Solutions Profile
Structural Performance Based Design Peer Review Our invaluable input at each stage of a structural design project to provide a reinforced design or route to an improved alternative
Technology Engineering Environment Development Management
Content Structural Performance-based Design Peer Review 03 Why Structural Performance Based Design Peer Review? 04 Scope of Solutions 04 Deliverables 04 Annex A : Technical Details
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Information needed 07
Codes, Standards, and References
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Annex B : Organizational Profile
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Asian Institute of Technology
AIT Solutions 11
Annex C: Selected Projects
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Annex D: Key Experts
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Structural Performance-based Design Peer Review
Structural Performance-based Design Peer Review Structural Performance Based Design Peer Review is a process whereby a design project or an aspect of it is reviewed and evaluated by a person, or team, not directly involved with the project, but appropriately qualified to provide input that will either reinforce a design solution, or provide a route to an improved alternative.
With the rise in use of performance based structural design, the peer review process has become almost universally accepted to safeguard that performance based designs meet the commitment, not only the context or letters, provided by the building codes.
Concept Design Preliminary Design
Wind tunnel test
Performance-based design
Detailed design
Value Engineering
Design Review
Construction
Performance based design review
PBD Review in the context of Performance Based Design Structural Performance Based Design Peer Review carried out by AIT Solutions, Asian Institute of Technology, Thailand utilizes state of the art in terms of methodologies, techniques, technologies, and tools. While conducting the review, reference is made to the relevant design codes, standards, and documents as appropriate.
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Structural Performance-based Design Peer Review
Why Structural Performance Based Design Peer Review?
Performance-based design review
Structural performance based design peer review for a building is to ensure that the structure meets the stated performance objectives and provide a level of public safety. AIT Solutions has evaluated structures to determine whether the overall performance and reliability of the building will satisfy public safety and cost-effectiveness under the effects of gravity, wind, and different levels of earthquakes.
The performance-based design peer review is carried out after completion of performancebased design by structural consultant (EOR). Structural consultant will submit the final architectural and structural drawings based on performance-based design.
Scope of Solutions The scope of work conducted as part of these Solutions is as follows:
Early engagement At the beginning of the project, schematic design is reviewed in close collaboration with the project architects and structural engineers. i.
Review the architectural and structural drawings provided by the client and other related documents as necessary.
ii. Study and comment on suitability of structural concepts/ systems with an objective to achieve good performance and cost effectiveness.
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Independent review
i.
Develop the performance-based evaluation criteria, including seismic design methodology, seismic performance goals, acceptance criteria, mathematical modeling and simulation.
ii. Create linear and nonlinear finite element models of the structure. iii. Carry out different types of analyses to evaluate the performance: progressively using linear-static, nonlinear static and nonlinear-dynamic analyses, as appropriate. The analyses will be conducted using site-specific response spectrum and sitespecific ground motion records, provided by the client. iv. Carry out detailed studies of the response and performance of primary structural members and systems in the structure. v. Report on the performance-based evaluation results, and comments.
Structural Performance-based Design Peer Review
Review of calculations The performance-based design peer review is carried out in line with the design phases done by project structural engineers to facilitate the design process and minimize the multiple design iterations. i.
At the beginning of project, review the basis of design, earthquake hazard determination, ground motion characterizations, seismic design methodology, seismic performance goals, acceptance criteria, wind tunnel test results and other documents as necessary.
ii. Review linear analysis models used for wind, Design Earthquake, Service Level Earthquake analyses and nonlinear analysis model used for Maximum Considered Earthquake analysis when structural consultant (EOR) completes the models.
iii. Review design calculations of structural components for wind, Design Earthquake, and Service Level Earthquake submitted by structural consultant (EOR). iv. Review design report for Maximum Considered Earthquake evaluation submitted by structural consultant (EOR). v. Review final working structural drawings. vi. Report on the peer review comments and recommendations.
Deliverables The following reports will be submitted to the client. 1. Recommendation for improvement 2. Performance letter 3. Cost performance analysis
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Structural Performance-based Design Peer Review
Annex A:
Technical Details
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Structural Performance-based Design Peer Review
Information Needed
Material Codes
The following information is requested from the client.
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Reinforced Concrete: Building Code Requirements for Structural Concrete and Commentary, ACI 318M-14, American Concrete Institute
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Structural Steel: Specification for Structural Steel Buildings, ANSI/AISC 360-10, American Institute of Steel Construction
c. Basis of design
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d. Site-specific probabilistic seismic analysis report and MCE level ground motions data files
Structural Steel: Seismic Provisions for Structural Steel Buildings, ANSI/AISC 34110, American Institute of Steel Construction
Other References
e. Geotechnical assessment report
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Seismic Evaluation and Retrofit of Existing Buildings, ASCE/SEI 41-13, American Society of Civil Engineers
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Tall Buildings Initiative: Guidelines for Performance-based Seismic Design of Tall Buildings, PEER Report No. 2010/05, Pacific Earthquake Engineering Research Center
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An Alternative Procedure for Seismic Analysis and Design of Tall Buildings Located in the Los Angeles Region, 2014 Edition, Los Angeles Tall Buildings Structural Design Council
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Experimental Evaluation and Analytical Modeling of ACI 318-05/08 Reinforced Concrete Coupling Beams Subjected to Reversed Cyclic Loading, UCLA-SGEL Report 2009/06
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Case Studies of the Seismic Performance of Tall Buildings Designed by Alternative Means, Task 12 Report for the Tall Buildings Initiative
a. Architectural drawings (AutoCAD format is preferable.) b. Structural drawings (AutoCAD format is preferable.)
f. ETABS models used in code-based design for DBE, SLE and wind (For option B) g. Nonlinear models used for MCE evaluation (For option B) h. SAFE models used for foundation design (For option B) i.
Design calculation reports for DBE, SLE, wind and MCE (For option B)
j.
Wind tunnel test report (if conducted)
k. Girder schedules in excel format (preferable)
Codes, Standards, and References Building Codes •
International Building Code, 2015 Edition (IBC 2015) with appropriate reference to ASCE/SEI 7-10 if needed.
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National Structural Code of the Philippines (NSCP), 2015 Edition
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Structural Performance-based Design Peer Review
Annex B:
Organizational Profile
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Structural Performance-based Design Peer Review
Asian Institute of Technology (AIT)
Established in Bangkok in 1959, AIT is a leading regional postgraduate institution and is actively working with public and private sector partners throughout the region and with some of the top universities in the world. The mission of AIT is to develop highly qualified and committed professionals who play leading roles in the region’s sustainable development and its integration into the global economy. AIT’s academic programs are provided of academic study and research areas, over one hundred highly qualified faculty members and researchers, and numerous Centers of Excellence that support the various functions of the institution. In addition to academic programs, AIT has completed over 800 research and consulting projects, having a total value of 2.4 Billion Baht. The schools and Centers at AIT extend consulting services in each of their own areas of knowledge and expertise. AIT extends its consulting and research services to fulfill its professional and societal responsibilities related to sustainable development, specifically towards its stakeholders and to society in general.
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Structural Performance-based Design Peer Review
AIT Solutions (AITS) AIT Solutions aims to increase the spread of AIT’s science and technology knowledge, establish higher science, engineering and technology standards, develop innovative technology solutions and collaborate with institutions for sharing knowledge, information, experience and expertise in order to achieve its vision of enhancing the application of science and technology for development. AITS intends to develop technology, engineering, environment, development, and management alternatives to bring a successful sustainable development strategy in to the rapidly developing world. AIT Solutions will provide an integrated link to meet the requirements of the client in various capacities by utilizing the resources and capabilities available within AIT, as well as its partner institutions and other linkages.
Environment
Development
Engineering
Management
Technology
AIT Partners
AIT Resources
AIT Alumni
building & conStruction technology
collaborative innovation
it & mobile comPuting
energy & environment SolutionS
reSilient StructureS
KnoWledge ProductS
Wildlife enforcement monitoring SyStem
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Structural Performance-based Design Peer Review
Innovation Lab (iLab) at AIT Solutions, AIT, serve as a student-centric creativity hub, offering a platform to students, researchers, innovators, and entrepreneurs to nature their promising ideas through collaborative approach, and develop sustainable and scalable solutions, processes, and products.
The Asian Center for Engineering Computations and Software (ACECOMS) was established in 1995 as one of the first centers of excellence at the Asian Institute of Technology (AIT). It aims to provide an impetus to the research in engineering computations, the development of quality computer software tools for engineering applications and training on their effective use.
Habitech Center is a research and development center for building components and building technology at the AIT Solutions. Habitech Center has conducted research and developed various building components that are environmentally friendly, energy-efficient and cost-effective. This cost-effective building system is named Habitech Building System. This system has been tested, demonstrated and disseminated through various housing projects in Thailand and in other countries throughout Asia and Pacific.
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Structural Performance-based Design Peer Review
Annex C:
Selected Projects
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Structural Performance-based Design Peer Review
Selected Projects: Structural Performance Based Design Peer Review Structural Peer Review of The Viridian Project, Philippines
Structural Peer Review of Ayala Triangle Gardens Project, Philippines
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Structural Performance-based Design Peer Review
Annex D:
Key Experts
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Structural Performance-based Design Peer Review
Key Experts
Dr. Naveed Anwar
Executive Director, AIT Solutions Asian Institute of Technology
Expertise Academic Qualifications • Doctor of Engineering Structural Engineering, Asian Institute of Technology, Bangkok, Thailand
• Computational Mechanics, Finite Element Methods, Nonlinear and Dynamic Analysis, • Modeling and Analysis of Bridges, Tall Buildings and Special Structures • Structural system development and evaluation • Investigation of Failures, Design review and Remedial Measure
• M.Eng. Structural Engineering Asian Institute of Technology, Bangkok, Thailand
• Performance-based Design and Evaluation
• B.Sc. Civil Engineering University of Engineering & Technology, Lahore Pakistan
• Professional training and human resource development and capacity building
• Development of Software for Engineering Applications
Current Designations
Experience
• Executive Director, AIT Solutions, Asian Institute of Technology, Bangkok, Thailand
Dr. Anwar has over twenty-five years of extensive experience in the conception, planning, analysis, design, detailing and evaluation of tall buildings, bridges and special structures, computational mechanics, and the development of software for engineering applications. Dr. Anwar is recognized for numerous honors and awards for his 30-year contribution to the field of structural engineering, computational mechanics, and the development of software for engineering applications.
• Director, Asian Center for Engineering Computations and Software (ACECOMS), School of Engineering and Technology, AIT, Thailand • Affiliate Faculty, Structural Engineering Field of Study, School of Engineering and Technology, AIT, Thailand
Prof. Pennung Warnitchai
Professor, School of Engineering and Technology Asian Institute of Technology
Expertise • Structural Dynamics
Academic Qualifications
• Earthquake Engineering (seismic hazard assessment, earthquake resistant design of structures)
• D. Eng., Structural Engineering University of Tokyo, Japan
• Wind Engineering (wind effects on structures, aero elasticity, wind tunnel model tests)
• M. Eng., Structural Engineering University of Tokyo, Japan
• Bridge Engineering
• B. Eng., Civil Engineering Chulalongkorn University, Thailand
Experience
Current Designations • Professor, Structural Engineering Field of Study, School of Engineering and Technology, Asian Institute of Technology, Bangkok, Thailand
• Control of Structural Vibration
Prof. Warnitchai has considerable experience when it comes to conducting research projects in seismic hazard and risk assessment. Some of the notable research project that Prof. Warnitchai has conducted include: Seismic Hazard and Risk Assessment of Six Cities in Bangladesh; Action Plan for Earthquake Disaster Prevention and Mitigation in Bangkok, Study on Seismic Design and Retrofit of Building in Thailand. The research and consulting assignment conducted by Prof. Warnitchai covers national (Thailand) as well as regional (South East Asia, and South Asia).
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Structural Performance-based Design Peer Review
Dr. Punchet Thammarak
Senior Instructor, School of Engineering and Technology Asian Institute of Technology
Expertise Academic Qualifications • PhD., The University of Texas at Austin, Austin, TX, May 2009 • B.Eng. (1st Class Honor, Gold Medal), Chulalongkorn University, Bangkok, Thailand, May 2004
Current Designations • Senior Instructor, School of Engineering and Technology, Asian Institute of Technology, Bangkok, Thailand
• Analysis and Design of Tall Buildings • Structural Design Review • Structural Evaluation and Remedial Measure • Earthquake Engineering • Performance-based Design and Evaluation of Buildings
Experience Dr. Punchet has intensive experience in carrying out wind and earthquake impact evaluation for given structural system. His expertise include progressively using liner-static, linear-dynamic and other relevant techniques for structural evaluation.
Engr. Thaung Htut Aung Deputy Projects Director, AIT Solutions Asian Institute of Technology
Expertise Academic Qualifications • M. Eng., Structural Engineering Asian Institute of Technology, Thailand • B.E. Civil Engineering Yangon Technological University, Yangon, Myanmar
Current Designations • Deputy Project Director, AIT Solutions, Asian Institute of Technology
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• Finite element modeling, analysis and design of tall buildings • Performance-based seismic design • Seismic evaluation and retrofit of existing buildings
Experience Engr. Aung has over 12 years of experience in analysis and design of multistory buildings and other structures, especially in performance-based seismic design of tall buildings. He has been actively engaged in structural system review, development of detailed design of many structural works in Thailand and region.
Structural Performance-based Design Peer Review
Engr. Keerati Tunthasuwatana
Deputy Director, Asian Center for Engineering Computation and Software, Asian Institute of Technology
Academic Qualifications
Expertise
• M. Eng., Structural Engineering Asian Institute of Technology, Thailand
• Structural Analysis and Design of Buildings and Bridges
• B.Eng., Civil Engineering Kasetsart University, Thailand
• Structural Evaluation and Remedial Measure
Current Designations
Experience
• Deputy Director, Asian Center for Engineering Computation and Software, Asian Institute of Technology
Engr. Keerati has over 20 years of experience in analysis and design of multistory buildings and other structures, and performance based evaluation of buildings. He has been actively working in structural design review and wind tunnel analysis of landmark structures and buildings.
• Structural Design Reviews • Structural Damage Investigation
Dr. Pramin Norachan
Structural Engineering Manager, AIT Solutions Asian Institute of Technology
Expertise Academic Qualifications • Ph.D. Civil and Environmental System Engineering (Structural Engineering), Konkuk University, Korea • M. Eng., Structural Engineering Asian Institute of Technology, Thailand • B.Eng., Civil Engineering King Mongkut’s University of Technology North Bangkok, Thailand
Current Designations • Structural Engineering Manager, AIT Solutions, Asian Institute of Technology
• Structural Analysis and Design of Tall Buildings • Structural Design Review • Performance-Based Seismic Design and Evaluation of Buildings • Progressive Collapse Evaluation of Buildings
Experience Dr. Pramin has more than 5 years of experience in seismic performance based evaluation of residential buildings other structures in Thailand and region. Specifically, he has been actively engaged in construction stage analysis of prestressed concrete bridges, time-dependent analysis of prestressed concrete structures, simulation of wave and current forces on offshore structures.
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Address: AIT Solutions, Km. 42 Paholyothin Highway, Klong Luang, Pathumthani, 12120, Thailand Tel : +(662) 524 6388 : +(662) 524 5533 Fax : +(662) 524 6655
E-mail : solutions@ait.asia Website: www.solutions.ait.asia