Exam Details
| Subject | Advanced Steel Design | |
| Paper | ||
| Exam / Course | Diploma In Civil Engineering (DCLEVI) / Advanced Level Certificate In Civil Engineering (ACCLEVI) | |
| Department | School of Engineering & Technology (SOET) | |
| Organization | indira gandhi national open university | |
| Position | ||
| Exam Date | June, 2015 | |
| City, State | new delhi, |
Question Paper
Discuss single circuit, double circuit and multiple circuit towers.
What are the various loads acting on towers?
2. Write down the design principle of self-supporting steel chimney with an example, assuming suitable data.
Explain briefly the design steps for cross girders in plate girder bridges.
Briefly describe the design steps of tension member.
4. A self-supporting steel stack is 80 metres high and its diameter at the top is 3 metres. Design the plates for the stack. Also design the base plate and anchor bolts. The foundation and riveted joints need· not be designed. Adopt the wind force as per IS: 875. Wind pressure at 30 m height is 1·50 kN/m^2.
5. Design an elevated steel tank, circular in shape for 2,00,000 litres capacity with circular girder supported on suitable number of columns. The shape of bottom may be assumed suitably. The roof covering and staging for the tank need not be designed.
6. Design a welded plate girder of 25 m effective span and simply supported at the two ends. It carries a uniformly distributed load of 100 kN/m.
What are the various loads acting on towers?
2. Write down the design principle of self-supporting steel chimney with an example, assuming suitable data.
Explain briefly the design steps for cross girders in plate girder bridges.
Briefly describe the design steps of tension member.
4. A self-supporting steel stack is 80 metres high and its diameter at the top is 3 metres. Design the plates for the stack. Also design the base plate and anchor bolts. The foundation and riveted joints need· not be designed. Adopt the wind force as per IS: 875. Wind pressure at 30 m height is 1·50 kN/m^2.
5. Design an elevated steel tank, circular in shape for 2,00,000 litres capacity with circular girder supported on suitable number of columns. The shape of bottom may be assumed suitably. The roof covering and staging for the tank need not be designed.
6. Design a welded plate girder of 25 m effective span and simply supported at the two ends. It carries a uniformly distributed load of 100 kN/m.
Other Question Papers
Departments
- Centre for Corporate Education, Training & Consultancy (CCETC)
- Centre for Corporate Education, Training & Consultancy (CCETC)
- National Centre for Disability Studies (NCDS)
- School of Agriculture (SOA)
- School of Computer and Information Sciences (SOCIS)
- School of Continuing Education (SOCE)
- School of Education (SOE)
- School of Engineering & Technology (SOET)
- School of Extension and Development Studies (SOEDS)
- School of Foreign Languages (SOFL)
- School of Gender Development Studies(SOGDS)
- School of Health Science (SOHS)
- School of Humanities (SOH)
- School of Interdisciplinary and Trans-Disciplinary Studies (SOITDS)
- School of Journalism and New Media Studies (SOJNMS)
- School of Law (SOL)
- School of Management Studies (SOMS)
- School of Performing Arts and Visual Arts (SOPVA)
- School of Performing Arts and Visual Arts(SOPVA)
- School of Sciences (SOS)
- School of Social Sciences (SOSS)
- School of Social Work (SOSW)
- School of Tourism & Hospitality Service Sectoral SOMS (SOTHSM)
- School of Tourism &Hospitality Service Sectoral SOMS (SOTHSSM)
- School of Translation Studies and Training (SOTST)
- School of Vocational Education and Training (SOVET)
- Staff Training & Research in Distance Education (STRIDE)
Subjects
- Advanced Steel Design
- Air Quality Monitoring And Control
- Analysis And Design Of Bridges
- Construction Supervision And Building Maintenance
- Earthquake Engineering
- Earthquake Resistant Design Of Structure
- Elements Of Soil Dynamics And Machine Foundation
- Environment Impact Analysis Of Civil Engineering Projects
- Irrigation Engineering
- Prestressed Concrete
- Remote Sensing In Civil Engineering
- Solid And Hazardous Waste Management
- Structural Optimization
- Water Power Engineering