Civil Engineering is also known as the mother of all engineering. It is the oldest, broadest and useful of all engineering sciences. Civil engineering is field of engineering sciences, related to design, construction and maintenance of buildings, dams, bridges, tunnels, highways and other structures by the use of physical laws, mathematical equations and theories of mechanics. Civil Engineers utilize the available resources (expertise, materials, manpower) to complete the project in the given time span keeping in view the time, expenditure, environmental issues and physical hazards of the project. A Civil Engineer is responsible for planning, design, construction and/or maintenance of structures. Civil Engineer can work in private constructions companies, governmental public works organizations or in universities as a research fellow or a teacher. A civil Engineer can be a surveyor, a technical report writer or even a project manager.
Due to increase in the scope of civil engineering with the passage of time, it has now got diversified into many branches of study. Some of the significant ones include structural engineering, geotechnical engineering, transportation engineering, hydraulic engineering, environmental engineering and a few more important areas of study. Engineers are employed by a wide range of companies in the India, from small start up businesses focused on a new invention idea to large-scale companies that work on immense contracts. Engineers from different fields constantly work together to create successful products. A Post Graduate course in Transportation Engineering and Management has also been started from 2012. The department strives for the holistic development of the students using modern means & methods of interactive teaching-learning process.
PO1 |
Engineering knowledge: Apply the knowledge of mathematics, science, engineering fundamentals, and an engineering specialization to the solution of complex engineering problems. |
PO2 |
Problem analysis: Identify, formulate, review research literature, and analyze complex engineering problems reaching substantiated conclusions using first principles of mathematics, natural sciences, and engineering sciences. |
PO3 |
Design/development of solutions: Design solutions for complex engineering problems and design system components or processes that meet the specified needs with appropriate consideration for the public health and safety, and the cultural, societal, and environmental considerations. |
PO4 |
Conduct investigations of complex problems: Use research-based knowledge and research methods including design of experiments, analysis and interpretation of data, and synthesis of the information to provide valid conclusions. |
PO5 |
Modern tool usage: Create, select, and apply appropriate techniques, resources, and modern engineering and IT tools including prediction and modeling to complex engineering activities with an understanding of the limitations. |
PO6 |
The engineer and society: Apply reasoning informed by the contextual knowledge to assess societal, health, safety, legal and cultural issues and the consequent responsibilities relevant to the professional engineering practice. |
PO7 |
Environment and sustainability: Understand the impact of the professional engineering solutions in societal and environmental contexts, and demonstrate the knowledge of, and need for sustainable development. |
PO8 |
Ethics: Apply ethical principles and commit to professional ethics and responsibilities and norms of the engineering practice. |
PO9 |
Individual and team work: Function effectively as an individual, and as a member or leader in diverse teams, and in multidisciplinary settings. |
PO10 |
Communication: Communicate effectively on complex engineering activities with the engineering community and with society at large, such as, being able to comprehend and write effective reports and design documentation, make effective presentations, and give and receive clear instructions. |
PO11 |
Project management and finance: Demonstrate knowledge and understanding of the engineering and management principles and apply these to one’s own work, as a member and leader in a team, to manage projects and in multidisciplinary environments. |
PO12 |
Life-long learning: Recognize the need for, and have the preparation and ability to engage in independent and life-long learning in the broadest context of technological change. |
Name | Dr. M. R. Vyawahare |
---|---|
Designation | HOD |
Qualification | Ph.D. (Civil Engineering) |
Teaching Experience | 31 Years |
hodcivil@drgitr.com | |
No. of Publication | 21 |
Name | Prof. V. A. Fulari |
---|---|
Designation | Assistant Professor |
Qualification | M.Tech.(Structural Engg.),B.E. |
Teaching Experience | 10 Years |
vafulari@drgitr.com | |
No. of Publication | 01 |
Name | Prof. P. R. Wankhede |
---|---|
Designation | Assistant Professor |
Qualification | M.Tech.(Structural Engg),B.E |
Teaching Experience | 09 Years |
prwankhede@drgitr.com | |
No. of Publication | 01 |
Name | Prof. V. G. Jamodkar |
---|---|
Designation | Assistant Professor |
Qualification | M.E. (Structural Engineering), B.E. |
Teaching Experience | 09 Years |
vgjamodkar@drgitr.com | |
No. of Publication | 02 |
Name | Prof. A. R. Bijwe |
---|---|
Designation | Assistant Professor |
Qualification | M.E.(Transportation Engg & Management),B.E |
Teaching Experience | 07 Years |
arbijwe@drgitr.com | |
No. of Publication | 15 |
Name | Prof. A. A. Gadling |
---|---|
Designation | Assistant Professor |
Qualification | M.E.(Structural Engineering), B.E. |
Teaching Experience | 02 Years |
aagadling@drgitr.com | |
No. of Publication | 01 |
Name | Prof. P. G. Gandhi |
---|---|
Designation | Assistant Professor |
Qualification | M.Tech.(Env.),B.Tech. |
Teaching Experience | 02 Years |
pggandhi@drgitr.com | |
No. of Publication | 02 |
Name | Prof. P. R. Patil |
---|---|
Designation | Assistant Professor |
Qualification | M.Tech.(Env.),B.E. |
Teaching Experience | 02 Years |
prpatil@drgitr.com | |
No. of Publication | 02 |
Name | Prof. V. P. Ingole |
---|---|
Designation | Assistant Professor |
Qualification | Ph.D. (Persuing),M.E.(CONSTRUCTION ENGINEERING), B.E. |
Teaching Experience | 01 Years |
vpingole@drgitr.com | |
No. of Publication | 01 |
Name | Prof. A. I. Malviya |
---|---|
Designation | Assistant Professor |
Qualification | M.Tech(ENVIRONMENTAL ENGINEERING), B.E. |
Teaching Experience | 04 Years |
aimalviya@drgitr.com | |
No. of Publication | 02 |
Name | Prof. P. P. Wankhade |
---|---|
Designation | Assistant Professor |
Qualification | M.Tech(GEOTECHNICAL ENGINEERING), B.E. |
Teaching Experience | 01 Years |
ppwankhade@drgitr.com | |
No. of Publication | 01 |
Name | Prof. S. P. Belsare |
---|---|
Designation | Assistant Professor |
Qualification | M.Tech(GEOTECHNICAL ENGINEERING), B.E. |
Teaching Experience | 01 Years |
spbelsare@drgitr.com | |
No. of Publication | 01 |
Sr. No. |
Laboratory Name |
Equipment Cost |
Furniture Cost |
Total Cost |
01 |
Transportation Engg. |
9,94,930 |
20,000 |
10,14,930 |
02 |
Strength of Materials |
5,04,300.00 |
20,000 |
5,24,000 |
03 |
Survey Laboratory |
7,47,498 |
20,000 |
7,67,498 |
04 |
Geotechnical Engg Laboratory |
10,52,061 |
20,000 |
10,72,061 |
05 |
Environmental Engg Laboratory |
1,30,000 |
12,000 |
1,42,000 |
06 |
Fluid Mechanics Laboratory |
8,82,000 |
30,000 |
9,12,000 |
07 |
Theory of Structures Laboratory |
2,62,920 |
20,000 |
2,82,920 |
08 |
CAD Laboratory |
11,20,000 |
28,000 |
11,48,000 |
09 |
Geology Laboratory |
70,000 |
15,000 |
85,0000 |
10 |
Reinforced Cement Concrete |
10,87,167 |
15,000 |
11,02,167 |
11 |
Building Construction & Material |
50,863 |
20,000 |
70,863 |
Sr. No. |
Laboratory Name |
Name of Equipment |
Quantity |
01 |
Transportation Engg. |
Los-Angeles Abrasion Appratus. |
01 |
Bitumen Penetrometer. |
01 |
||
Benkelman Beam. |
01 |
||
Bump Integretor. |
01 |
||
California Bearing Ratio (CBR) Test Appratus. |
01 |
||
Tar Viscometer. |
01 |
||
Ductility Testing Machine . |
01 |
||
Marshall Stability Apparatus. |
01 |
||
Core Drilling Machine. |
01 |
||
Specific Gravity Balance Appratus. |
01 |
||
02 |
Strength of Materials |
Universal Testing Machine |
01 |
Mechanical Extensometer. |
01 |
||
Shear Test Attachment. |
01 |
||
Impact Testing Machine. |
01 |
||
Hardness Testing Machine. |
01 |
||
03 |
Survey Laboratory |
Dumpy level. |
03 |
Theodolite. |
05 |
||
Prismatic compass. |
07 |
||
Automatic level. |
02 |
||
Electronic Planimeter. |
01 |
||
Total Station(Nikon's). |
01 |
||
Planimeter. |
01 |
||
Plane Table. |
05 |
||
05 |
Environmental Engg Laboratory |
Water analyser. |
01 |
Microprocessor Based Conductivity & TDS meter with cell. |
01 |
||
Floculator (Six jar test to find out the optimum dose of coagulant). |
01 |
||
Jackson Turbidity Meter. |
01 |
||
Sound Level Meter. |
01 |
||
Digital pH Meter With Electrode. |
01 |
||
Blaine's Permeability Meter. |
01 |
||
06 |
Reinforced Cement Concrete |
Aimil Digital CTM 2000kN. |
01 |
Rebound Hammer (NDT). |
01 |
||
Vibrating Table. |
01 |
||
Concrete Mixer Machine . |
01 |
||
Vibrating machine. |
01 |
||
Platform Balance (capacity 100kg) . |
01 |
||
Sieve Shaker. |
01 |
||
Vicat's Apparatus. |
01 |
||
Compaction Factor Appratus. |
01 |
||
07 |
Theory of Structures |
Maxwell's Reciprocal Theorem Verification Instrument . |
01 |
Two Hinged Arch Apparatus. |
01 |
||
Elastic Properties of Deflected Beam Apparatus. |
01 |
||
Strain Measurement with strain gauge . |
01 |
||
Portal Frame Apparatus. |
01 |
||
Deflection of Truss Apparatus. |
01 |
||
Behaviour of Columns & Struts Apparatus. |
01 |
||
08 |
Geotechnical Engineering Laboratory |
Consolidation Test Equipment. |
01 |
Soil Permeability Test Equipment. |
01 |
||
Core Cutter Appartus. |
01 |
||
Unconfined Compression Test (Electric). |
01 |
||
Electric Oven (45 X 45 X 45 cm). |
01 |
||
Triaxial Compression Test Apparatus. |
01 |
||
Direct Shear Test Apparatus. |
01 |
||
Plate Load Test Apparatus |
01 |
||
Extractor frame universal. |
01 |
||
Standard Penetration appratus. |
01 |
||
California Bearing Ratio Appratus. |
01 |
||
Sieve Shaker. |
01 |
||
09 |
Fluid Mechanics |
Kaplan Turbine. |
01 |
Pelton Turbine. |
01 |
||
Pelton Turbine. |
01 |
||
Hydraulic Ramp. |
01 |
||
Centrifugal Pump. |
01 |
||
Reynold's Setup. |
01 |
||
Bernoulli's Set up. |
01 |
||
Venturimeter. |
01 |
||
Headloss Due to friction. |
01 |
||
Reciprocating Pump. |
01 |
||
Tilting Flume. |
01 |
Name of Student | Class Rank | Percentage |
---|---|---|
7th Semester | ||
Ku.Priyanka Shinde | 1 | 73% |
Ku.Vrushali Nagorao Sarnaik | 2 | 71% |
Mr.Sahil Ashok Pund | 3 | 70% |
5th Semester | ||
Ku. Manisha Kalbande | 1 | 63% |
Ku. Priyanka Ghormade | 2 | 62% |
3rd Semester | ||
Ku. Shweta Gajanan Kadam | 1 | 66% |