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The Third International Conference on Efficient Building Design

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The Third International Conference on Efficient Building Design – Materials and HVAC Equipment Technologies
Beirut, Lebanon | October 4–5, 2018

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The conference, organized by ASHRAE, the ASHRAE Lebanese Chapter, the Munib and Angela Masri Institute of Energy and Natural Resources and the Department of Mechanical Engineering at American University of Beirut, will take place October 4–5, 2018 at The American University of Beirut, Beirut, Lebanon.

The objective of the conference is to present advanced research on the topics of advanced building and bioclimatic designs for attaining occupant comfort and good environmental quality addressing systems and technologies adapted to the Arab region in both moderate and hot humid climates.

The International Conference will include several keynote presentations from experts and professionals in the field.  In addition, specialized and organized sessions, including oral and poster presentations.

Conference Themes
The topics of the conference will include but are not limited to:

  • Alternative Energy Use in Buildings
  • Enegy Efficiency and Thermal Comfort
  • Energy Conservation Strategies
  • Indoor Air Quality and Thermal Comfort
  • Modeling Simulation, and Standards
  • Heat Recovery and Applications

ASHRAE Global Training Center Courses
In conjunction with the conference, ASHRAE Global Training Center will offer two courses on October 3, 2018 for participants to learn the latest HVAC&R technology. Additional fees will apply. Credits earned from this course will be recognized by the Building Excellence Credential.

Receive a special, discounted price on each course, if you register for both the conference and the courses:

Member: $150
Nonmember: $210

Register

  • Conference Papers

    The conference papers listed below are currently undergoing a peer review process.

    • Alternative Energy Use in Buildings
    • Controlling Sunlight Entering the Indoor Space through Windows using Dual Solar Screens
    • Energy Comparison of Air Conditioning Split System Vs. Solar Absorption Systems with Optimization for a Prototype Educational Building
    • Contributing Algorithms of Energy Efficiency and Renewable Energy in the Residential, Commercial and Industrial Sectors
    • Energy Conservation for an Office Building in a Hot Climate
    • Establishment of a Sustainable Energy Action Plan: Case Study of Union of Municipalities of Shouf-Soueijany
    • Energy Efficiency, Comfort and Climate
    • Design Optimization for Maintaining Occupants and Outdoor Thermal Comfort
    • Transition Engineering the Water-Electricity Nexus Operating in Building Services and Urban Heat Islands-Concept Design: Is Air-Conditioning Really Necessary?
    • Holistic Approach to Energy Performance of Green Built Environment
    • Prediction and Control of Noise and Vibration within a Sport Facility
    • Principles of Split Mass Flow and Heat Shifting Psychrometrics Toward efficient Comfort Management
    • World Class Energy Efficient HVAC System for New ‘Twisty Tower’ in South Africa
    • Energy Conservation Strategies
    • A Four Step Approach for Energy Conservation and Retrofitting Interventions for Residential Buildings
    • Investigation of Thermal Comfort in a Space Conditioned by Liquid Desiccant Membrane Chilled Ceiling/Displacement Ventilation System
    • Interrelationship between Architectural and Mechanical Aspects of the Building Envelope Design
    • Hygrothermal Engineering Analysis of Walls and Roofs in Hot and Humid Climates
    • Benefits from Combination of Centralized Ventilation System and Decentralized Conditioning Units
    • Indoor Air Quality and Thermal Comfort
    • Mathematical Modelling of Hybrid Cooling Vest Integrated with Bio-Heat Model for Assessing Cooling Effect on Humans in Hot Conditions
    • A Simplified Model for Predicting Contaminant Spread in Rooms Conditioned with Combined Displacement and Personalized Ventilation Systems
    • Numerical Study on PCM-Desiccant Cooling Vest to Improve Cooling and Performance of Workers in Hot Humid Conditions
    • Quantifying Losses Due to Thermal Discomfort: An Agent Based Modeling Approach
    • Effect of Inter-Segmental Ventilation on the Segmental Heat Losses by Means of Electric Circuit Analogy
    • Modeling Simulation and Standards
    • A Comparative Assessment of the Performance of Cooling Systems for Large Scale High-Density Data Centers using CFD Simulations
    • A Full Three-Dimensional Simulation of an Industrial Baking Oven
    • CFD-Optimized Radiant Cooling with Dedicated Outdoor Air System (DOAS) for High Ceilinged Spaces in Hot and Dry Climates
    • Heat Recovery and Applications
    • High Solar Combi-Plus System using PCM Storage: KSA Case Study
    • Sustainable Design in Metro Stations
    • Feasibility Assessment for Retrofitting an Energy-Efficient Hospital Building through Energy Modelling and Field Investigation
    • Energy Performance and Occupant Comfort in an Office Building: Co-Simulation of an Agent-Based Behavior Model with EnergyPlus

    Final paper acceptance will be announced June 15, 2018.

  • Keynote Speakers

    Qingyan "Yan" Chen, Ph.D

    James G. Dwyer Professor of Mechanical Engineering
    Editor-in-Chief, "Building and Environment"
    School of Mechanical Engineering, Purdue University

    Inverse Design of Indoor Environment by CFD-Based Optimal Methods
    The inverse design approach is new to indoor environment research and building design community, though it has been used in other industries including automobile and airplane design. Inverse design concept uses the desired indoor environment as the design objective and inversely determines the systems required to achieve the objective. Backward methods can be used to identify contaminant sources in an enclosed environment. However, these methods cannot be used to inversely design a desired indoor environment. Forward methods, such as the computational-fluid-dynamics (CFD)-based genetic algorithm method, the CFD-based adjoint method and the CFD-based proper-orthogonal-decomposition method, show the promise in the inverse design of airflow and heat transfer in an enclosed environment.


    Dan Hamza

    Executive Director, Kigali Cooling Efficiency Program

    How to Maximize the Historical Opportunity to Improve Cooling Efficiency
    In 2016 the Kigali Amendment to the Montreal Protocol was agreed upon by 197 nations. The agreement fixed a timetable to reduce super polluting F-gases used in cooling and for the first time the door was also opened to improving cooling efficiency in tandem with the F-gas transition. How this will happen is not yet clear but efforts are already underway, in particular driven by a new philanthropically supported global initiative, the Kigali Cooling Efficiency Program (K-CEP). Working in 38 developing countries (including Lebanon), and in partnership with the UN, World Bank and other cooling experts, K-CEP’s methodology supports institutions, policies, finance and access to cooling in order to help speed and scale cooling efficiency.


    Arsen Melikov, Professor, PhD

    International Centre for Indoor Environment and Energy
    Department of Civil Engineering
    Technical University of Denmark

    Design of Indoor Environment by Creating Shared Values
    Indoor environment affects occupants’ health, comfort and performance. Energy used for heating, cooling, ventilating and air conditioning of a building is substantial. Yet, in many buildings indoor environment is mediocre. Today ambitious energy saving goals has been adopted in many countries. In order to move closer to the goals energy saving is achieved by reduction of ventilation air supplied to spaces. However, energy saving strategy is dangerous because it will negatively affect occupants’ health.
    This talk justifies the need for improving the present air distribution design in spaces, and in general the need for a paradigm shift from the design of collective environments to the design of individually controlled environments.


    William F. McQuade, P.E., LEED® AP, FASHRAE

    Executive Director, Global Energy and Sustainability Policy
    Building Efficiency
    Johnson Controls

     

  • Hotel Accommodations

    The conference will take place at the American University of Beirut, Lebanon. The conference will be held on Thursday and Friday October 4–5, 2018.

    Le Bristol Hotel is pleased to offer ASHRAE participants a discounted fee of $100 for single occupancy and $115 for double occupancy, excluding 11% VAT. The rates include breakfast and transportation to and from AUB campus.

    To take advantage of the discount:

    For more information about the hotel you may click here

    The following amenities and services are offered:

    • Welcome In-room Le Bristol VIP homemade amenities
    • Free Shuttle to and from AUB Campus
    • Complimentary bike to roam the city
    • Personalized embroidered face towel
    • Early Check in & late checkout (subject to availability)
    • Daily crafted International breakfast
    • High speed Internet Access ( Fiber Optic Connection )
    • In-room coffee, espresso & tea making facilities
    • Free access to our fitness room & our rooftop temperature controlled Pool & Jacuzzi

    Le Bristol Hotel Beirut is a 13-minute walk to AUB, below is a map for additional information

    ICEBD-map.jpg
  • Conference Language

    The official language of the conference will be English.

  • Registration Information

    Register

    Registration Fees:

    Advance registration: May 14- Sep 15

    • Non-ASHRAE member: $250
    • ASHRAE member: $200

    Onsite registration: Sep 16- Oct 5: $300

    Registration for students: Free of charge

  • ASHRAE Global Training Center

    Receive a special, discounted price on each course, if you register for both the conference and the courses:

    Member: $150
    Nonmember: $210

    Register

    Designing for IAQ: Complying with Requirements of Standard 62.1 (MENA)

    Date: October 3, 2018
    Description: This course focuses on the basic requirements of ASHRAE Standard 62.1-2016, Ventilation for Acceptable Indoor Air Quality. The newest version of the standard includes a major change to the scope of the standard by which residential occupancies are moved from ASHRAE Standard 62.1 to 62.2. This course provides an overview of the requirements of the new standard with emphasis on changes from the previous version and practical application of the standard to modern VAV systems. New requirements to the indoor air quality procedure for determining minimum ventilation rates are discussed. In the 2016 version, changes were made in determining air class for laboratory exhaust systems and the use of sensors for demand control ventilation, and these changes are discussed as well. The course presents sample calculations for code review and for physical operation.          


    Standard 90.1: HVAC/Mechanical and Appendix G (MENA)

    Date: October 3, 2018
    Description: This course focuses on the major requirements of ASHRAE Standard 90.1-2016, including incorporated addenda. The ASHRAE Standard 90.1: HVAC/Mechanical and Appendix G (MENA) course will also cover highlights of the envelope, mechanical, HVAC, and lighting requirements in Appendix G and its new compliance path and performance rating method. Baseline building conditions and climate zone information on many cities in the region will also be provided.   

  • Executive Organizing Committee
    • Ghaddar, Nesreen (Conference Chair, AUB)
    • El Bitar, Ahmad (President, Lebanese ASHRAE Chapter)
    • Chakroun, Walid (KU)
    • Moukalled, Fadl (AUB)
    • Ghali, Kamel (AUB)
    • Traboulsi, Samir (AUB, FEA, Alumni Chapter)
    • Slim, Rayane (Lebanese University)
  • Scientific Committee
    • Bahnfleth, William (Penn State University, USA)
    • Bakhache, Bassem (OEA)
    • Chakroun, Walid (KU)
    • El-Hayek, Michel (NDU)
    • El-Khoury, Khalil (LU)
    • Ghali, Kamel (AUB)
    • Hosni, Mo (KSU, USA)
    • Moukalled, Fadl (AUB)
    • Traboulsi, Samir (AUB, FEA, Alumni Chapter)
  • Organizers

    ASHRAE_logo_120H.jpg

    ASHRAE Lebanese Chapter

    American University of Beirut
    The Department of Mechanical Engineering at American University of Beirut

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