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Here are some important studying material (Syllabus, Books, Lecture's notes, Old question, Numerical solution etc) on various subjects of 7th semester. These  materials would be very useful for student, researcher, co-worker related to the field of Agricultural Engineering.


   


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Here are some collections of studying material {Syllabus, Lecture Note, Important questions collections, Old Questions, Books} on GROUND WATER DEVELOPMENT AND TUBEWELL TECHNOLOGY. You can click the link provided below to full accessing of these files. One thing you should remember that these materials are collected from various unauthorized sites. So, do not use for the public and professional purpose, only use for private purpose only.

Syllabus

Books

  1. Groundwater Hydrology by Dr. DK Tood.[PDF]
  2. Fluid Mechanics and Hydraulic Machines by BS Publication.pdf


Lecture notes

  • Lecture Notes on Ground water

Fundamentals of Water Well Design, Construction and Testing by Dan Matlock, Principal Hydrogeologist Pacific Groundwater Group ~ Seattle, WA

Important questions collections [Assignment questions solutions]

Old questions collections

  1. 7_ground_water_2068_Bhadra.jpg [IOE old question paper]
  2. 7_ground_water_2069_Bhadra.jpg [IOE old question paper]
  3. 7_ground_water_2069_chaitra.jpg [IOE old question paper]
  4. 7_ground_water_2070_chaitra.jpg [IOE old question paper]
  5. 7_ground_water_2071_Shrawan.jpg [IOE old question paper]
  6. 7_ground_water_2071_chaitra.jpg [IOE old question paper]
  7. 7_ground_water_2072_chaitra.jpg [IOE old question paper]
  8. 7_ground_water_2073_chaitra.jpg [IOE old question paper]
  9. 7_ground_water_2074_chaitra.jpg [IOE old question paper]

Other material for Numerical and theoretical references

  1. [GATE IES PSU] IES MASTER Hydraulic Machines  Study Material for GATE,PSU,IES,GOVT Exams
  2. Fluid Mechanics  Study Material for GATE,PSU,IES,GOVT Exams


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Guidelines for writing Concept note for BEAg Final year Project

Instructions

No more than 2 pages in length (excluding title page), a concept paper frame a project idea and explain the importance of a particular project to your supervisor, funding sponsors and/or collaborators. A concept note may include some or all of the following sections, depending upon how developed the research idea and whether or not the concept paper is being developed in response to a specific funding opportunity.

1          Title of project

This should provide a snap shot of your proposed project.

2          Background of the project

This section should explain the background of the project, what motivated you to take up the project and the contribution to knowledge which you wish to make. Indicate why this area you have chosen for the project is important?

3          Objectives of the project

You should list out overall and specific objectives for your project to show what you want to achieve.

4          Project Description:

Describe the "who, what, and when" - i.e. what tasks will be undertaken, who will lead those tasks, and when the work will be accomplished. If a simple, yet effective graphic can be included to illustrate a key point, include it! The project description can be broken down into 3 sections:

4.1         Problem & Significance

Explain why you to think, based on a review of the literature, that the topic needs study and why it is important to the field. Review of literature should outline the important study that has been carried out related to your project. This would provide you assessing the state of knowledge and the knowledge gap and therefore help you putting your project in a perspective.

4.2         Approach/Methodology

Specify what hypotheses you will test and what model will guide your hypotheses. Explain what is new in your approach, why it is important to be done, and how it is unique. Include mention of any resources, collaborators, target populations, preliminary data, etc. that area available to the project.

4.3         Expected Result

Describe the project’s expected result, which may include impacts on the engineering field, societal and economic benefits, etc.

5          Project Team

Identify key collaborators and their sponsoring institution. Identify stakeholders for which significant cooperation will be needed to implement the proposed project. If applicable, indicate which stakeholders are willing to provide a written commitment of support for the project.

6          Budget/Timeline

Write what you anticipate the project will cost (LS) and how long it will take to complete.

Contact Info

Provide the contact information (emails and phone numbers) of each team members. Put project leader name first.

References

For referencing and citation use Vancouver system.


TRIBHUVAN UNIVERSITY
INSTITUTE OF ENGINEERING
PURWANCHAL CAMPUS
Department of Agricultural Engineering

Concept note on
(Put Project Title Here)

By
(Put team member name alphabetically)



(Put Date here: Month, Year)

ANNEX – II

Vancouver System of Citation and Referencing
For citation use square brackets. For Eg. [1]
Books
Authors(s). Title of book. Place of publication: Publisher; Year of publication.
Basu P. Biomass gasification and pyrolysis: practical design and theory. Academic press; 2010.
Edited book
Editor(s), editor(s). Title of book. Edition. Place of publication: Publisher; Year of publication.
Overend RP, Milne T, Mudge L, editors. Fundamentals of thermochemical biomass conversion. Springer Science & Business Media; 2012.
Chapter in an edited book
Author. Title of chapter. In: Editors, editors. Title of book. Edition. Place of publication: Publisher; Year of publication. Page numbers.
Carandang CG, Martin A. Clinical assessment of children and adolescents with depression. In: Rey JM, Birmaher B, editors. Treating child and adolescent depression. Philadelphia: Wolters Kluwer Health/Lippincott Williams & Wilkins; 2009. p. 23-40.
Journal article
Author(s). Title of article. Title of Journal (abbreviated). Date of publication;Volume(Issue):Page numbers.
Kafle S, Parajuli R, Euh SH, Oh KC, Choi YS, Adhikari K, Oh JH, Kim DH. Potential biomass supply for agro-pellet production from agricultural crop residue in Nepal. Energy Sources, Part A: Recovery, Utilization, and Environmental Effects. 2016 Jan 2;38(1):149-53.
Conference paper
Author(s) of paper. Title of paper. In: Editor(s) surname and initials, editor(s). Title of conference; Date of conference; Place of conference. Place of publication: Publisher’s name; Year of publication. Page numbers.
Kafle S, Euh SH, Nam YS, Lee CG, Oh KC, Ju YM, Lee SY, Kim JM, Choe YS, Baek SH, Oh JH. Reduction of Tar Fouling in Wood Pellet Boiler using Dolomite and Lime as Additives. Proceedings of the Korea Society for Agricultural Machinery Conference. 2015;20(1):61-2.
Thesis
Author(s). Thesis title [type of thesis]. Place of publication: Publisher; Year.
Kafle S. Development of reduction techniques on tar fouling by dolomite and lime additives in a wood pellet boiler [master’s thesis]. South Korea; Kangwon National University; 2016.
Website
Author. Title of web page [Medium]. Place of publication: Publisher; Date of publication [updated Year Month Day; cited Year Month Day]. Available from: URL
Fehrenbach MJ. Dental hygiene education [Internet]. Chicago: Fehrenbach and Associates; 1997 [updated 2012 Feb 9; cited 2012 Aug 24]. Available from: http://www.dhed.net/Main.html
Newspaper article
Author. Title of article. Title of Newspaper (Edition). Year Month Day: URL
Ahikari K, Kafle S. Time to Change. Kathmandu Post. 2016 Feb 23. http://kathmandupost.ekantipur.com/news/2016-02-23/time-to-change-20160223081420.html


Get overall idea from this flow chart



 Downloads
1. Guidelines and models for writing Concept note for BEAg Final year Project.docx
2. A model of concept note -water_quality_test_by_ishwor_group.pdf 
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GROUND WATER DEVELOPMENT AND TUBEWELL TECHNOLOGY
AE

Lecture     :   3                                                                                              Year   :   IV
Tutorial    :   1                                                                                              Part    :   I      
Practical   :   1.5                                                                                                                 
Course Objective:
To acquaint and familiarize the students with the concept, technological development and problem solving in the area of groundwater, tube well technology and water lifting devices.
1.       Occurrence and Movement of Ground Water                                     [4 hours]
1.1.     Occurrence of Ground Water
1.2.     Types of Water Bearing Formation and their Characteristics
1.3.     Ground Water Movement and Darcy's Law
1.4.     Acquifer Characteristics Influencing Ground Water Yield
1.5.     Permeability and Factors Affecting Permeability
1.6.     Measurement of Permeability
2.       Well Hydraulics                                                                                           [5 hours]
2.1.     Classification of Wells
2.2.     Steady State Flow in Fully Penetrating Wells
2.3.     Unsteady State Flow in Fully penetrating Wells
2.4.     Steady and Transient State Flow in Partially penetrating Wells
2.5.     Interference of Wells
2.6.  Pumping Test and Determination of Acquifer  Parameters by:  Theis Method, Copper-Jacob Method, Chow's Method
3.       Ground Water Exploration                                                                       [3 hours]
3.1.     Objectives of Ground Water Exploration
3.2.     Methods of Ground Water Exploration:
3.2.1.  Geological Method
3.2.2.  Geophysical Method
3.2.3.  Electrical Resistivity Method
3.2.4.  Seismic Refraction Method
3.2.5.  Water Winching
4.       Well Classification and Design                                                                 [5 hours]
4.1.     Classification of Wells and Tubewells
4.2.     Classification and Selection of Strainers
4.3.     Design Considerations in Open Wells
4.4.     Test Drilling
4.5.     Design Consideration in Tubewells:
4.5.1.  Preparation of Bore Log
4.5.2.  Grain Size Distribution of Water Bearing Strata
4.5.3.  Determination of Safe Yield
4.5.4.  Diameter and Depth of Casing Pipe
4.5.5.  Diameter and Depth of Strainer
4.5.6.  Design of Gravel Packing
4.6.     Well Development
4.7.     Multiple Well System
5.       Tube-well Construction                                                                             [4 hours]
5.1.     Methods of Drilling
5.1.1.  Percussion Drilling
5.1.2.  Hydraulic Rotary
5.1.3.  Reverse Rotary
5.1.4.  Bamboo shallow wells
5.2.     Choice of Well Drilling Method
5.3.     Installation of Well Casing and Screens
6.       Operation and Maintenance of Tube wells                                            [1 hour]
7.       Environmental impacts on groundwater: groundwater pollution,       [2hrs]
7.1.     Temporal variation of groundwater, stream flows groundwater levels,
7.2.     evapotranspirative and tidal fluctuations, urbanization, earthquakes,
7.3.     external loads, land subsidence                                                                     
8.       Water Lifting Devices and Pumps                                                         [17 hours]
8.1.  Classification of pumps and traditional water lifting devices                    
8.2.  Reciprocating Pumps                                                                                         
8.2.1.  Working Principle and Classification
8.2.2.  Design Considerations
8.2.3.  Operating Characteristic Curves
8.2.4.  Selection and Installation
8.2.5.  Maintenance and Trouble-Shooting
8.3.  Centrifugal Pumps                                                                                              
8.3.1.  Working Principle and Classification
8.3.2.  Components
8.3.3.  Design Considerations
8.3.4.  Performance Characteristics
8.3.5.  Selection and Installation
8.3.6.  Maintenance and Trouble-Shooting
8.4.  Turbine and Submersible Pumps                                                                     
8.4.1.  Working Principle
8.4.2.  Components
8.4.3.  Performance Characteristics
8.4.4.  Selection and Installation
8.4.5.  Maintenance and Trouble Shooting
8.5.  Propeller Pump                                                                                                   
8.5.1.  Working Principle
8.5.2.  Components
8.5.3.  Performance Characteristics
8.5.4.  Selection and Installation
8.5.5.  Maintenance and Trouble-Shooting
8.6.  Other Types of Pumps                                                                                       
8.6.1.  Jet Pump
8.6.2.  Gear Pump
8.6.3.  Screw Pump
8.6.4.  Hydraulic Ram
8.6.5.  Treadle Pump
9.       Design Considerations in Pumping Plant                                              [2 hours]
10.    Economics of Pumping and Ground Water Utilization                      [2 hours]



Practical                                                                                                                
1.       Use of Resistivity Meter for Exploration of Water Bearing Formation      [2 hours]
2.       Measurement of Ground Water Level and Preparation of Water Table Contour Maps               [2 hours]
3.       Well Log Assessment                                                                                  [2 hours]
4.       Analysis of Acquifer Material and Design of Gravel Pack                    [2 hours]
5.       Evaluation of Discharge-Drawdown Relationship of Wells and Determination of Recuperation Rate       [2 hours]
6.       Evaluation of Acquifer Parameters by Pumping Tests                         [2 hours]
7.       Testing of Well Screen                                                                               [2 hours]
8.       Performance Evaluation of Reciprocating Pumps                                [2 hours]
9.       Performance Evaluation of Centrifugal Pumps                                     [2 hours]


Visit to a Tube well Drilling Site and Study of Different Drilling Equipments.

Reference:

1.       D.K. Todd. Ground Water Hydrology. John Wiley & Sons. (latest edition- Indian/Low Cost Edition Preferred)
2.       H.M. Raghunath. 1990. Ground Water. Wiley Eastern Ltd., New Delhi.
3.       Karanth K.R. Ground Water Assessment, Development and Management. Tata McGraw Hill Book Co., New Delhi.
4.       Michael A.M. and Khepar S.D. Water Wells and Pump Engineering. Tata McGraw Hill Publishing Co., New Delhi.
5.       Jagdish Lal. Hydraulic Machines. Metropolitan Book Co., New Delhi.




Evaluation Scheme:
The questions will cover all the chapters in the Syllabus. The evaluation scheme will be as indicated in the table below.
Chapter
Hours
Marks Distribution*
1
4
4
2
6
16
3
3
4
5
16
5
4
6
3
6
7
8
17
32
9
4
6
10
Total
45
80
*There may be minor variation in marks distribution

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