Coppin State University - PowerPoint PPT Presentation

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Coppin State University

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The New RLPS Architects Office Building Lancaster, PA Brice Ohl Mechanical Option Presented on 4/10/13 – PowerPoint PPT presentation

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Slides: 29

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Learn more at: https://www.engr.psu.edu

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Title: Coppin State University

1
The New RLPS Architects Office Building Lancaster,
PA Brice Ohl Mechanical Option Presented on
4/10/13
2
Project Team
Presentation Outline
Project Team Project Introduction Existing
mechanical systems Mechanical Depth
Study Construction Breadth Study Results Conclusio
n Recommendation Questions
Owner Architects RLPS Architects Ltd.
General Contractor Warfel Construction
Mechanical Electrical Engineers Reese Engineering Inc.
Structural Engineers Zug Associates, Ltd. Structural Engineers.
Civil Engineers Harbor Engineering
Surveyor Herbert, Rowland, Grubic, Inc.
Landscaping RLPS Architects Ltd.
3
Presentation Outline
Project Team Project Introduction Existing
mechanical systems Mechanical Depth
Study Construction Breadth Study Results Conclusio
n Recommendation Questions
4
Presentation Outline

Project Team
Project Introduction
Existing Mechanical Systems
Mechanical Spaces
Ground Level
Mezzanine Level
Well Field Layout
Summary
Mechanical Depth Study
Construction Breadth Study
Results
Conclusion
Recommendation
Questions

Ground Level
Mezzanine Level
5
Presentation Outline

Project Team
Project Introduction
Existing Mechanical Systems
Mechanical Spaces
Ground Level
Mezzanine Level
Well Field Layout
Summary
Mechanical Depth Study
Construction Breadth Study
Results
Conclusion
Recommendation
Questions

Ground Level
6
Presentation Outline

Project Team
Project Introduction
Existing Mechanical Systems
Mechanical Spaces
Ground Level
Mezzanine Level
Well Field Layout
Summary
Mechanical Depth Study
Construction Breadth Study
Results
Conclusion
Recommendation
Questions

Mezzanine Level
7
Presentation Outline
Key Mechanical Equipment

Project Team
Project Introduction
Existing Mechanical Systems
Mechanical Spaces
Ground Level
Mezzanine Level
Well Field Layout
Summary
Mechanical Depth Study
Construction Breadth Study
Results
Conclusion
Recommendation
Questions

8 Closed Loop Water Source
2 Pumps for heat Pump Loop
28 Water Source Heat Pumps
Condensate Pump for Heat Pump Loop
Expansion Tank for Heat Pump Loop
4 Ventilation Units

8
Presentation Outline
Key Mechanical Equipment

Project Team
Project Introduction
Existing Mechanical Systems
Mechanical Spaces
Ground Level
Mezzanine Level
Well Field Layout
Summary
Mechanical Depth Study
Construction Breadth Study
Results
Conclusion
Recommendation
Questions

8 Closed Loop Water Source
2 Pumps for heat Pump Loop
28 Water Source Heat Pumps
Condensate Pump for Heat Pump Loop
Expansion Tank for Heat Pump Loop
4 Ventilation Units

9
Presentation Outline

Project Team
Project Introduction
Existing Mechanical Systems
Mechanical Spaces
Ground Level
Mezzanine Level
Well Field Layout
Summary
Mechanical Depth Study
Construction Breadth Study
Results
Conclusion
Recommendation
Questions

10
Presentation Outline
Design Objectives
Single Sided Ventilation

Project Team
Project Introduction
Existing mechanical systems
Mechanical Depth Study
Design Objectives
Proposed Redesign
Method of Modeling
Construction Breadth Study
Results
Conclusion
Recommendation
Questions

Reduce Energy Consumption
Minimize the Need for Conditioned Air
Maximize Outdoor Air
Achieve Single Sided Ventilation

9.75
From Window Master Motorlink Brochure
20.3
11
Presentation Outline
Proposed Redesign

Project Team
Project Introduction
Existing mechanical systems
Mechanical Depth Study
Design Objectives
Proposed Redesign
Method of Modeling
Construction Breadth Study
Results
Conclusion
Recommendation
Questions

Hybrid Ventilation System
Automated Window System
Hybrid Ventilation System with Water Feature
Automated Window System
Subgrade Cistern
Water Feature

12
Presentation Outline
Proposed Redesign

Project Team
Project Introduction
Existing mechanical systems
Mechanical Depth Study
Design Objectives
Proposed Redesign
Method of Modeling
Construction Breadth Study
Results
Conclusion
Recommendation
Questions

Hybrid Ventilation System
Automated Window System
Hybrid Ventilation System with Water Feature
Automated Window System
Subgrade Cistern
Water Feature

13
Presentation Outline
Proposed Redesign

Project Team
Project Introduction
Existing mechanical systems
Mechanical Depth Study
Design Objectives
Proposed Redesign
Method of Modeling
Construction Breadth Study
Results
Conclusion
Recommendation
Questions

Hybrid Ventilation System
Automated Window System
Hybrid Ventilation System with Water Feature
Automated Window System
Subgrade Cistern
Water Feature

14
Presentation Outline
Proposed Redesign

Project Team
Project Introduction
Existing mechanical systems
Mechanical Depth Study
Design Objectives
Proposed Redesign
Method of Modeling
Construction Breadth Study
Results
Conclusion
Recommendation
Questions

Hybrid Ventilation System
Automated Window System
Hybrid Ventilation System with Water Feature
Automated Window System
Subgrade Cistern
Water Feature

15
Presentation Outline
Method of Modeling
Temperature

Project Team
Project Introduction
Existing mechanical systems
Mechanical Depth Study
Design Objectives
Proposed Redesign
Method of Modeling
Construction Breadth Study
Results
Conclusion
Recommendation
Questions

Weather Data Air Mixing Summer/Winter Design
Conditions
T mix (T OutdoorQ Outdoor T Heat PumpQ Heat
Pump)/ Q Total
Humidity
W Mix W Outdoor (? Heat Pump / ? Total) (W
Heat Pump W Outdoor)
Summer Design Conditions
73-79 F, 40-60 RH
Winter Design Conditions
68-74 F, 40-60 RH
16
Presentation Outline
Method of Modeling
Temperature

Project Team
Project Introduction
Existing mechanical systems
Mechanical Depth Study
Design Objectives
Proposed Redesign
Method of Modeling
Construction Breadth Study
Results
Conclusion
Recommendation
Questions

Weather Data Air Mixing Summer/Winter Design
Conditions
T mix (T OutdoorQ Outdoor T Heat PumpQ Heat
Pump)/ Q Total
Humidity
W Mix W Outdoor (? Heat Pump / ? Total) (W
Heat Pump W Outdoor)
Summer Design Conditions
73-79 F, 40-60 RH
Winter Design Conditions
68-74 F, 40-60 RH
17
Presentation Outline
Method of Modeling
Temperature

Project Team
Project Introduction
Existing mechanical systems
Mechanical Depth Study
Design Objectives
Proposed Redesign
Method of Modeling
Construction Breadth Study
Results
Conclusion
Recommendation
Questions

Project Team
Project Introduction
Existing mechanical systems
Mechanical Depth Study
Construction Breadth Study
Interior Components
Exterior Components
Results
Conclusion
Recommendation
Questions

From Window Master Motorlink Brochure
From Window Master Motorlink Brochure
19
Presentation Outline
Exterior Components

Project Team
Project Introduction
Existing mechanical systems
Mechanical Depth Study
Construction Breadth Study
Interior Components
Exterior Components
Results
Conclusion
Recommendation
Questions

From studio39.com. Landscape Architecture Blog
20
Presentation Outline
Exterior Components

Project Team
Project Introduction
Existing mechanical systems
Mechanical Depth Study
Construction Breadth Study
Interior Components
Exterior Components
Results
Conclusion
Recommendation
Questions

From studio39.com. Landscape Architecture Blog
21
Presentation Outline
Hybrid Ventilation with Standard Ventilation
Hybrid Ventilation with Water Feature Conditions

Project Team
Project Introduction
Existing mechanical systems
Mechanical Depth Study
Construction Breadth Study
Results
Hybrid Ventilation For Both conditions
Comparative Results
Construction Costs
Energy / Cost Savings
Conclusion
Recommendation
Questions

22
Presentation Outline
Number of Hours for Each Condition
Percentage of Hours Annually for Each Condition

Project Team
Project Introduction
Existing mechanical systems
Mechanical Depth Study
Construction Breadth Study
Results
Hybrid Ventilation with Standard Conditions
Comparative Results
Construction Costs
Energy / Cost Savings
Conclusion
Recommendation
Questions

23
Presentation Outline
Construction Cost

Project Team
Project Introduction
Existing mechanical systems
Mechanical Depth Study
Construction Breadth Study
Results
Hybrid Ventilation with Standard Conditions
Comparative Results
Construction Costs
Energy / Cost Savings
Conclusion
Recommendation
Questions

24
Presentation Outline
Total Mechanical Systems Cost
Total Mechanical Systems Cost

Project Team
Project Introduction
Existing mechanical systems
Mechanical Depth Study
Construction Breadth Study
Results
Hybrid Ventilation with Standard Conditions
Comparative Results
Construction Costs
Energy / Cost Savings
Conclusion
Recommendation
Questions

25
Presentation Outline
Energy and Cost Savings

Project Team
Project Introduction
Existing mechanical systems
Mechanical Depth Study
Construction Breadth Study
Results
Hybrid Ventilation with Standard Conditions
Hybrid Ventilation with Water Feature Conditions
Construction Costs
Energy / Cost Savings
Conclusion
Recommendation
Questions

26
Presentation Outline
Energy and Cost Savings
Construction Costs

Project Team
Project Introduction
Existing mechanical systems
Mechanical Depth Study
Construction Breadth Study
Results
Conclusion
Savings vs. Cost
Recommendation
Questions

27
Presentation Outline
Recommendation
Project Team Project Introduction Existing
mechanical systems Mechanical Depth
Study Construction Breadth Study Results Conclusio
n Recommendation Questions

There is a great potential for natural
ventilation
Simpler system
Integrate with existing BAS

28
Presentation Outline
Special Thanks to
Project Team Project Introduction Existing
mechanical systems Mechanical Depth
Study Construction Breadth Study Results Conclusio
n Recommendation Questions
RLPS Architects Reese Engineering Project
Engineer Bryan Smith Thesis Advisor S.
Treado PSU AE Department A,C, D, and the
Grandparents
Questions?

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