imclone system design final report

Department of Mechanical and Materials Engineering Florida International University, Miami, FL

EML 4551

A SENIOR DESIGN PROJECT PREPARED IN PARTIAL FULFILLMENT OF

THE REQUIREMENT FOR THE DEGREE OF

BACHELOR OF SCIENCE IN

MECHANICAL ENGINEERING

HVAC System Design

Submitted By:

John Montoya Ludwin Molina

Georgette Martinez Frantz G. Pean

April 12, 2007

FACULTY ADVISOR

Dr. Yong Tao

This report is written in partial fulfillment of the requirements in EML 4551. The

contents represent the opinion of the authors and not the Department of Mechanical and Materials Engineering

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Table of Contents

Front Matter..............................................................................................................5

Background ...............................................................................................................6

Problem Statement....................................................................................................7

Literature Review .....................................................................................................9

Proposed Design Summary Project 2....................................................................12

Drawing Tree Project 2 ..........................................................................................13

Project Planning......................................................................................................14

Project Timeline and Task Breakdown.14

Engineering Analysis Summary ............................................................................15

Appendix A..............................................................................................................30

Appendix B ..............................................................................................................32

Appendix C..............................................................................................................39

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List of Tables Table 1:Zone Distribution.........15

Table 2:ImClone Design Parameter.....16

Table 3:ImClone Indoor Heat Gains....16

Table 4: ImClone Hours of Operation.. ...16

Table 5: Lab Floor TA...17

Table 6: Lab Ceiling TA ...17

Table 7: External Wall TOS..17

Table 8: Internal Wall Partition TA.17

Table 9: Window Detail.17

Table 10: ImClone Ventilation Criteria.......23

Table 11: ImClone Maximum Noise Criteria..24

Table 12: Diffuser Selection First Floor...24

Table 13: Diffuser Selection Mezzanine Floor..24

Table 14: Diffuser Selection Second Floor Offices, Hallways, Conference. ..25

Table 15: Diffuser Selection Second Floor Labs...26

Table 16: Diffuser Selection Third Floor Offices, Hallways, Conference27

Table 17: Diffuser Selection Third Floor Labs..28

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List of Figures Figure 1: Total Cooling Loads, Office Rooms 1st & Mezzanine18

Figure 2: Total Airflow Rate, Office Rooms 1st & Mezzanine Floors....18

Figure 3: Total Cooling Loads, Lab Rooms 2nd Floor ....19

Figure 4: Total Airflow Rate, Lab Rooms 2nd Floor....19

Figure 5: Total Cooling Loads, Office Rooms 2nd Floor..20

Figure 6: Total Airflow Rate, Office Rooms 2nd Floor.....20

Figure 7: Total Cooling Loads, Labs/Equipment Rooms 3rd Floor ...21

Figure 8: Total Airflow Rate, Labs/Equipment Rooms 3rd Floor ..21

Figure 9: Total Airflow Rate, Office Rooms 3rd Floor ....22

Figure 10: Total Airflow Rate, Office Rooms 3rd Floor ..22

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Team Statement:

Our main goal as future engineers is to ensure the safety, welfare, and health of

the public, as well as the safety of the environment.

________ ___/___ /___ John Montoya Team Leader ________ ___/___ /___ Frantz G. Pean Team Member ________ ___/___ /___ Georgette Martinez Team Member ________ ___/___ /___ Ludwin Molina Team Member Ethical Statement: We have read and acknowledge the NSPE Code of Ethics for Engineers. Our preliminary

and final proposed designs have been performed applying the code of ethics for

engineers, to ensure the safety, welfare, and health of the public.

Environmental Impact Statement: We have taken into account the impact of the preliminary and final proposed design to

the environment. Our proposal ensures that no hazardous or toxic materials are used in

our design, especially those that harm both, humans, and the environment.

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Background:

The need for well ventilated indoor areas is highly important to provide a healthy,

safe, and a productive environment for the public use. Based on this criterion we have

decided to design a HVAC system for a building to be remodeled in New York City to

continue enhancing the quality of indoor ventilation.

The HVAC system design project will allow us to apply all gained knowledge of

thermodynamics, heat transfer, as well as those skills learned in our design electives,

serving as a live practice to provide a functional economical, environmental sensitive and

sustainable design. The system is to provide for the needs of the building occupants for a

life cycle of 20 years. This project will take us through the steps of designing a complete

air conditioning system starting with organizing design parameters and geographical data,

load calculation, diffuser selection, duct design and sizing, and finally equipment

selection.

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Problem Statement

Faculty Advisor: Professor Yong X. Tao

Team Members: John Montoya

Ludwin A. Molina

Georgette Martinez

Frantz Gerald Pean

Project Leader: John Montoya

Name of Project 2: HVAC System Design

1. Goal: To provide heating, ventilation, and air conditioning for a building renovation.

2. Objectives:

Design a functional, economical, environmentally sensitive, and

sustainable design that will provide for the needs of actual and future

building occupants.

Improve indoor environment quality and minimize impact of the HVAC

system on the environment.

3. Form and functionality:

Total space 1000 ft from South to North and 160 ft from West to East

The design should be in synergy with the architectural design

The design should have sustainability with the ASHRAE green guide and

the US green Building counsel Rating System

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4. Challenge of the design: Many typical designs apply to a renovation project for a commercial

building, for the case of our project/competition, certain criteria is to be met beyond

what common designs may offer. The system should have a low 20 year life cycle

cost, a low environmental impact, as well as a creative high performance green design

that sinks with the architectural design.

5. Design Constraints:

Must meet the performance requirements such as the comfort

temperature/humidity based on ASHRAE standard 55

Energy consumption should be 20% or less than ASHRAE standard 90.1

Must meet capacity requirements such as peak gain/loss

Must fit in available space

First cost should not exceed the established budget

Operating Cost and life cycle

Flexibility for future changes

6. Intended client:

ImClone

ASHRAE Student Design Competition

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Literature Review Textbooks - Incropera, Frank P., and David P. Dewitt, 2002, Introduction to Heat Transfer, 4th ed, John Wiley & Sons, Hoboken, NJ. - McQuiston, Faye C., Jerald D. Parker, and Jeffrey D. Spitler, 2005, Heating, Ventilating and Air Conditioning Analysis and Design, 6th ed, John Wiley & Sons, Hoboken, NJ. - Munson, Bruce R., Donald F. Young, and Theodore H. Okiishi, 2002, Fundamentals of Fluid Mechanics, 4th ed, John Wiley & Sons, Hoboken, NJ. - Rizzoni, Giorgio, 2004, Principles and Applications of Electrical Engineering, Rev. 4th ed, McGraw-Hill, Boston. - Shigley, Joseph E., Charles R. Mischke, and Richard G. Budynas, 2003, Mechanical Engineering Design, 7th ed, McGraw-Hill, New York. Books - Althouse, Andrew D., Carl H. Turnquist, and Alfred F. Bracciano, 2004, Modern Refrigeration and Air Conditioning, 18th ed, Goodheart-Willcox, Tinley Park, IL. - Bas, Edward, 2004, Indoor Air Quality, 2nd ed, Fairmont Press, Lilburn, GA. - Burroughs, H.E., and Shirley J. Hansen, 2004, Managing Indoor Air Quality, 3rd ed, Fairmont Press, Lilburn, GA. - Haines, Roger W., and Douglas C. Hittle, 2005, Control Systems for Heating, Ventilating, and Air Conditioning, 6th ed, Springer, New York. - Haines, Roger W., and Lewis C. Wilson, 2003, HVAC Systems Design Handbook, 4th ed, McGraw-Hill, New York. - Heinsohn, Robert J., and John M. Cimbala, 2003, Indoor Air Quality Engineering: Environmental Health and Control of Indoor Pollutants, Marcel Dekker, New York. - Levenhagen, John I., 1999, HVAC Control System Design Diagrams, McGraw-Hill, New York - Mahoney, Edward F., 2006, Electricity, Electronics, and Wiring Diagrams for HVAC/R, 2nd ed, Prentice Hall, Upper Saddle River, NJ. - Moravek, Joseph, Frank Miller, and Wilma Miller, 2004, Blueprints and Plans for HVAC, Thomson Delmar, Clifton Park, NY.

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- Pita, Edward G., 2002, Air Conditioning Principles and Systems: An Energy Approach, 4th ed, Prentice Hall, Upper Saddle River, NJ. - Rosaler, Robert C., ed, 2004, The HVAC Handbook, McGraw-Hill, New York. - Smith, Russell E., 2006, Electricity for Refrigeration, Heating, and Air Conditioning, 7th ed, Thomson Delmar, Clifton Park, NY. - Tenenbaum, David, 1990, Air Conditioning and Refrigeration Toolbox Manual, Prentice Hall, New York. - Vedavarz, A., Sunil Kumar, Muhammed Iqbal Hussain, and Ali Vendavarz, 2006, HVAC: Heating Ventilation & Air Conditioning Handbook for Design & Implementation, Industrial Press, New York. - Whitman, Bill, Bill Johnson, and John Tomczyck, 2005, Refrigeration and Air Conditioning Technology, 5th ed, Thomson Delmar, Clifton Park, NY. Government/Professional Design Code and Regulation Set - Ross, Donald E., 2004, HVAC Design Guide for Tall Commercial Buildings, American Society of Heating, Refrigerating and Air-Conditioning Engineers, Atlanta, GA. - Sauer, Harry J. Jr., Ronald H. Howell, and William J. Coad, 2005, Principles of Heating, Ventilating, and Air Conditioning, American Society of Heating, Refrigerating and Air-Conditioning Engineers, Atlanta, GA. Best Five Sources

Heating, Ventilating and Air Conditioning Analysis and Design, as well as

Fundamentals of Fluid Mechanics, are the two main sources to be used in our project.

The HVAC textbook is the one used by Florida International Universitys HVAC

certificate program for all the required HVAC electives. This textbook will provide us

with fundamental HVAC equations, explanation of air conditioning equipment, basic

design layouts, and a guide on applying heat transfer and fluid mechanic concepts to

solve HVAC situations. The fluid mechanics textbook, will be used to analyze certain air

and liquid flow problems that our project will encounter. This book will be used since it

goes into great depth regarding these topics as opposed to the HVAC textbook which

briefly discusses these areas.

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Since textbooks are more theoretical than practical, we have listed several books

that specialist in the field of heating, ventilating, and air conditioning have written. Since

our project involves heat transfer, fluid mechanics, electricity, and fundamental HVAC

concepts, we have provided reference books to help us in all these areas. However,

Refrigeration and Air Conditioning Technology and HVAC: Heating Ventilation & Air

Conditioning Handbook for Design & Implementation are two recently published books

that will provide insight on modern design, implementations, and analysis of HVAC

systems.

With any design project, you have to abide by certain government and industry

standards and regulations. We have listed HVAC Design Guide for Tall Commercial

Buildings and Principles of Heating, Ventilating, and Air Conditioning as two

professional industry references. Both these books are published by the American Society

of Heating, Refrigerating and Air-Conditioning Engineers. The book on HVAC

principles will provide additional insight on concepts and analysis. However, since the

second portion of our design project involves the design layout of an air conditioning

system for a building, the book HVAC Design Guide for Tall Commercial Buildings will

be of great use.

.

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Proposed Design Summary Project 2: HVAC System Design For this project, we are provided the floor plans for the renovation of the ImClone facility

which consists of five floors. The first and second floors are relatively small since they

share the floors with UPS who are of no concern for our project. The third and fourth

floors are solely ImClones which contain numerous laboratories and office space.

Finally the fifth floor is regarded as the equipment floor where the air condition systems

supporting equipment is to be located. In the appendices are the main floor plans of the

five floors in small scale that where provided by ImClone. After the thermal loads are

calculated, and the system is designed, the ducts are to be drawn on these floor plans.

However, the final product is to be presented and printed in a large scale drawing for the

final presentation and report.

Drawing Tree Project 2: HVAC System Design

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HVAC System Design FPD

Design Project Org.

Progress Report 1 R1

Final Report R4

Final Presentation N1

Floor Plans FPD1-1

First Floor FPD1-1F1

Second Floor FPD1-1F2

Third Floor FPD1-1F3

Elevations FPD1-2

North and West Building Elevation FPD1-2E2

Building Elevation Details FPD1-2E3

South and East Building Elevation FPD1-2E1

Sections FPD1-3

Building Sections FPD1-3S1

Enlarged Building Sections

FPD1-3S2



Fourth Floor FPD1-1F4

Fifth Floor FPD1-1F5

Key Floor Plan Drawing FPD Reports R Presentation - N

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Project Timeline and Task Breakdown Project 2

Engineering Analysis Project 2: HVAC System Design Area Calculation and Zone Division In order to conduct the thermal load analysis in the software HvacLoadExplorer, the areas

of every room and space in the building that will be considered for air conditioning has to

be calculated. After analyzing the complex blueprints of the building floors, the areas of

the rooms were calculated by using the area command in AutoCad. This has proven to be

a time consuming procedure but extremely important. Without these areas, the thermal

load analysis can not be performed to due the necessary information required by the

program. After the areas were completely calculated, the building was divided into zones

to calculate the thermal load of the building by small sections which can be computed by

the 4 members of the team. Table 1 shows the description of the preliminary zone

distribution.

Table 1: Zone Distribution

Zone Space Covered 1 First Floor and Mezzanine (all rooms, hallways, and spaces) 2 Labs Second floor 3 Offices, open spaces, hallways, and equipment rooms in second floor 4 Labs Third floor 5 Offices, open spaces, hallways, and equipment rooms in third floor

Thermal Load Analysis of the Building The heat load into and out of the building based on the structure, climate and internal heat

generation must be evaluated by rooms as well as for the entire building. ASHRAE

climate tables will facilitate the collection and research of geographic and meteorological

data. The outdoor and indoor design condition and the dimensions of the walls, floors,

and roof must be determined as well. The results of the load analysis will determine the

amount of heat that must be removed from the interior of the residence in order to

determine the cooling load for the air conditioning system. Using the conduction heat

transfer equation, the rate of heat transfer through each exposed material surface can be

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calculated. All the required ASHRAE and heat transfer algorithms are employed by

HvacLoadExplorer in order to compute the cooling and heating loads. The program uses

a hierarchy design tree format by subdividing the building into zones, the zones into

rooms, and finally by adding the heat loads per room. The heat gains imputed per room

were provided by ImClone, as design specifications, in the following categories: lighting

gain, equipment gain, heat gain from occupants, infiltration, and floor, roof, and wall

elements. The following tables from 2 to 4 are the design specifications provided by

ImClone, tables from 5 to 8 describe wall, floor, and roof elements assumed by the team

by following recommendations by ImClone and common building materials.

Table 2: ImClone Design Parameters:

Design Parameter Description

Outdoor Design Conditions Summer: 89 F DB and 76 F WB Winter: 13 F DB

Indoor Design Conditions Summer: 75 F DB, 55 5% max RH Winter: 72 F DB, 25 % max RH

Laboratory Summer: 72 F 2 F DB, 55 5% RH Winter: 72 F 2 F DB, 25 5% RH

Mechanical , Electrical, Equipment Rooms

Summer: Ventilated only using outdoor, 104 F DB max no humidity control Winter: 60 F DB no humidity control

Table 3: ImClone Indoor Heat Gains:

Type Laboratories Offices Equipment Rooms Occupants 1 person/ 200 sq ft Per occupancy by chair on plans

or 1 person per 142.8 sq ft N/A

Lighting 1.5 watts/sq ft 1.5 watts/sq ft 1.5 watts/sq ft Power 5 watts/ sq ft 5 watts/ sq ft 20 watts/ sq ft Table 4: ImClone Hours of Operation:

Room Hour Labs 24 hours / 7 days a week Offices 7 a.m. 5 p.m./ 5 days a week Kitchen / Cafeteria 7 a.m. 5 p.m./ 5 days a week

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Table 5: Lab Floors TA:

Layer Name Cp(Btu/[lb.F]) K(Btu.in/[hr.ft2.F]) t(in) d( lb/ft3) Cast Concrete 7.4 0.22 12.00 7.4 144

Vinyl Tiles 0.2 0.30 4.20 0.20 50 Table 6: Lab Ceiling TA Layer Name Cp(Btu/[lb.F]) K(Btu.in/[hr.ft2.F]) t(in) d( lb/ft3)

Ceiling air Space 39 0.24 39.00 39.00 0

Insulation 3 0.20 0.30 3 6 Gypsum 0.75 0.20 5.00 0.750 100 Table 7: External Wall TOS

Layer Name Cp(Btu/[lb.F]) K(Btu.in/[hr.ft2.F]) t(in) d( lb/ft3) Facing Brick 4 0.19 6.00 4 100

Air Gap 0.5 0.00 0.91 0.5 0 Concrete 12 0.20 6.00 12 61 Insulation 2 0.20 0.30 2 6

R11 Batt Insulation 0.23 0.32 3.5 5

Gypsum Wall Board 0.5 0.30 1.08 0.5 50

Table 8: Internal Wall Partition TA

Layer Name Cp(Btu/[lb.F]) K(Btu.in/[hr.ft2.F]) t(in) d( lb/ft3) Gypsum Wall

Board 0.5 0.30 1.08 0.5 50

Insulation 4 0.17 0.30 4 2 Gypsum Wall

Board 0.5 0.30 1.08 0.5 50

Table 9: Window Detail Category Description Type SP Clear Aluminum Frame Normal SHGC 0.9 Transmittance of inside shade 0.74 LW Emissivity out 0.84 LW Emissivity in 0.84 U Factor 0.43 Btu/ (hr.ft2 .F)

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Figure 1: Total Cooling Loads, 1st and Mezzanine Floors

Figure 2: Total Air Flow, 1st and Mezzanine Floors

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Figure 3: Total Cooling Loads, Lab Rooms 2nd Floor

Figure 4: Total Airflow Rates, Lab Rooms 2nd Floor

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Figure 5: Total Cooling Loads, Office Rooms 2nd Floor

Figure 6: Total Air Flow, Office Rooms 2nd Floor

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Figure 7: Total Cooling Loads, Labs/Equipment Rooms 3rd Floor

Figure 8: Total Airflow Rate Labs/Equipment Rooms 3rd Floor

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Figure 9: Total Cooling Loads, Office Rooms 3rd Floor

Figure 10: Total Airflow Rate, Office Rooms 3rd Floor

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Ventilation Load Using ASHRAE tables, the CFM for the desired spaces can be calculated. These tables

provide a recommended CFM per person. The number of occupants at peak time is used

when calculating CFM. The sensible, latent, and total cooling loads are found by adding

room gains to ventilation and return air gains. Based on ASHRAE standards ImClone

provides the following ventilation criteria described in table 9 which will be used in the

HvacLoadExplorer as the infiltration values.

Table 10: ImClone Ventilation Criteria:

Room Required Ventilation Biology Labs 100% Outside air 8 - 10 ACH Vivarium Labs 15 25 ACH

7.5 ACH when unoccupied Offices 15 CFM per person Public Restrooms 75 CFM per toilette or urinal, or 6 ACH Air Distribution Analysis Determining what diffuser to use in the design is very important. Using HVAC

techniques to select diffusers, the noise level for each diffuser, the throw radius, and air

velocity must all be calculated to determine a suitable diffuser. The maximum noise

criteria is provided by ImClone and described in the following table. The

HvacLoadExplorer program also provides the amount of supply air needed to cool each

room to the desired temperature. It provides the flow rate for each specific hour during

day. When designing air conditioning systems, the designer always selects the worst case

scenario or the highest value. With the data from the floor plans, HvacLoadExplorer, and

noise criteria, the diffusers where selected for every room in every zone an organized in

tables 12 through 17.

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Table 11: ImClone Maximum Noise Criteria:

Room Noise Criteria (NC) Offices and Conference Rooms NC 35 Lobby and Corridors NC 40 - 45 Laboratories NC 45 Laboratories with fume hoods NC 50 Table 12: Diffuser Selection First Floor:

Room Number Area Max CFM NC Type # of

Diffusers Diffuser

Size Diffuser

CFM Chemical Storage 1012 166.36 99.9 45 Circular 1 6" 100 Logistic 1010 114.42 889.5 35 Circular 1 14" 955 Office 1009 113.17 589.5 35 Circular 1 12" 630 Animal Waste 1007 101.77 159.5 45 Circular 1 6" 160 Acid Neutralization 1006 103.57 162.1 45 Circular 1 6" 180 Tele/Data 1005 97.25 515 35 Circular 1 12' 550 Electrical Room 1004 27.00 143 35 Circular 1 6" 160 Security Room 1003 29.93 48 35 Circular 1 6" 80 Loading/receiving 1011 535.23 598.2 40-45 Circular 1 12" 630 Hallway 1008 292.80 594 40-45 Circular 2 10" 270 Cafeteria 1016 1297.93 1997.6 40-45 Circular 4 12" 550 Food Prep 1017 203.49 321.2 40-45 Circular 1 10" 330 Lobby 1st Floor 320.37 127.3 40-45 Circular 1 10" 220

Table 13: Diffuser Selection Mezzanine Floor:


Diffusers Diffuser

Size Diffuser

CFM Mail Room 2007 547.61 1844.1 35 Circular 4 12" 470

Office 2005 184.83 587.3 35 Circular 1 12" 630 Office 2004 140.54 616.4 35 Circular 1 12" 630 Office 2003 130.97 508 35 Circular 1 12" 508

Equipment 2006 193.77 1026.1 40-45 Circular 2 12" 550 Hall way 2102/2101 397.92 147 40-45 Sidewall 1 12" x 4" 155

Lobby 2nd Floor 283.21 113 40-45 Circular 1 6" 120 Hall way 2103/2104 143.62 57.1 40-45 Circular 1 6" 80

Bathroom 2104 162.54 60 35 Circular 2 6" 80 Shell Space 2008 1251.54 1341.2 40-45 Circular 3 12" 470 Open Space to 1st 116.44 878.3 40-45 Circular 1 12" 940

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Table 14: Diffuser Selection Second Floor Offices, Hallways, and Conference Rooms

Room Number Area Max CFM NC Type

# of Diffusers

Diffuser Size

Diffuser C FM

Office-3010C 98.87 394.1 35 Circular 1 12" 390 Office-3010B 103.69 209.4 35 Circular 1 10" 220 Office-3010A 199.13 1057.4 35 Circular 2 12" 550 Office-3009 126.74 524.5 35 Circular 1 12" 550 Office-3008 113.14 468.2 35 Circular 1 12" 470 Office-3007 103.99 398.4 35 Circular 1 12" 390 Office-3006 118.52 537.7 35 Circular 1 12" 550 Office-3109 167.31 621.3 35 Circular 1 12" 630 Office-3108 122.7 466.7 35 Circular 1 12" 470 Office-3107 116.75 416.7 35 Circular 1 10" 435 Office-3106 118.32 418.9 35 Circular 1 10" 435 Office-3105 178.55 427.7 35 Circular 1 10" 435 Open Office-3011 453.48 1985.2 35 Circular 3 12" 705 Vestibule-3201 134.99 49.8 35 Circular 1 6" 80 Hallway-3200 1059.46 285.4 40-45 Sidewall 3 8" x 4" 110 Hallway Lobby 279.66 103.3 40-45 Circular 1 6" 120 Lobby-3001 823.82 1712.4 40-45 Circular 3 12" 630 Electric Room-3002 151.25 800.9 45 Circular 1 14" 850 Conference-3112 114.68 205.2 35 Circular 1 8" 210 Tele/Data-3113 106.71 565.1 45 Circular 1 12" 550 Open Office-3209 639.26 1016.2 35 Circular 2 12" 550 Open Office-3208 253.9 1052.7 35 Circular 2 12" 550 Open Office 3207 398.32 1570.8 35 Circular 3 12" 550 Hallway-3206 1543.49 101.6 40-45 Circular 1 6" 100 Conference-3104B 328.99 736.3 35 Circular 1 12" 785 Conference-3104A 179.46 372.4 35 Circular 1 12" 390 Open Offices 3129-3138 3874 6422 35 Circular 9 12" 785 Open Offices 3127-3128 535.2 1005.3 35 Circular 2 12" 550 Open Offices 3117-3126 3883.26 6435.6 35 Circular 9 12" 3785 Equipment Room-3103A 133.95 709.3 45 Circular 1 12" 705 Hallway-3205 369.26 492.3 40-45 Circular 4 6" 140 Equipment Space-3075 48.47 256.7 45 Circular 1 10" 270 Shared Eq. Space-3077B 98.01 519 45 Circular 1 12" 550 Equipment Space-3069 189.84 1005.2 45 Circular 1 14" 1060 Equipment Space-3063 186.26 986.3 45 Circular 1 14" 1060 Equipment Room-3059 177.71 931.9 45 Circular 1 12" 940 Hallway-3204,3203,3202 509.44 146.8 40-45 Circular 2 8" x 4" 110 Tele/Data-3055B 113.54 592.8 45 Circular 1 12" 630 Elec.-3055A 77.35 409.6 45 Circular 1 12" 470 Equipment Room-3052B 106.73 565.2 45 Circular 1 12" 550 Equipment Space-3050 192.18 1017.6 45 Circular 1 12" 1100 Equipment Space-3040 193.58 1025.1 45 Circular 1 12" 1100 Equipment Space-3038 187.28 991.7 45 Circular 1 12" 1100 Equipment Room-3036B 102.1 540.6 45 Circular 1 12" 550 Shared Equipment-3026 299.04 1583.5 45 Circular 1 16" 1680

Equipment,Warm -3014,3016B 298.58 1581.1 45 Circular 1 16" 1680 Conference Room-3116A 357.68 707.3 35 Circular 1 12" 705 Conference Room-3114B 240.66 462.9 35 Circular 1 12" 470

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Table 15: Diffuser Selection Second Floor Labs


Diffusers Diffuser

Size Diffuser

CFM Tissue Culture-3103B 149.72 253.1 45 Circular 1 10" 270 Vector Eng. Lab-3102 841.98 1074.3 45 Circular 4 10" 270 Cold Room-3099A 220.43 372.5 45 Circular 1 10" 380 Dark Room-3099B 89.11 150.7 45 Circular 1 6" 150 Media Prep-3097 225.9 381.8 45 Circular 1 10" 380 Cell Development-3092 377.33 881.8 45 Circular 2 12" 470 Scale Up Lab-3093 444.31 750.9 45 Circular 3 10" 270 Lg. Scale Purification-3088 383.82 880.5 45 Circular 2 12" 470 Sm. Scale Purification-3085 901.51 1523.5 45 Circular 3 12" 550 Lab-3084-3074 2555.1 9590.8 45 Circular 9 12" 1100 Cold Room-3077A 200.64 339 45 Circular 1 12" 390 Tissue Culture-3073 200.17 338.3 45 Circular 1 10" 380 Tissue Culture-3071 197.44 316.1 45 Circular 1 10" 330 Tissue Culture-3067 191.94 324.4 45 Circular 1 10" 330 Tissue Culture-3065 190.76 322.4 45 Circular 1 10" 330 Cold Lab-3061 190.5 322 45 Circular 1 10" 330 Glasswash Media-3058 493.7 838.1 45 Circular 2 10" 435 SB X Ray-3054 187.34 321 45 Circular 1 10" 330 Cold Room-3052A 86.52 146.2 45 Circular 1 6" 160 SB Cry Man Storg-3048 193.58 327.2 45 Circular 1 10" 330 Insect Cell Lab-3046 389.88 658.9 45 Circular 2 10" 330 Tissue Culture-3042 193.22 326.6 45 Circular 1 10" 330 Micro Scopy-3036A 82.66 139.7 45 Circular 1 6" 140 Flow Cyto-3034 193.22 326.6 45 Circular 1 10" 330 Tissue Culture-3032 193.59 327.2 45 Circular 1 10" 330 Tissue Culture-3030 192.34 325.1 45 Circular 1 10" 330 Dark Room-3028 81.55 137.8 45 Circular 1 6" 140 Mammal Tiss. Cult.-3024 193.58 327.2 45 Circular 1 10" 330 Robotics-3022 387.6 655.1 45 Circular 2 10" 330 Mammal Tiss. Cult.-3018 193.22 326.6 45 Circular 1 10" 330 Biocore Lab-3016A 87.04 147.1 45 Circular 1 6" 160 Equipment, Warm -3014,3016B 298.58 485.7 45 Circular 2 8" 245 Bact. Tiss.Cult-3012 194.85 329.3 45 Circular 1 10" 330 Bact. Tiss.Cult-3013,3025 1832.36 7797.6 45 Circular 7 12" 1100 Biology-3033,3043,3049 2248.46 9181.1 45 Circular 9 12" 1100

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Table 16: Diffuser Selection Third Floor Offices, Hallways, and Conference Rooms


Diffusers Diffuser

Size Diffuser

C FMOpen Office-4011,4012 10 71.62 3 987.50 35 Circular 6 12" 705 Office-4010 118.82 5 14.30 35 Circular 1 10" 545 Office-4009 105.56 401.60 35 Circular 1 10" 435 Office-4008 105.23 401.30 35 Circular 1 10" 435 Office-4007 117.6 513.30 35 Circular 1 10" 545 Office-4108 122.27 519.00 35 Circular 1 10" 545 Office-4107 107.88 404.80 35 Circular 1 10" 435 Office-4106 108.02 405.10 35 Circular 1 10" 435 Office-4105 128.32 527.70 35 Circular 1 10" 545 Office-4104 179.96 340.10 35 Circular 1 8" 350 Open Office 4212 870 351.30 35 Sidewall 2 12" x 4" 180 Hallway-4212 118.52 344.00 40-45 Sidewall 2 12" x 4" 180 Conference Room-4110 169.4 393.30 35 Circular 2 8" 210 Tele/Data-4109 99.68 527.80 40-45 Circular 1 12" 550 Lobby-4001 943.5 1853.70 40-45 Circular 6 8" 315 Electrical-4002 131.51 696.40 40-45 Circular 1 12" 705 Vestibule-4201 138.77 51.20 40-45 Circular 1 6" 80 Bathroom-4004,4005 468.77 280.30 40-45 Circular 2 6" 160 Hallway-4200 577.19 213.20 40-45 Sidewall 3 12" x 4" 155 Hallway-4211 309.95 114.50 40-45 Sidewall 1 10" x 4" 130 Break Room-4097 116.9 244.20 35.00 Circular 1 8" 245 Hallway-4210 281.21 103.90 40-45 Sidewall 2 8" x 4" 70 Locker Room-4089A,4089B,4090B,4090A 375.6 210.20 40-45 Circular 2 6" 160

Hallway-4209 783.69 289.50 40-45 Sidewall 2 12" x 4" 155 Hallway-4208 818.01 302.20 40-45 Sidewall 2 12" x 4" 155 Vivarium Office-4095 83.84 159.60 35 Circular 1 6" 160 Open Office-4132-4128 1726.93 2766.50 35 Circular 6 12" 470 Open Office-4127-4123 1789.74 3306.00 35 Circular 7 12" 470 Hallway-4207 229.02 90.90 40-45 Sidewall 1 10" x 4" 90 Work Area-4063 113.34 181.80 35 Circular 1 6" 180 Hallway-4206,4205,4204 585.17 216.20 40-45 Sidewall 3 8" x 4" 70 Bathroom-4056A,4056B 411.56 271.00 40-45 Circular 2 6" 160 Tele/Data-4055B 114.17 596.10 40-45 Circular 1 12" 630 Electrical-4055A 77.87 412.30 40-45 Circular 1 8" 420 Hallway-4203 535.77 197.90 40-45 Sidewall 4 8" x 4" 70 Hallway-4202 551.2 203.60 40-45 Sidewall 4 8" x 4" 70 Open Office-4113-4117 1959.37 3199.40 35 Circular 7 12" 470 Open Office-4118-4122 1906.74 3353.90 35 Circular 6 12" 550 Open Office-4025B 541.67 1482.20 35 Circular 2 14" 745 Kitchenette-4110A 1392.73 3944.50 40-45 Circular 4 16" 980 Library-4110B,4122 733.2 413.80 35.00 Circular 2 8" 210 Conference Room-4112 378.27 737.70 35 Circular 2 10" 380

Equipment Space-4040 172.62 929.40 40-45 Circular 1 12" 940 Equipment Space-4038 168.34 906.40 40-45 Circular 1 12" 940 Euipment Space-4028 170.93 905.10 40-45 Circular 1 12" 940 Euipment Space-4026 172.14 926.9 40-45 Circular 1 12" 940 Euipment Space-4024 174.09 937.4 40-45 Circular 1 12" 940 Hist. equipment-4052 172.11 926.7 40-45 Circular 1 12" 940

27

Table 17: Diffuser Selection Third Floor Labs


Diffusers Diffuser

Size Diffuser

CFM Clean Cage Holding-4102 1887.14 5633.6 45 Circular 6 14" 955 AWS-4100 40.38 68.2 45 Circular 1 6" 80 Feed Holding-4099A 125.63 212.4 45 Circular 1 10" 220 Air Lock, Animal 4098,4099B 178.52 301.7 45 Circular 1 10" 330 AHR-4094 315.6 1086.1 45 Circular 1 12" 1100 Procedure Room-4092 200.14 752.2 45 Circular 1 12" 785 AHR-4088 300.52 511.7 45 Circular 1 12" 550 Procedure Room-4086 192.3 738.1 45 Circular 1 12" 785 Procedure Room-4084 189.5 735 45 Circular 1 12" 785 Necropsy-4087 303.64 513.2 45 Circular 1 12" 550 Transgenic Lab-4083 304.17 514.1 45 Circular 1 12" 550 Surgery-4077 198.35 240.8 45 Circular 1 10" 270 Procedure Room-4075 166.2 280.9 45 Circular 1 12" 315 Imaging Optical-4073 163.05 275.7 45 Circular 1 12" 315 Imaging X Ray-4069 194.08 328 45 Circular 1 10" 330 Irradiator Room-4067 167.27 282.8 45 Circular 1 12" 315 AHR-4082 274.45 1154.5 45 Circular 1 14" 1270 AHR-4080 186.3 594.5 45 Circular 1 12" 630 Procedure Room-4078 181.57 856.3 45 Circular 1 12" 940 AHR-4076 177.73 716.1 45 Circular 1 12" 785 Procedure Room-4074 179.08 718.3 45 Circular 1 12" 785 AHR-4072 172.45 692.9 45 Circular 1 12" 705 Procedure Room-4068 169.81 837.6 45 Circular 1 14" 850 AHR-4066 227.11 804 45 Circular 1 14" 850 Isotope Lab-4064 153.06 673.3 45 Circular 1 12" 705 Isotope Lab-4062 148.37 654.5 45 Circular 1 12" 705 Isotope Lab-4060 148.99 408.2 45 Circular 1 8" 420 Isotope Lab-4061 152.45 257.6 45 Circular 1 10" 270 Isotope Lab-4059 160.66 274.3 45 Circular 1 8" 280 Cold Room-4057 139.71 241.3 45 Circular 1 8" 245 Shared Darkroom-4058 132.02 226.1 45 Circular 1 8" 245 Tissue Culture-4054 172.86 292.1 45 Circular 1 12" 315 Lab-4053 1012.65 3282.7 45 Circular 5 12" 705 Archme Room-4047 179.02 762.6 45 Circular 1 12" 785 Lab-4043,4035 1258.92 5347.6 45 Circular 7 12" 785 Hist. equipment-4052 172.11 926.7 45 Circular 1 12" 940 Confocal Microscope-4050B 85.17 144 45 Circular 1 6" 160 Microscope Room-4050A 86.06 145.4 45 Circular 1 6" 160 Microscope Room-4048 174.11 294.3 45 Circular 1 12" 315 Histology-4046 164.5 278 45 Circular 1 12" 315 Sectioning-4044 174.09 294.2 45 Circular 1 12" 315 Tissue Culture-4042 172.14 290.9 45 Circular 1 12" 315 Equipment Space-4040 172.62 929.4 45 Circular 1 12" 940 Equipment Space-4038 168.34 906.4 45 Circular 1 12" 940

28

Tissue Culture-4036 172.11 290.9 45 Circular 1 12" 315 Tissue Culture-4034 172.13 290.9 45 Circular 1 12" 315 Tissue Culture-4032 171.22 289.4 45 Circular 1 12" 315 Tissue Culture-4030 167.21 282.7 45 Circular 1 12" 315 Equipment Space-4028 170.93 905.1 45 Circular 1 12" 940 Equipment Space-4026 172.14 926.9 45 Circular 1 12" 940 Equipment Space-4024 174.09 937.4 45 Circular 1 12" 940 General Tissue Culture-4029 356.1 1525.7 45 Circular 1 12" 785 Lab 4025 1441.06 6114.7 45 Circular 8 12" 785

Duct Sizing and Location After the type of air conditioning system is selected, the equipment and duct locations

can be determined. With the calculated cooling loads, desired supply air, and

architectural plans, the correct equipment can be selected and installed in convenient

spaces. The layout of the ducts through the building is determined and is recommend to

be arranged in a simple manner. Once the diffusers are located in the rooms and the duct

layout is designed, the HVAC software DUCT is used to determine the diameter and size

of all the ducts, elbows, tees, and wyes used in the building and will be provided in a

tabular format.

29

Appendix A: Team Member Responsibility Team Leader: John Montoya

Literature Review Engineering Analysis Summary Organizing Presentation and Progress Report Organizing Final Proposal Organizing First Progress Report 2007

o Improving Engineering Analysis Calculating areas of rooms in ImClone project Thermal Load Calculation of ImClone project Organizing Second Progress Report 2007

o Improving Engineering Analysis Duct Layout and design Equipment Selection Organizing final report

Frantz Pean

Organizing Cardboard Display Calculating areas of rooms in ImClone project Thermal Load Calculation of ImClone project Duct layout and design Organizing final Report

Ludwin Molina

Design Organization (Drawing Tree) Organizing Presentation and Progress Report Organizing Final Proposal. Organizing First Progress Report 2007 Calculating areas of rooms in ImClone project Thermal Load Calculation of ImClone project Duct layout and design Organizing final report

Georgette Martinez

Problem Statement o Project Concept o Project Statement

Project Timeline and Task Breakdown Organizing Final Proposal Organizing Cardboard Display Organizing necessary ImClone floor plans. Calculating areas of rooms in ImClone project.

30

Thermal Load Calculation of ImClone project Updating Project Timeline and Task Breakdown. Calculating load calculation Organizing First Progress Report 2007 Calculating areas of rooms in ImClone project Thermal Load Calculation of ImClone project Organizing Second Progress Report 2007

o Schedule update o Improving Engineering Analysis

Duct layout and design Equipment Selection Organizing Final Report

31

32

Appendix B: Room Properties by Floor for HvacLoad Explorer

First Floor

Room Number Area External S External

W External

E Interior

E Interior

W Chemical Storage 1012 166.36 16.54 11.74 - - - Logist 1010 114.42 9.79 - - - - Office 1009 113.17 10.29 - - - - Animal Waste 1007 101.77 - - - 11 - Acid Neutralization 1006 103.57 - - - - 11 Tele/Data 1005 97.25 - - - 9.99 - Electrical Room 1004 27 - - - - 4.58 Security Room 1003 29.93 - - - - 4.99 Loading/receiving 1011 535.23 11.75 9.19 - - - Hallway 1008 292.8 9.25 - - - - Mezzanine Open Space 460.07 18.33 - - - - Cafeteria 1016 1297.93 43.47 - - - - Food Prep 1017 203.49 - - 17.2 - -

(Mezzanine floor)

Room Number Area External S External

W Interior

W Interior

E N of

Windows Total Area of Windows

Mail Room 2007 547.61 18.92 30.21 - 6 109.98 Office 2005 184.83 13.22 - - 3 54.99 Office 2004 140.54 13.56 - - 4 73.32 Office 2003 130.97 13.54 - - 3 54.99 Equipment 2006 193.77 - - 10.78 - 0 0 Hall way 2102/2101 397.92 - - - 13.7 0 0 Lobby 283.21 7.77 - - - 0 0 Open Space 116.44 10.42 - - - 4 73.32 Hall way 2103/2104 143.62 3.75 - - - 0 0 Bathroom 2104 162.54 - - 12.9 0 0 Shell Space 2008 1251.54 40.58 - - - 10 183.3

Second Floor Labs

Room Number Area People Wall Length ft Wall

Area ft N of

Windows

Total Window Areas ft

Direction (CW from North).

TA/TOS Tissue Culture-3103B 149.72 0.7486 13.18 107.15 0.00 0.00 S/TA Vector Eng. Lab-3102 841.98 4.2099 45.92 373.33 12.00 224.93 S/TA Cold Room-3099A 220.43 1.10215 12.58 102.28 0.00 0.00 N/TA Dark Room-3099B 89.11 0.44555 8.56 69.59 0.00 0.00 N/TA Media Prep-3097 225.9 1.1295 21.13 171.79 0.00 0.00 N/TA Cell Development-3092 377.33 1.88665 23.44 190.57 6.00 112.46 E/TOS Scale Up Lab-3093 444.31 2.22155 20.61 167.56 0.00 0.00 N/TA Lg. Scale Purification-3088 383.82 1.9191 22.96 186.66 6.00 112.46 E/TOS Sm. Scale Purification-3085 901.51 4.50755 44.86 364.71 0.00 0.00 E/TA Lab-3084-3074 2555.1 12.7755 150.61 1224.46 37.00 693.53 E/TOS Cold Room-3077A 200.64 1.0032 10.66 86.67 0.00 0.00 E/TA Tissue Culture-3073 200.17 1.00085 18.68 151.87 0.00 0.00 N/TA Tissue Culture-3071 197.44 0.9872 18.68 151.87 0.00 0.00 N/TA Tissue Culture-3067 191.94 0.9597 17.92 145.69 0.00 0.00 N/TA Tissue Culture-3065 190.76 0.9538 17.8 144.71 0.00 0.00 N/TA Cold Lab-3061 190.5 0.9525 17.78 144.55 0.00 0.00 N/TA Glasswash Media-3058 493.7 2.4685 22.57 183.49 0.00 0.00 N/TOS SB X Ray-3054 187.34 0.9367 18.17 147.72 0.00 0.00 N/TOS Cold Room-3052A 86.52 0.4326 8.58 69.76 0.00 0.00 N/TA SB Cry Man Storg-3048 193.58 0.9679 18.17 147.72 0.00 0.00 N/TA Insect Cell Lab-3046 389.88 1.9494 18 146.34 0.00 0.00 N/TA Tissue Culture-3042 193.22 0.9661 18.17 147.72 0.00 0.00 N/TA Micro Scopy-3036A 82.66 0.4133 8.17 66.42 0.00 0.00 N/TA Flow Cyto-3034 193.22 0.9661 18.17 147.72 0.00 0.00 N/TA Tissue Culture-3032 193.59 0.96795 18.17 147.72 0.00 0.00 N/TA Tissue Culture-3030 192.34 0.9617 18 146.34 0.00 0.00 N/TA Dark Room-3028 81.55 0.40775 18 146.34 0.00 0.00 N/TA Mammal Tiss. Cult.-3024 193.58 0.9679 18.17 147.72 0.00 0.00 N/TA Robotics-3022 387.6 1.938 18 146.34 0.00 0.00 N/TA Mammal Tiss. Cult.-3018 193.22 0.9661 18 146.34 0.00 0.00 N/TA Biocore Lab-3016A 87.04 0.4352 8.17 66.42 0.00 0.00 N/TA

33

Room Number Area People Wall Length ft Wall

Area ft N of

Windows

Total Window Areas ft

Direction (CW from North).

TA/TOS Equipment, Warm -3014,3016B 298.58 1.4929 22.96 186.66 0.00 0.00 E/TA Bact. Tiss.Cult-3012 194.85 0.97425 18.17 147.72 0.00 0.00 N/TA Bact. Tiss.Cult-3013,3025 1832.36 9.1618 115.51 939.10 30.00 562.32 W/TOS Biology-3033,3043,3049 2248.46 11.2423 137.54 1118.20 34.00 637.30 W/TOS

34

Third Floor Labs & Equipment Rooms

Room Number Area People Exterior E Exterior

N Exterior

W Interior

S Interior

E Interior

N N of

Windows

Total Area of Window

Clean Cage Holding-4102 1887.14 9.44 66.29 - - - - - 18 329.94 AWS-4100 40.38 0.20 - - - 8.09 - - 0 0 Feed Holding-4099A 125.63 0.63 - - - 8.79 - - 0 0 Air Lock, Animal 4098,4099B 178.52 0.89 - - - - 24.11 - 0 0 AHR-4094 315.6 1.58 17.88 - - - - - 4 73.32 Procedure Room-4092 200.14 1.00 11.92 - - - - - 3 54.99 AHR-4088 300.52 1.50 8.71 - - - - - 5 91.65 Procedure Room-4086 192.3 0.96 11.29 - - - - - 3 54.99 Procedure Room-4084 189.5 0.95 11.92 - - - - - 3 54.99 Necropsy-4087 303.64 1.52 - - - 13.04 - - 0 0 Transgenic Lab-4083 304.17 1.52 - - - 14.21 - - 0 0 Surgery-4077 198.35 0.99 - - - 16.21 - - 0 0 Procedure Room-4075 166.2 0.83 - - - - - 14.21 0 0 Imaging Optical-4073 163.05 0.82 - - - 14.21 - - 0 0 Imaging X Ray-4069 194.08 0.97 - - - - - 16.04 0 0 Irradiator Room-4067 167.27 0.84 - - - 14.21 - - 0 0 AHR-4082 274.45 1.37 18.10 - - - - - 5 91.65 AHR-4080 186.3 0.93 11.92 - - - - - 2 36.66 Procedure Room-4078 181.57 0.91 11.92 - - - - - 4 73.32 AHR-4076 177.73 0.89 11.92 - - - - - 3 54.99 Procedure Room-4074 179.08 0.90 11.92 - - - - - 3 54.99 AHR-4072 172.45 0.86 11.92 - - - - - 3 54.99 Procedure Room-4068 169.81 0.85 11.92 - - - - - 4 73.32 AHR-4066 227.11 1.14 16.10 - - - - - 3 54.99 Isotope Lab-4064 153.06 0.77 10.46 - - - - - 3 54.99 Isotope Lab-4062 148.37 0.74 11.00 - - - - - 3 54.99 Isotope Lab-4060 148.99 0.74 11.21 15.34 - - - 1 18.33 Isotope Lab-4061 152.45 0.76 - - - - - 14.49 0 0 Isotope Lab-4059 160.66 0.80 - 13.1 - - - 0 0

35

Room Number Area People Exterior E Exterior

N Exterior

W Interior

S Interior

E Interior

N N of

Windows

Total Area of Window

Shared Darkroom-4058 132.02 0.66 - 12.48 - - - - 0 0 Tissue Culture-4054 172.86 0.86 - - - - - 16.17 0 0 Lab-4053 1012.65 5.06 - 39.46 46.94 - - - 10 183.3 Archme Room-4047 179.02 0.90 - - 11.39 - - - 3 54.99 Lab-4043,4035 1258.92 6.29 - - 80.24 - - - 21 384.93 Hist. equipment-4052 172.11 0.86 - - - - - 15.83 0 0 Confocal Microscope-4050B 85.17 0.43 - - - 8.08 - - 0 0 Microscope Room-4050A 86.06 0.43 - - - 7.67 - - 0 0 Microscope Room-4048 174.11 0.87 - - - 16.17 - - 0 0 Histology-4046 164.5 0.82 - - - - - 16.17 0 0 Sectioning-4044 174.09 0.87 - - - 16.17 - - 0 0 Tissue Culture-4042 172.14 0.86 - - - 16.17 - - 0 0 Equipment Space-4040 172.62 0.86 - - - 16.17 - - 0 0 Equipment Space-4038 168.34 0.84 - - - - 16.17 0 0 Tissue Culture-4036 172.11 0.86 - - - 16.17 - - 0 0 Tissue Culture-4034 172.13 0.86 - - - - 16.17 0 0 Tissue Culture-4032 171.22 0.86 - - - 16.17 - - 0 0 Tissue Culture-4030 167.21 0.84 - - - - 16.17 0 0 Equipment Space-4028 170.93 0.85 - - - 16.17 - - 0 0 Equipment Space-4026 172.14 0.86 - - - 16.17 - - 0 0 Equipment Space-4024 174.09 0.87 - - - 16.17 - - 0 0 General Tissue Culture-4029 356.1 1.78 - - 24.54 - - - 6 109.98 Lab 4025 1441.06 7.21 - - 91.40 - - - 24 439.92

36

Third Floor Office Rooms

Room Number Area People Light W/ft2Equipment

W/ft2Exterior

E Exterior

N Exterior

S Exterior

W Interior

W Interior

S Interior

E Interior

N N of

Windows Total Area of Window

Open Office-4011,4012 1071.62 14.00 1.50 4.50 - - 18.7 53.26 - - - - 12 219.96 Office-4010 118.82 3.00 1.50 4.50 - - 10.6 - - - - - 3 54.99 Office-4009 105.56 3.00 1.50 4.50 - - 9.63 - - - - - 2 36.66 Office-4008 105.23 3.00 1.50 4.50 - - 9.74 - - - - - 2 36.66 Office-4007 117.6 3.00 1.50 4.50 - - 10.9 - - - - - 3 54.99 Office-4108 122.27 3.00 1.50 4.50 - - 10.59 - - - - - 3 54.99 Office-4107 107.88 3.00 1.50 4.50 - - 9.65 - - - - - 2 36.66 Office-4106 108.02 3.00 1.50 4.50 - - 9.67 - - - - - 2 36.66 Office-4105 128.32 3.00 1.50 4.50 - - 10.74 - - - - - 3 54.99 Office-4104 179.96 3.00 1.50 4.50 10.15 - 18.86 - - - - - 0 0 Open Office 4212 870 6.00 1.50 4.50 17.38 - - - - - - - 5 91.65 Hallway-4212 118.52 - 1.50 - - - - - 30.42 - - - 0 0 Conference Room-4110 169.4 8.00 1.50 4.50 - - - - - 14.13 - - 0 0 Tele/Data-4109 99.68 - 1.50 - - - - - - 9.94 - - 0 0 Lobby-4001 943.5 - 1.50 - - - 18.35 - - - - 5 91.65 Electrical-4002 131.51 - 1.50 - - - - - - 6.03 - - 0 0 Vestibule-4201 138.77 - 1.50 - - - - - 14.63 - - - 0 0 Bathroom-4004,4005 468.77 - 1.50 - - - - - 26.75 - - - 0 0 Hallway-4200 577.19 - 1.50 - - - - - - - 32.93 - 0 0 Hallway-4211 309.95 - 1.50 - - - - - - - - 14.54 0 0 Break Room-4097 116.9 4.00 1.50 4.50 - - - - - - 12.7 - 0 0 Hallway-4210 281.21 - 1.50 - - - - - 57.2 - - - 0 0 Locker Room-4089A,4089B,4090B, 4090A

375.6 - 1.50 - - - - - - - - 14.03 0 0

Hallway-4209 783.69 - 1.50 - - - - - - - 71.88 - 0 0 Hallway-4208 818.01 - 1.50 - - - - - - - 101.65 - 0 0 Vivarium Office-4095 83.84 2.00 1.50 4.50 - - - - - - - 8.63 0 0 Open Office-4132-4128 1726.93 12.00 1.50 4.50 - - - - - 14.67 - - 0 0 Open Office-4127-4123 1789.74 37.00 1.50 4.50 - - - - - - - 17.85 0 0

37

0

0

0

0

0 0

38

Room Number Area People Light W/ft2Equipment

W/ft2Exterior

E Exterior

N Exterior

S Exterior

W Interior

W Interior

S Interior

E Interior

N N of

Windows Total Area of Window

Hallway-4207 229.02 - 1.50 - - 8.65 - - - - - - 0 0 Hallway-4206,4205,4204 585.17 - 1.50 - - - - - - - 72.08 0 Bathroom-4056A,4056B 411.56 - 1.50 - - 18.08 - - - - - - 0 Tele/Data-4055B 114.17 - 1.50 - - 11.75 - - - - - - 0 Electrical-4055A 77.87 - 1.50 - - - - - - 6.25 - - 0 0 Hallway-4203 535.77 - 1.50 - - - - - - - 113.47 - 0 0 Hallway-4202 551.2 - 1.50 - - - - - - - 116.01 - 0 0 Open Office-4113-4117 1959.37 17.00 1.50 4.50 - - - - 116.15 - - - 0 Open Office-4118-4122 1906.74 30.00 1.50 4.50 - - - - 107.83 - - - 0 Open Office-4025B 541.67 8.00 1.50 4.50 - - - - - - - 22.71 0 0 Kitchenette-4110A 1392.73 ? 1.50 - - - - - - 36.5 - - 0 0 Library-4110B,4122 733.2 9.00 1.50 4.50 - - - - - - - - 0 Conference Room-4112 378.27 10.00 1.50 4.50 - - - - 23.44 - - - 0 0

Appendix C: ImClone Floor Plans

39

43

A SENIOR DESIGN PROJECT April 12, 2007 FACULTY ADVISOR

imclone system design final report

Documents