Which are seminar topics in water resources engineering?

Answer 1

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

Answer 2

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.

Answer 3

• The Application of Energy Concepts to the Evaluation and Remediation of Liquefiable Soils
• Behavior of Soils Under High Pressure Impact
• Characterization of Rock Fractures Based on Cylindrical Samples
• Columnar Reinforcement of Soft Ground beneath Roadway Embankments
• Comparison of Computer Programs for Analysis of Reinforced Slopes
• Deformation-Based Design of Geotechnical Composite Foundation Systems Incorporating Columnar Support with or without Geosynthetic Reinforcement
• Deformations and Stability of Water-Filled Tubes
• Development and Implementation of a Rockfall Hazard Rating System
• Development of an internet/GIS-Based Landslide Inventory
• Discrete Element Modeling of Interphase Systems
• The Effects of Vibration on the Penetration Resistance and Pore Water Pressure in Sands
• Effects of within-day and within-week peaking on bank erosion of the Roanoke River downstream of the Roanoke Rapids Dam
• Enhanced Performance Specifications for Embankment Construction
• Experimental and Analytical Investigations of Piles and Abutments of Integral Bridges
• Experimental Study of Liquefaction Behavior of Sand
• GAANN: An Interdisciplinary Program in Environmental Biogeochemistry
• Geotechnical and Environmental Problems with Pyritic Shales
• Geotechnical Engineering in Piedmont Residual Soils
• IGERT: Exploring Interfaces through Graduate Education and Research
• Intelligent Compaction Primer

Answer 4

project topics in water resources engineering