Seminar Topic in Structural Engineering are as under.
1. Fibre Reinforced Cements and Concretes: Recent Developments.
2. Techniques for the Seismic Rehabilitation of Existing Structures.
3. Seismic Assessment and Upgrading of Existing Structures.
4. Role of Building Codes in Seismic Assessment.
5.Seismic Retrofitting of RC Buildings Using Traditional Techniques.
6. Recent Advances in Seismic Retrofitting of RC Frames.
7. Smart Material and Smart Structures.
8. Deep Foundations Case Histories: Innovations in Design, Methods and Equipment.
* Revised, improved and consistent notations throughout code * Effect of multiple edges on anchor capacity * Design of post-installed anchors used in cracked and uncracked concrete * Unified design provisions for reinforced and prestressed concrete flexural and compression members * Shear reinforcement at slab-column connections of slabs that are not part of the lateral-force-resisting system of a building in a high seismic design category * Development length requirements in seismic force-resisting members * Application of unified crack control criteria to flexural tension reinforcement as well as skin reinforcement in deep beams * Alternate torsion design procedure for L-shaped solid beams that have a large height-to-width ratio Also covered in this seminar are the following topics: * Adjustment of allowable tension reinforcement stresses for crack control * Shear in precast, prestressed concrete hollow-core units * Drop panels for enhanced punching shear resistance, or for reduction of the amount of negative reinforcement over a column or to satisfyminimum required slab thickness * Modified strength reduction factor for flexural sections within the development length of pretensioned members * Spiral reinforcement with yield strength up to 100,000 psi * Construction joint locations in continuous post-tensioned beams and slabs * Clarification of design procedure for pile caps * Reduced maximum allowable tensile stresses in the concrete of post-tensioned slabs * Documents applicable to non-structural, soil-supported slabs
1. Shop Schedulling algorithms
2. Effective Vendor Selection
3. Having Tighter Supply Chain
4. Validity of existing optimization methods
5. Productivity and Performance measurement
6. Marketing and Forecasting Techniques
7. Product designing with Ergonomical Data
8. Financial Measurements to drive better Business Behavior
9. Facility Location techniques.
project topics in water resources engineering
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Water Resources engineering is an integral part of Civil Engineering area which relates to modeling, understanding and designing for the processes, technology and structures that are needed for our coastlines, harbors and rivers. Water resources engineers concentrate on the complex water environment and thus creating technology and structures providing end to end solutions.
Some specializations would include:Environmental EngineeringGeotechnical EngineeringHydraulic and Water Resources EngineeringStructural EngineeringTransportation Engineering
The types of Water Resources are:Ground WaterSpringsWellsSurface WatersLakesStreamsSwamps
I think civil is a broader field. There are so many areas one could eventually wind up speciallizing; surveying/GIS, structural, marine, geotechnical, water treatment/distribution, highway & route design, construction management, graphical applications/DTM, typical civil site design, hydraulics/water resources, industrial waste, solid waste. Anything that is put on the ground usually has some civil engineering.
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Ray K. Linsley has written: 'Hydrology for engineers (McGraw-Hill series in water resources and environmental engineering)' 'Water-resources engineering' -- subject(s): Hydraulic engineering, Water resources development 'Water-resources engineering [by] Ray K. Linsley [and] Joseph B. Franzini' -- subject(s): Hydraulic engineering, Water resources development 'Hydrology for Engineers (McGraw-Hill Series in Water Resources and Environmental Engi)' 'A system for generating long streamflow records for study of floods of long return period' -- subject(s): Flood forecasting, Hydrological forecasting 'Hydrology for Engineers (Water Resources & Environmental Engineering)' 'Hydrology for engineers' -- subject(s): Hydrology
Water Resources engineering is an integral part of Civil Engineering area which relates to modeling, understanding and designing for the processes, technology and structures that are needed for our coastlines, harbors and rivers. Water resources engineers concentrate on the complex water environment and thus creating technology and structures providing end to end solutions.
water resources (designing drainage systems), waste water and treatment of it, coastal engineering ( design of structures near water such as ports) etc.
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Civil Engineering is an engineering field which relates to creating civic structures and amenities. Civil Engineering has made great many contributions towards energy resources and development by creating many new technologies and structures for the benefit of the society. Structures involved are created for coastal, environmental and water resources, urban water fronts and marinas energy, hydraullic structures, watershed restorations, and more.
there is of long study to prepare a seminar on water born diseases
Lawrence F. Keller has written: 'Kansas groundwater policy seminar' -- subject(s): Groundwater, Water resources development
Victor Miguel Ponce has written: 'Engineering hydrology' -- subject(s): Hydraulic engineering, Water resources development
Nathan Buras has written: 'Water management systems' -- subject(s): Mathematical models, Operations research, Systems engineering, Water resources development 'Scientific allocation of water resources' -- subject(s): Operations research, Water resources development
Charles R. Ortloff has written: 'Water engineering in the ancient world' -- subject(s): Water-supply engineering, Wasserwirtschaft, Paleohydrology, Water resources development, Wasserbau, Landwirtschaft, History
Jorg Imberger is known for his work in environmental and water resources engineering. He has written several influential research papers and books on topics such as water management, ecological modelling, and environmental sustainability. His research has made significant contributions to the field of aquatic science and engineering.