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

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Tunnel Engineering

Road tunnels are alternative ways, to cross a physical obstruction such as a mountain, or river, etc. Tunnels are considered as a viable solution, to minimize environmental impact, noise pollution, air pollution compare to the elevated viaduct. It is also intact the historical spirit of the location, such as archaeological value, conservation of endangered species and natural habitat. Our Tunnel Engineering course modules are designed to cover all key aspects of Tunnel Engineering. It covers the definition of a tunnel, its shape, criteria of tunnel consideration, type of tunnels, tunnel lining, tunnel construction engineering, rock tunnelling, soft-ground tunnelling, etc. The first module starts with shapes and elements of tunnels, criteria of tunnel consideration such as ground condition, environmental impact, land use restriction, constructability, sustainable development, etc. The module then shares the types of tunnels based on the method of construction such as cut and cover tunnels, bored tunnels, soft ground tunnels, immersed tunnels, jacked box tunnels. The second module covers the horizontal and vertical design of tunnel alignment, cross-section element, geotechnical Investigation and details of cut and covers tunnel. The third module covers rock tunnelling and soft-ground tunnelling. The module explains how rock behaves, fails and rock failure mechanism. The module then explains rock tunnelling methods like drill and blast method, tunnel boring machine (TBM), and road headers method. The module also covers soft ground tunnelling methods like shield tunnelling, slurry tunnelling, sequential Excavation Method (SEM), The fourth module covers tunnel lining and tunnel construction engineering. Tunnel linings are installed for reasons like providing ground support, maintain the tunnel opening, limit the inflow of groundwater, provide a base, for the finished exposed surface of the tunnel, etc. The module covers the key points of tunnel design consideration like lining stiffness, and deformation, durability, high-density concrete, corrosion protection, lining joints, etc. The module also covers the reasons for lining stiffness, deformation and mitigation measures. Lastly, the module covers key aspects of tunnel construction engineering such as Constructability, Construction Sequencing, Mucking and Disposal and Health & Safety.

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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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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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MS Project - Basics

A Project is an undertaking, carried out individually or collectively as a team to achieve a goal. Every company or firm carry out projects activities every day either properly or casually. Every project requires detailed project planning in order to run the project more effectively and efficiently. Project planning provides organizations with a framework for scoping projects, sequencing activities, utilizing resources, and minimizing risks. This is a basic course covering key concepts of project planning using MS Project as a tool. A hands-on civil engineering project program is developed and step by step process is explained for the student to learn how to plan, analyse, and manage projects. Students will witness state-of-the-art methodologies to develop the project program. In the first module, students will learn about the following topics -Launching MS Project, start-up window, quick access toolbar, Ribbons and Menu, Options settings, etc. The second module provides a quick process to develop a civil engineering project with key design tasks. The course then explains the key parameters of a task and how one task is linked with another task. Please click to see the Preview of the Course. In the third module, students will learn task dependencies. How the function like start to start or start to finish etc works. The course also provides details of task constraint in civil engineering project environment and how to incorporate that in the project program. The fourth module provides a detailed process of sub-task development and how to link those sub-tasks within the main task. The course develops a situation where a sub-task comes with a constraint and explain the process to deal with the constraint without impacting the project duration. The project belongs to a civil engineering environment so it would be very useful for a student to correlate it with real-time project scenarios. The fifth module provides a detailed process of splitting a task. This is extremely critical for a task if it needs to be delivered in phases due to interlinking with other tasks. The course also provides a process of task formatting to make it unique against other tasks to easily identify it. The sixth module details out the meaning of free slack in the program and its advantage. The module explains the process of how to utilise free slack in a project program to effectively add any new task without affecting the overall duration of the project. The seventh module details the process of resource allocation. In this module, resources are assigned for a particular task of a civil engineering project and team members of different grades are assigned to carry out a task. The process will assist the student to understand how to assign a time frame to all team members to complete a task. The eighth module provides a detailed process of optimising resources. By doing this, key members of the team could be free up for carrying out another project. This would help the project team to efficiently utilize limited resources at any given time.

Welcome To Gurukul of Civil Engineers

One stop solution from online professional training to job interview

Welcome To Gurukul of Civil Engineers

One stop solution from online professional training to job interview

Welcome To Gurukul of Civil Engineers

One stop solution from online professional training to job interview

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Tunnel Engineering

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REVIT Structure

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Basics of Bridge Engineering

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Drainage Engineering and Design

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MS Project - Basics

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Welcome To
Gurukul of Civil Engineers

Welcome To
Gurukul of Civil Engineers

Welcome To
Gurukul of Civil Engineers