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HVAC System Design: The Drake Well Museum ASHRAE 2011 Student Design Competition
MME 4499Faculty Advisor: Walid Al-Tahan
March 11, 2011Fady El Koriny; Shahnawaz Lodhi; Zachary Swartz; Mohammed Othman
PROJECT OVERVIEWDrake Well Museum
• Site of the world’s first oil well, birthplace of the modern petroleum industry
• Located in Titusville, Pennsylvania
• Museum is undergoing renovations to improve the HVAC system and building envelope
Problem Definition
• Develop energy efficient HVAC system that meets Owner’s Requirements
• Determine heating and cooling loads
• Correctly size heating, ventilation, and air-conditioning systems
Project Constraints
• Comply with ASHRAE standards 55-2004, 62.1-2007, and 90.1- 2007
• Maintain 45% RH, 68-72˚F for collection spaces at all times
• Design must be flexible, sustainable, and achieve a minimum LEED Silver
• Temperature and humidity control must meet PHMC Category I criteria
Gallery Cooling Process Gallery Heating Process
Psychrometric DiagramsZone Load Summary
HVAC System Layout
LEGENDBLUE: Return/Exhaust ductingGREEN: AHU Fancoil fresh air ductingORANGE: BC controller Fancoil refrigerant pipingRED: Fancoil Diffuser supply ducting
Backgroun
d Resea
rch
• Literature research, Climate conditions, ASHRAE Standards, Location, and HVAC systems
Zoning
• Organized building layout according to common functions and loads
Heating
and Cooli
ng loads
• Used HAP to calculate building heating and cooling loads• determined zone latent and sensible loads and CFM requirements
System
Selection
• Generated and evaluated concepts: Hydronic, geothermal, boiler/chiller, variable refrigerant flow
• Go/No-go screening, decision matrix techniques used VRF system used
Duct Sizin
g
• Sized ducts based on HAP results and CFM data• Sketched supply, return, exhaust, and fresh air ducts in AutoCAD
Refrigera
nt pipin
g
• Sized piping from BC controller and sketched in AutoCAD
Diffuser
Selection
• Selected appropriate diffuser model and location based on zone characteristics
• Sized diffusers according to CFM requirements
Equipme
nt Sizin
g
• Sized air handling unit including heating/cooling coil, supply fan, and enthalpy wheel
• Developed psychrometric charts for heating and cooling process• Sized Fancoils based on zone loads
Design Process
http://www.buildinggreen.com/live/index.cfm/2010/12/28/Our-History-of-Petroleum-Use
Energy Efficiency
The VRF system has several key properties that substantially increases its energy efficiency.
• Heat recovery between outdoor units
• Simultaneous heating and cooling operation with heat recovery between indoor units
• COP of 5.0
VRF System Schematic
Source: Mitsubishi WR2 HeatRecovery System Overview
GalleryCollections
Storage
Orientation Theater
Main Lobby
Multi-purpose Room
Education Room
Office
Research
Kitchen
HAP Data Summary
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