School of Engineering
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BioAngelos Findikakis received his first degree in Civil Engineering in 1968 from the National Technical University of Athens, Greece. After working on water resources planning and development studies in Greece he came to Stanford for graduate studies in 1973. Since 1980 he has been working for Bechtel Corporation in San Francisco. Over the years he worked on a broad range of water studies in support of the permitting, design and construction of several industrial projects including civil infrastructure, power, mining, oil and gas, and waste storage facilities. As a Bechtel Fellow since 1998 he advises senior management on questions related to his expertise, participates in strategic planning, and helps disseminate new technical ideas and findings throughout the organization.
His interests include water resources management and environmental flow and transport processes.
Kumagai Professor in the School of Engineering and Senior Fellow at the Precourt Institute for Energy
BioProfessor Fischer's research goals are to improve the productivity of project teams involved in designing, building, and operating facilities and to enhance the sustainability of the built environment. His work develops the theoretical foundations and applications for virtual design and construction (VDC). VDC methods support the design of a facility and its delivery process and help reduce the costs and maximize the value over its lifecycle. His research has been used by many small and large industrial government organizations around the world.
Assistant Professor of Civil and Environmental Engineering and Center Fellow at the Woods Institute for the Environment
Current Research and Scholarly InterestsThe Fletcher Lab aims to advance water resources management to promote resilient and equitable responses to a changing world.
Sr Research Engineer
BioDerek Fong's research in environmental and geophysical fluid dynamics focuses on understanding the fundamental transport and mixing processes in the rivers, estuaries and the coastal ocean. He employs different methods for studying such fluid processes including laboratory experiments, field experiments, and numerical modeling. His research projects include studying lateral dispersion, in stratified coastal flows, the fate and transport of freshwater in river plumes, advanced hydrodynamic measurement techniques, coherent structures in nearshore flows, bio-physical interactions in stratified lakes, fate of contaminated sediments, and secondary circulation and mixing in curved channels.
Derek teaches a variety of classes at both the undergraduate and graduate level. Some of the classes he has offered include Mechanics of Fluids; Rivers, Streams and Canals; Transport and Mixing in Surface Waters; Introduction to Physical Oceanography; Mechanics of Stratified Fluids; Dynamics of Lakes and Reservoirs; Science and Engineering Problem Solving using Matlab; the Future and Science of Water; Hydrodynamics and Geophysical Fluid Dynamics.
Prior to coming to Stanford, Derek spent five years at the Massachusetts Institute of Technology and Woods Hole Oceanographic Institution studying the dynamics of freshwater plumes for his doctoral thesis. He has also served as a senior lecturer at the University of Washington, Friday Harbor Laboratories in Friday Harbor, Washington.
Ph.D. Student in Mechanical Engineering, admitted Autumn 2013
Ph.D. Minor, Civil and Environmental Engineering
BioChris is a design professional, design educator, and design researcher in the fields of Architecture and Infrastructure design. He engages our imminently urban future through design-actionable research of the built environment from a user-centered perspective.
As a design professional, Chris has worked in the offices of Richard Meier & Partners (New York), Rick Joy Architects (Tucson) and Rob Paulus Architects (Tucson). Projects assisted or managed include residential (single and multi-family), commercial and infrastructural typologies. Chris is a licensed architect in the State of North Carolina.
As a design educator, Chris is a former lecturer in the Architecture program at the University of Arizona, and is a former Associate Professor of Architecture (with tenure) in the College of Architecture at the University of Nebraska. He regularly taught undergraduate and graduate design studios including the NAAB Comprehensive Project, elective courses in Design Methodology and Modern Craft, and advised Design Thesis. In Spring 2013, Chris coordinated the "London | 2013" Program where his funded research prompted coursework titled Hybridized Urban Infrastructures.
Chris is a PhD Candidate in the Mechanical Engineering Design Group at Stanford University. During this time, he was also the 2016-2019 Hamamoto Interdisciplinary Graduate Fellow. He is advised by the founding Director of the Center for Design Research, Professor Larry Leifer, PhD. As a research coordinator for the Urban Futures initiative, Chris applies Design Thinking to demonstrated problems in the built environment including housing, lifeline systems, and urban resilience.
Chris is a co-founding Editorial Board member for Technology | Architecture + Design (TAD Journal), a new peer-review scholarly journal published by the ACSA and printed by Taylor & Francis. He has served as Associate Editor for the issues Viral, Simulations, Open and Measured, and currently serves as Issue Editor for Urbanizing.
To guarantee exposure to the practices of multiple design disciplines, Chris maintains memberships with SPUR, ACSA, AIA, ASME, and the ASCE, where he additionally serves on the national Infrastructure Resilience Division - Emerging Technology Committee.
Associate Professor of Civil and Environmental Engineering and Senior Fellow at the Woods Institute for the Environment
Current Research and Scholarly InterestsMy students and I study sediment and water balances in aging reservoirs, hydrologic responses and landslide risk induced by precipitation patterns in the Northern Range of Trinidad, the design of centralized and decentralized wastewater collection, treatment, and reuse systems in urban areas, and hydrologic ecosystem services in urban areas and in systems for which sediment production, transport, and deposition have significant consequences.
Professor of Civil and Environmental Engineering
BioFringer's research focuses on the development and application of numerical models and high-performance computational techniques to the study of fundamental processes that influence the dynamics of the coastal ocean, rivers, lakes, and estuaries.