Gurukul of Civil engineers- Online Civil Engineering Courses for Creative Minds

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Drainage Engineering and Design

Drainage engineering is the Key Discipline to provide an efficient drainage system for any Infrastructure Project. In Road Projects, Drainage Systems are known as Sub-surface Systems and are designed to remove surface water from the road which would otherwise lead to flooding if not managed satisfactorily. The course modules provide detailed drainage system design process, Outfall Design, Network Modelling, Attenuation System Design and a brief overview of Sustainable Drainage Systems. Please see the Promotional Course Videos for a quick flavour. The first module covers the key components of Drainage Engineering, Drainage Strategy, Drainage Design, Outfall Design, Attenuation System Design. The second module covers drainage design process from the collection of surface water to discharge to the outfall locations such as existing watercourses. The module also covers the flood risk assessment process and Drainage Network Design, Gully Spacing, Kerb drains, and drainage modelling. The third module covers outfall design and Surface Water Storage System. The module covers Outfall types, Attenuation Ponds, Oversize Career Pipes and Flow control devices. The fourth module covers drainage standard details such as drainage kerbs, manholes, bus stop drainage kerbs, gullies, slot drains and Hydro-brakes.

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REVIT Structure

REVIT Structure is Autodesk' software for Structure Design or Structure Engineering. Revit performs structural analysis and exports the structural analysis and design by using the analytical model. REVIT simplifies the process to create structural details from a 3D model. It enables connecting to multiple structural analysis applications. It accelerates construction Modelling and that assists to gain better construction vision from the 3D Model. The first module covers Introduction to REVIT, its advantages and its basic settings. The second module covers the Interface of REVIT and functions. It discusses workspaces like project browser tab, property tab, toolbar tabs, etc The third module covers the usage of different toolbars in REVIT such as structure, system, analyse, massing & site, etc in a detailed manner. The fourth module covers REVIT Architecture Plan development. The module shows how to develop REVIT Architecture Plan (Ground Floor), 3D model development, etc. The fifth module covers the REVIT Architecture Plan development of upper floors. It module shows how to develop REVIT Architecture Plan (first floor, rooftop), staircase, 3D model development, etc. The sixth module covers dimensioning, tagging, naming each component of the building. The module also covers the placement of the furniture in each room, electrical appliances, etc. Finally, the module shows how to develop a sheet layout of plans, elevations and isometric views. The seventh module covers structure framing, structure modelling, foundation modelling, etc. The module also covers the modelling of beams, columns and slabs. The eighth module covers footing development and detailing. The module shows how to provide concrete reinforcement and steel bars within the footings. The ninth module covers columns, beams, slabs development and detailing. The module shows how to provide concrete reinforcement and steel bars within the columns, beams and slabs.

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Basics of Bridge Engineering

Bridge Engineering is the key discipline branching out from civil engineering and it involves the planning, design, construction, operation, and maintenance of bridges to ensure safe and effective transportation of vehicles, people and goods. The course modules provide a high-level overview of Bridge engineering and cover details like Element of Bridges, Type of Bridges, Siting of Bridges, Analysis of Bridge Structure, Influence Line Diagram, Design of Deck Slab, Design of T Girder, etc. Module 1: Bridge Engineering and Design The first module starts with Siting Criteria of the bridge of details out various reasons to select a particular location as a preferred site for bridge against many other locations. It shows a flow chart to filter out the less feasible locations and drill down to the preferred site location. The module also covers details of various types of bridges and key reasons to select one type of bridge over the others. Module 2: Bridge Elements The second module details the elements of the Bridges. The Element of Bridges is an exhaustive list, so Superstructure, Expansion Joints, Bearings are covered in the second module and the remaining elements are covered next module. Module 3: Bridge Elements The third module covers the remaining elements of the Bridges. Sub-structure, Foundation and secondary elements are covered in this module. Module 4: Steps of Bridge Design The fourth module covers Hydraulics analysis of river flow is discussed to calculate the maximum discharge of river flow. Thereafter, the loading of parameters of the bridge deck and girders are discussed. The module also covers the Finite Element Analysis. The objective of Finite Element Analysis is to find a localized failure, in the bridge due to a vehicular impact and how detailed modelling can help to determine all possible failures.

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Signal Design

Traffic Signals are the control system to improve intersection operations, capacity, and junction safety. The course module provides a detailed process of Traffic Signal Design. It also covers the key aspects of signal phasing, signal timing, etc. The course will open a new window for students to consider Traffic Signal Designer role as a career opportunity. The first module explained the reason for providing traffic signals at junction. then it covers traffic signal terminologies such as storage lane, acceleration lane, splitter islands, pedestrian refuge area, signal heads and their types, signal hoods, signal poles and their types. The second module provided details of Traffic Signal Phasing, Signal Cycle Time and Right Turn Phasing. It also covers pedestrian phasing details and how to prepare and read traffic signal drawings. The third module covers the concept of signal timing with respect to Pre-determined Fix Signal Timing and Actuated Signal Timing. It also covers the relationship of Cycle Length with Queuing and provides detail process of cycle Length Calculation. It covers the detail process of amber time calculation and provides Thumb rule recommendation for cycle length. Lastly, it covers key features to improve pedestrian crossing facilities by using latest technologies.

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Dutch Style Roundabout design

Dutch Style Roundabouts are one of the most innovative roundabouts that provide priority to pedestrians and cyclists without significantly compromising vehicular traffic movement. Our Dutch Style Roundabout course modules are designed to cover all key aspects of the design process. It covers the centreline design of all four arms, crown line of Roundabout, and then gradually develops road channels, cycle tracks, footway, crossing facilities, etc. The first module starts with verification of the Topographical Survey. Here, the module explains how to verify the topo survey and make it fit to use as Xref for roundabout design. The module also explains how to change the colors of individual layers to make Xref less prominent. The second module explains the design process of Roundabout crown line, road centrelines, channel line design, entry radius design, exit radius design, splitter island design. The proposed layout set the foundation of the roundabout footprint so that footway and cycle facilities are provided safely. The third module explains the design process of cycle facility design. A circulatory uni-directional cycle track is designed. Inbound and outbound cycle tracks are designed and connected to the circulatory. The fourth module explains the process of footway design and crossing facilities. The back edge of the footways plays an important role in tie-into the existing. Segregated pedestrian and cycle crossing facilities are proposed. It is highly recommended to provide a pedestrian crossing facility suitable for blind and partially sighted pedestrians, therefore tactile are proposed at all crossing points. The fifth module explains the process of creating a General Arrangement Drawing. The module details out how to call all required Xrefs and how to use sheet layout, title frame, etc to develop General Arrangement Drawings. Finally, the module explains how to create a PDF of the General Arrangement drawing.

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Drainage Engineering and Design

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REVIT Structure

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Basics of Bridge Engineering

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Signal Design

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Dutch Style Roundabout design

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