This book presents second volume of selected proceedings of the International Conference on Innovative Trends in Engineering for sustainability (ICITES 2025) and provides a comprehensive exploration of smart and sustainable construction technologies, focusing on advancements that enhance efficiency, resilience, and environmental responsibility in the built environment.It covers Smart Construction Technologies, including AI, IoT, BIM, and 3D printing, which are transforming construction processes. Sustainable and Resilient Infrastructure highlights eco-friendly materials, climate-adaptive designs, and energy-efficient buildings. Sustainable Urban Mobility discusses smart transport systems, traffic management, and urban planning for future-ready cities.Structural Innovations focus on new materials, advanced construction methods, and structural health monitoring. Resilient and Smart Water Infrastructure examines smart water management, wastewater reuse, and coastal engineering solutions. Innovations in Construction Management address modern site safety measures, workforce development, and project implementation strategies.Additionally, Smart and Sustainable Geotechnical Engineering explores soil improvement techniques, geotechnical risk assessment, and climate adaptation solutions. Urban Waste Management discusses waste-to-energy systems, pollution control, and circular economy strategies for sustainable urban living.This book serves as a valuable resource for engineers, architects, urban planners, and researchers, offering insights into cutting-edge solutions for a smarter, greener, and more resilient built environment.
Rainfall Prediction in Kerala using Python.- Microbial Fuel Cell Plant
for Restaurant Waste Water Treatment at Perumbavoor.- Development of a
Sustainable Domestic Sewage Treatment Unit using Canna Indica.- Metro Station
Typology using Node-Place Model A Review.- Comparative Study of UHPC and
PCC Rigid Pavement using Finite Element Analysis.- Investigation of the Load
Settlement Behaviour of Shallow Foundation on Latex-Coated Coir Needle Felt
Reinforced Soil Bed.- Effect of Enzyme Induced Calcite Precipitation in
Fine-grained soil.- Slope Stability Analysis of Soil Treated with Guar Gum
Biopolymer.- Turbidity Reduction Efficiency of Neem Leaf, Banana Peel, and
Guava Leaf for Greywater Treatment.- Performance of Bacteria in Concrete for
Sustainable Construction: State of Art.- Structural Design and Reinforcement
Detailing of Cast in Situ Building using ETABS and Tekla Structures.-
Sustainable Paving Tile: A solid waste management strategy.- Finite Element
based Non-linear bending Analysis of Sandwich Plate with non-uniform
symmetric porous core subjected to non-uniform transverse loading.-
Comparative Numerical Analysis of Wrap - Geosynthetic Reinforced Soil (GRS)
and Geosynthetic Mechanically Stabilized Earth (GMSE) Walls under Seismic
Loading.- Effect of Ultrafine Flyash in Fresh Properties of Self Compacting
Concrete.- Retrofitting of RC Beams with Near Surface Mounted Basalt Fibre
Reinforced Rods.- An efficient hybrid control approach for solar water
pumping system.- Framework for Sustainable Water Management: A Bibliometric
and TOE Analysis Approach.- Comprehensive Analysis of Bituminous Pavement
Mixes: Evaluating the Role of Nano-Modifiers and Fibre Reinforcements in
Improving Rutting and Fatigue Resistance.- Prediction of Unconfined
Compressive Strength of Stabilized Soil Using Machine Learning.- Study and
Analysis on Reinforced Earth Walls and RCC Retaining Walls using Plaxis.-
Reduction of Traffic Congestion by the Construction of a Skywalk at Adoor.-
Mechanical Properties of Jute Fiber Reinforced Concrete.- Enhancing Strength
and Durability of Concrete Using Bacterial Impregnation and Mineral
Admixtures.- Influence of Carbon Nano Tube in GGBS based Geopolymer Mortar.-
Assessment of Methane Emissions from the Lucknow Municipal Solid Waste
Disposal Site Using the LandGEM.- Evaluating the Impact of Fly Ash, GGBFS,
Silica Fume, and Metakaolin on Autogenous Shrinkage and Mechanical Properties
of Concrete.- An Experimental study on the Mechanical behaviour of Human Hair
Fiber Reinforced Dredged soil.- Mechanical Properties of Silica Fume Coated
Coir Fiber Reinforced Concrete.- A Non-Linear Study of The Impact of Internal
Braced Core Configurations in Diagrid Buildings.- AI-Driven Traffic Signal
Optimization for Emergency Vehicles.- Study on Utilization of Waste Plastic
in Asphalt Pavement.- Development of Ecofriendly Marine Clay Blocks using
Chitosan Biopolymer and alccofine.
Kamal Laksiri is a highly accomplished Civil Engineer with over three decades of experience in hydropower projects and infrastructure development. He holds PhD from Saga University, Japan (2007), MSc from NTNU, Norway (1997), and BSc (Eng) Hons from the University of Moratuwa, Sri Lanka (1990). He began his career as a Junior Engineer in the private sector (19881991) before joining the Ceylon Electricity Board (CEB) in 1991, where he has held key positions, including: Reservoir Engineer, Samanalawewa Hydroelectric Project (19921997),Chief Engineer, Kukule Ganga Hydropower Project (19992004),Project Director, Broadlands Hydropower Project (20082022) and Project Director, Moragolla Hydropower Project (2023Present).His professional affiliations are notable; Dr.Kamal Laksiri is a Fellow of IESL, ASCE (USA), ICE (UK), and IET (UK) and holds the International Professional Engineer (Int P.Eng) certification.
Brajesh Kr. Dubey is a Professor in Environmental Engineering and Management at the Indian Institute of Technology Kharagpur (IIT-KGP), where he also serves as Chair of the School of Water Resources and leads the Circular Engineering Research (CERG) Laboratory in the Department of Civil Engineering. He holds a Ph.D. in Environmental Engineering Sciences from the University of Florida, USA, and a B.Tech (Hons) in Civil Engineering from IIT-Kharagpur. Before returning to India, Dr. Dubey held academic positions at the University of Auckland (New Zealand), East Tennessee State University (USA), and the University of Guelph (Canada). With nearly two decades of post-PhD experience, Dr. Dubey specializes in sustainable and resilient systems, circular economy approaches, life cycle assessment (LCA), decarbonizationof urban infrastructure, and resource recovery from waste. His work is globally recognized and has been funded by prestigious institutions such as the United Nations Industrial Development Organization (UNIDO), National Geographic Society, OECD, and the Indian Department of Science and Technology (DST).
Smitha Gopinath is a Senior Principal Scientist at the Advanced Protective Structures and Mechanics Laboratory (APSML), CSIR-Structural Engineering Research Centre (CSIR- SERC), Chennai, India. She holds Ph.D. in Civil Engineering from IIT Madras and specializes in textile reinforced concrete, computational modeling of concrete composites, repair and retrofitting of structures, finite element analysis, and alternative reinforcements in concrete.Dr. Smitha Gopinath has received several prestigious awards, including the L&T Dr. A. Ramakrishna Young Engineer Award (2012) and the ICI-Young Scientist Award (2016). Her pioneering work in Textile Reinforced Concrete (TRC) Prototyping Technology has been recognized among the Top 100 Indian Innovations (2022) by the Indian Innovators Association.
Preetha Prabhakaran is the Assistant Professor of Civil Engineering Department in , Toc H Institute of Science & Technology, Cochin Kerala, with over 20 years of teaching experience. She holds a Ph.D. in Civil Engineering from Cochin University of Science and Technology (CUSAT), focusing on the structural behaviour of reinforced concrete beams strengthened with CFRP. She also earned an M.Tech in Computer-Aided Structural Engineering from Mar Athanasius College of Engineering and a B.Tech in Civil Engineeringfrom CUSAT. Her areas of expertise include structural analysis, design of reinforced and steel structures, advanced concrete technology, and environmental pollution control modeling.
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