper power levels ratings.
Seattle Energy Code
This guide is used in order to adhere to the energy regulations set by the city of Seattle in accordance with the State of Washington. The guide is used to determine the maximum amount of wattage allowed per square foot.
National Fire Protection Association 101: Life Safety Code
This book provides a background for minimum emergency system and acts as a guide for safety precautions.
Software Specifications
Operating System Software
Table 4. Software Programs contains the software programs that are required.
Table 4. Software Programs
Software ProgramAutoCAD
AGI
AutoCAD
AutoCAD is required in order to draw the schematics. AutoCAD has a user interface that allows the user to place electrical symbols in a neat concise format. The schematics made in AutoCAD will then be printed on large industrial paper. These prints make up the drawings.
AGI
AGI is used to simulate lighting levels. This program allows the user to input a potential light fixture and simulates the lighting output. This is used to see how much a potential light will light up a room. Once this is seen the user can best judge where to place the light in order to create the desired luminary effect.
University of PortlandSchool of EngineeringContact: E. Prevost
Functional specificationRev. 1.1Page 1
sTANFORD’S restaurant and bar
lIGHTING sCHEMATIC
Chapter / Conclusions5
By using the drawings we will be able to represent an electrical lighting design and schematic so that the entire building shall have the proper lighting. All the light fixtures will be placed in order to meet the requirements stated in the Illuminating Engineering Society of North America Lighting Handbook and NFPA 101 and will be simulated using AGI. The lighting electrical design will follow the National Electrical Code and the Seattle Energy Code.
University of PortlandSchool of EngineeringContact: E. Prevost
Functional specificationRev. 1.1Page 1
sTANFORD’S restaurant and bar
lIGHTING sCHEMATIC
AppendicesAppendix A
Restaurant Layout
Appendix B
Sample Lighting Design Schematic
Appendix C
Bar Layout
Appendix D
Kitchen – Prep Line, Cook Line, Server, Cooler, Dry Storage
Appendix E
Beer Cooler, Liquor Storage, Dish Wash Room, Break Room
University of PortlandSchool of EngineeringContact: E. Prevost