PERI Institute of Technology

Department of Civil Engineering

Academic Year 2016 – 2017 (Even Semester)

Subject Code / Name: CE 6811 Project Work Semester: 08

S. Batch Name of the Reg. No. Name of the Student Topic No No. Guide

1. 411513103002 Abinaya M Strength properties of concrete using Mrs. Namitha 2. 411513103007 Anandheswaran B 1 crumb rubber with partial Jacob replacement of fine aggregate 3. 411513103302 Arunkumar M

4. 411513103008 Anish Kumar P Mrs. Namitha An Experimental study of bacterial 5. 411513103015 Divya B 2 Jacob self-Healing Concrete 6. 411513103311 Shanmugasundaram C

7. 411513103031 Phidawansha R Sohliya Comparison on Strength of Concrete 8. 411513103021 Jenifer Raj M 3 Mr. M.Vignesh cementatious using Glass Powder and Polythene bag as additive 9. 411513103055 Vinayagam P

10. 411513103001 Aarthi V R Seismic Behaviour of Brick and 11. 411513103004 Aishwarya S P 4 Mr. M.Vignesh Hollow Block Masonry Walls with fibre composites 12. 411513103017 Gayathri P

13. 411513103012 Charan Tej R Experimental Study on static 14. 411513103033 Pravin A Mathew 5 Dr. Rajesh Guna behaviour of high Volume class C Fly ash RCC Beam. 15. 411513103048 Sudharsan R

16. 411513103036 Rajkumar R An Experimental study of Strated 17. 411513103037 Rajpandi V 6 Dr. Rajesh Guna Fibre Concrete.[SIFCON] 18. 411513103057 Yuvaraj R

19. 411513103005 Ajithkumar M Experimental Investigation of Mrs. 20. 411513103029 Narendhar S 7 Pervious Concrete for Improving the S.Rajalakshmi performance In Rigid Pavements. 21. 411513103053 Viknesh V

22. 411513103014 Devanathan S Mrs. Flyash based cellular light weight 23. 411513103047 Sudha V 8 S.Rajalakshmi concrete 24. 411513103306 Pandiyarajan D

25. 411513103024 Krishna Moorthi K S Strength Property of Coir Fibre 26. 411513103038 Revathy D 9 Mrs. P.Kaviyarasi Concrete. 27. 411513103301 Aravind J 28. 411513103016 Durga Prasad K An Experimental Study on BUBBLE 29. 411513103042 Saravana Gugan C 10 Mrs. P.Kaviyarasi DECK TECHNOLOGY 30. 411513103032 Prasanth V

31. 411513103022 Kalaiyarasan E Mr. M.S. 32. 411513103052 Vijay P 11 Paper Concrete Brick Gowthaman 33. 411513103046 Sriram S

34. 411513103018 Gunasekaran S Experimental investigation on thermal Mr. M.S. 35. 411513103023 Krishna Kumar K 12 conductivity and electrical resistivity Gowthaman of soil. 36. 411513103051 Swadeeswaran B

37. 411513103010 Arvindhraj P Stabilization of Bitumen by Marble 38. 411513103044 Shateesh B 13 Ms. K.S.Dhivya Dust & Quarry Sand 39. 411513103054 Vikramathithan S

40. 411513103013 Charles Samuel M Experimental Study of partial 14 Ms. K.S.Dhivya replacement of fine grained soil with 41. 411513103303 Dhinesh S Foundry sand

42. 411513103307 Parthiban M Replacement of coarse aggregate an 43. 411513103308 Sarath Kumar V 15 Mr. M.JayaGopal fine aggregate by Rough Ceramic Tiles an Ceramic Powder in concrete 44. 411513103050 Suriya Prakash R

45. 411513103028 Nagavigneswaran L Experimental Study on concrete 46. 411513103009 Aravind V 16 Mr. M.JayaGopal without OPC 47. 411513103309 Sathish S

48. 411513103019 Hari Ram S Experimental investigation of Pervious 49. 411513103030 Parikshith Akhil R 17 Mrs.K.S.Binitha Concrete for Improving the performance In Rigid Pavements. 50. 411513103039 Roselyn Rebecca

51. 411513103043 Sathish Kumar M Experimental study on increase in 52. 411513103045 Sivanesan G 18 Ms.V.GnanaDevi strength of concrete by using Basalt Fibre 53. 411513103305 Mohammedmubarak M

54. 411513103003 Adityan P Experimental study on use of HYPO and bagasse ASH as a Partial 55. 411513103006 Ajith Kumar R 19 Mr.Anbalagan replacement cement in cement 56. 411513103310 Sathishkumar K concrete.

HoD - Civil Principal PERI Institute of Technology

Department of Civil Engineering

Academic Year 2017 – 2018 (Even Semester)

Subject Code / Name: CE 6811 Project Work Semester: 08

S. Batch Name of the Reg. No. Name of the Student Topic No No. Guide 1. 411514103098 Tharun Kumar P

2. 411514103090 Stefy J Experimental investigation on 1 Mr. Anbalagan M concrete using Graphite Powder as an 3. 411514103084 Shobika Bai S Admixture

4. 411514103089 Sivasaranya E

5. 411514103021 Hariharasudan P

6. 411514103057 Ponraj M Mr. Gowthaman 2 Water Sensitive Urban Design 7. 411514103107 Vignesh S (1996-09-03) M S

8. 411514103303 Asvini K

9. 411514103011 Ben Jachin S

10. 411514103033 Kaleel J 3 Mr. Magesh B Enrouted Pervious Paver Blocks 11. 411514103013 Dilip Kumar T

12. 411514103034 Kamleshwar S

13. 411514103005 Alexsuman T

Experimental Study of Strength 14. 411514103015 Divakaran R Mr. Gift Pon 4 Behavior of Cement less Geopolymer Lazarus D 15. 411514103066 Roselin Sobha J Concrete

16. 411514103110 Vikram S

17. 411514103026 Jasima S A

18. 411514103041 Leena Priya R Mr. Hari Sathish Behavior of Basalt Fiber in High 5 19. 411514103056 Pavithra K Kumar M Strength Concrete

20. 411514103023 Hemalatha G

21. 411514103099 Varuna V

22. 411514103302 Akash Kumar S Experimental Study on Strength of 6 Dr. Rajesh Guna R Fiber Reinforced Quarry Dust 23. 411514103306 Manikandan S Concrete 24. 411514103076 Saravanan E

25. 411514103032 Kalaimani M

26. 411514103058 Poornipooja S An Experimental Study on Partial 7 Dr. Rajesh Guna R Replacement of Cement by Zeolite in 27. 411514103095 Surendar V Concrete

28. 411514103092 Sudhagar M

29. 411514103001 Ajith P K Study to improve Labour Productivity 30. 411514103006 Anandha Charli S 8 Mr. Jayagopal M in Precast Construction Project 31. 411514103025 Jagan Raj P 32. 411514103051 Naveenraj C

33. 411514103079 Sathya Bama K

Experimental Investigation of Partial 34. 411514103052 Neelamegan S Mr. Hari Sathish 9 Replacement of Cement with Alkali Kumar M 35. 411514103094 Supriya K R Activated Glass Powder

36. 411514103049 Md Salman Kauser

37. 411514103040 Kumaran A

38. 411514103087 Sivaram M Experimental Investigation of 10 Mr. Anbalagan M Bendable Concrete Using Polyvinyl 39. 411514103088 Sivaraman T Alcoholic Fibre

40. 411514103093 Sundharesh N

41. 411514103027 Jayanthi M An Experimental Investigation on 42. 411514103039 Krishna Selvi G 11 Mrs. Binitha K S Palm Fuel Ash Based Geopolymer Concrete 43. 411514103114 Yogesh A K

44. 411514103016 Esther Metilda J Detection of Concrete Mix Proportion 45. 411514103074 Saranya J 12 Dr. Rajesh Guna R Using Sensor Techniques 46. 411514103103 Vidhya Lakshmi M

47. 411514103109 Vigneshwaran P Mr. Gift Pon Experimental Study on Transparent 13 48. 411514103113 Vishak Rengaraaj K Lazarus D Concrete Using Optical Fibre

49. 411514103002 Akaash R Building Information Modeling and 50. 411514103100 Veerabaghu Venkatesh 14 Mr. Magesh B Effective Monitoring System 51. 411514103022 Harish S

52. 411514103009 Balaji K

Scrutinial Study on Monopolizing the 53. 411514103019 Gowtham B Mr. Hari Sathish 15 Excessive Runoff of In Certain Kumar M 54. 411514103073 Santhosh K S S Locations of Kanchipuram 55. 411514103305 Krishnamoorthi R

56. 411514103008 Austin M Max

57. 411514103018 Gopiaravind A Experimental Investigation Bricks 16 Ms. Debi Linsha R using Sea Shell Powder partially 58. 411514103050 Muralidharan N Replacement of Soil

59. 411514103097 Thamizhmaran S

60. 411514103046 Mohamed Buhari S Experimental Investigation on Partial 61. 411514103071 Santhanam C Replacement of Prosopis Juliflora Ash 17 Ms. Lavanya C 62. 411514103012 Deepak V and Full Replacement of R-Sand by M- Sand 63. 411514103105 Vignesh N

64. 411514103101 Velu M

Investigation of Physicochemical 65. 411514103078 Sathish P Mrs. 18 Parameters of Ground Water Quality Priyadharshini M 66. 411514103070 Sam Surya S near Sevappet

67. 411514103024 Henson Bernald S

68. 411514103075 Saravana Kumar S 19 Ms. Binitha K S Study of an Energy Efficient Solar 69. 411514103063 Raj Kumar A Panel Tiles for Footpath in Chennai

70. 411514103059 Prakash B

71. 411514103036 Karthik R

72. 411514103080 Sehu Altaf M Utilization of Waste Foundry Sand in 73. 411514103067 Sadam Hussain I 20 Mr. M. Jayagopal Fly ash Bricks 74. 411514103091 Subikha S

75. 411514103053 Nithilesh V S

76. 411514103065 Rakesh K Study on Mechanical Properties of C & 21 Mr. B. Magesh D Waste Concrete with Partial 77. 411514103060 Prakash D Replacement of M-Sand

78. 411514103037 Karthikeyan R

79. 411514103112 Vinoth Kumar S Experimental Study on Partial Replacement of Fine Aggregate by 80. 411514103061 Praveen Kumar B 22 Ms. Dhivya K S Eggshell powder, Cow dung Powder 81. 411514103108 Vignesh V & Glass Powder

82. 411514103064 Rajuvel S

83. 411514103086 Siva Raj A Compatibility Study on Two Different 23 Ms. Deby Linsha Plasticizers with Ordinary Portland 84. 411514103054 Nizar Ahamed A Cement

85. 411514103301 Ajith Kumar K

86. 411514103068 Sakthivel D

Determination of Characteristic 87. 411514103077 Sathish B Mr. Gift Pon 24 Strength of Cement Concrete Using Lazarus D 88. 411514103082 Shailesh D K Carbon Fibre 89. 411514103083 Sharan Prasad M S

90. 411514103010 Balakumar A

91. 411514103062 Rajendiran N Experimental Investigation on Bricks 25 C. Lavanya using Red Soil, Limestone and Egg 92. 411514103081 Senthilkumaran R Shell as Replacement of Clay

93. 411514103096 Suryakumar G

94. 411514103020 Gugan Raj K

95. 411514103035 Karthick H Strengthening of Concrete Under 26 M. Ragul Tensile Loading Using Autoclaved 96. 411514103028 Jayasuriya M Aereated Concrete

97. 411514103045 Manojkumar P

98. 411514103047 Mohamed Irshath M

99. 411514103106 Vignesh S (1996-05-19) Experimental Study of Replacement of 100. 411514103055 Parithy K 27 M. Ragul Copper Slag for Fine Aggregate 101. 411514103072 Santhosh D

102. 411514103085 Sivalingam D

HoD - Civil Principal PERI Institute of Technology

Department of Civil Engineering

Academic Year 2018 – 2019 (Even Semester)

Subject Code / Name: CE 6811 Project Work Semester: 08

S. Batch Register No. Name of the Students Title of the Project Guide Name No.

1 411515103085 Sharvesh R

2 411515103089 ShreShinika G An Experimental Investigation of 1 Insufficient Ground Water Infiltration and Mr.B.Magesh 3 411515103079 Ranjith Kumar N its Improvement in Pallikaranai

4 411515103100 Vignesh M

5 411515103056 Mahadevan S

6 411515103057 Maniratnam S Experimental Investigation on Thermal 2 Conductivity and Electrical Resistivity of Mr.M.S.Gowthaman 7 411515103089 Srihari S Soil

8 411515103101 Vigneshwaran M

9 411515103003 Abiramiyazhini G

10 411515103044 Jeevitha N Removal of Hexavalent Chromium from 3 Mr.M.S.Gowthaman 11 411515103050 Kavin Romero George Waste Water Using Chitosan

12 411515103052 KharatmoleGayathrri

13 411515103012 Anandha Krishnan R

14 411515103030 Dakshana Moorthy R Experimental Investigation of CO2 4 Absorption in concrete by Using Zeolite Mr.M.Anbalagan 15 411515103022 Balaji K Powder

16 411515103049 Karthick S

17 411515103028 Boomiga N

18 411515103072 Preethi K 5 Automated Lane Extending System Dr.R.RajeshGuna 19 411515103077 Ramu R

20 411515103303 Bhavani S

21 411515103001 Aakash A

22 411515103039 Hindhumathi Y Experimental Investigation on Partial Mr.M.Hari Sathish 6 Replacement of Basalt Rock to Coarse 23 411515103307 Priya M Kumar Aggregate Santhanakrishnan V 24 411515103308 M

25 411515103093 Surya S

26 411515103013 Anirudhan R An Experimental Investigation on Partial 7 Replacement of Fine Aggregate by Dr.R.RajeshGuna 27 411515103018 Arun Kumar M Expanded Polystyrene Beads in Concrete

28 411515103063 Nirmal Kumar P

29 8 411515103301 Ajith Kumar M Experimental Study on Concrete with Dr.R.RajeshGuna 30 411515103104 Yuvaraj D Conventional Fine Aggregate Partially Replaced with Waste Plastic 31 411515103306 Karthik M

32 411515103305 Karthik D

33 411515103054 Lokesh R

34 411515103061 Mohan T Experimental Investigation on Partial 9 Replacement of Mesquite Wood Ash and Ms.C.Lavanya 35 411515103004 Ajay Kanna K Micro Silica

36 411515103024 Balaji R

37 411515103033 Dinesh M

38 411515103027 Boobalan S Soil Stabilization by Using GGBS and E 10 Mr.M.Anbalagan 39 411515103011 Akileshwaran K P GlassFibre

40 411515103051 Kaviyarasu R

41 411515103005 Ajith Kumar C

42 411515103006 Ajith Kumar D Experimental Study on Partial 11 Ms.K.S.Dhivya 43 411515103015 Aravind T Replacement of Teri Sand in Concrete

44 411515103067 Pavithra D

45 411515103026 Bharath P

46 411515103066 Parthiban M Improving the Labour Productivity in 12 Mr.M.Jayagopal 47 411515103097 Veeraselvan P Mivan Technology

48 411515103302 Basilton Immanuel G

49 411515103082 Sasi Kumar R

50 411515103091 Subash D Evaluation of Structural Properties of 13 Concrete Using Nano Silica as a CRM and Mr.B.Magesh 51 411515103105 Yuvaraj K MSand as FA

52 411515103304 Gokulnath K

53 411515103035 Faizur Rahman B

54 411515103036 Gunanidhi S Experimental Investigation on Self 14 Compacting Concrete Using Flyash and Mr.M.Anbalagan 55 411515103092 Subbulakshmi R Metakaolin

56 411515103099 Vidhya S

57 411515103016 Arunachalam R

58 411515103075 Ragul R Experimental Study on Bitumen Partially 15 Ms.C.Lavanya 59 411515103062 Narendiran G Replaced with Waste PVC

60 411515103095 Thangamuthu

61 411515103038 Hemananth C S

62 411515103042 Jaya C S Experimental Study on Partial 16 Replacement of Sewage Sludge and Alum Ms.K.S.Dhivya 63 411515103048 Kamesh S Sludge in Concrete

64 411515103055 Lokesh R 65 411515103078 Ramya Githanjali S

Experimental Study on Partial 66 411515103080 Ranjith Kumar P Mr.M.Hari Sathish 17 Replacement of Sand with Marble Dust Kumar 67 411515103102 Vigneshwaran P and Steel Fibre

68 411515103041 Jai Krishnna T

69 411515103032 Dhanasekar K

70 411515103031 Deepak Raj S Experimental Study on Partial 18 Mr.M.S.Gowthaman 71 411515103047 Kaliya Moorthy M Replacement with Bottom Ash

72 411515103010 Akash A

73 411515103071 Pravin Ajho M

74 411515103064 Nithish Raja N Experimental Behaviour Study of 19 Replacement of Fine Aggregate with Mr.B.Magesh 75 411515103096 TharveshMoheideen MSand and GGBS

76 411515103058 Manivannan R

77 411515103009 Ajith Kumar R

78 411515103019 Athish R R An Experimental Study on Concrete Using 20 Magnesium Potassium Phosphate Cement Ms.C.Lavanya 79 411515103045 JeyaRuban A blended with Fly Ash

80 411515103076 Rammohan S

81 411515103037 Hariharan N

411515103046 82 Iniyavan E P Experimental Investigation of Geopolymer 21 Mrs.S.Rajalakshmi 83 411515103090 Sriram S with E-Glass Fibre

84 411515103070 Praveen Kumar C

85 411515103081 Rathna Gowtham R

86 411515103098 Velmurugan V Strength Assessment of Green Mix 22 Concrete with Partial Replacement of Fine Ms.K.S.Dhivya 411515103088 87 Sivasakthi R Aggregate with Quarry Dust

88 411515103025 Barath M

89 411515103068 Prabhu S

411515103094 90 Tamizharasan R Experimental Investigation on Strength 23 Mrs.S.Rajalakshmi 91 411515103029 Chandra Pandian C Development of Concrete Using Coir Fibre

92 411515103083 Sathish Pandian C

93 411515103084 Selva Ganesh K

94 411515103103 Yakesh N Utilization of Pond Ash as Partial 24 Replacement of Fine Aggregate in Mr.M.Ragul 411515103017 95 Arun Kumar R Concrete Mix

96 411515103069 Praveen R

HoD - Civil Principal PERI Institute of Technology

Department of Civil Engineering

Academic Year 2016 – 2017 (Even Semester)

Subject Code / Name: CE 6811 Project Work Semester: 08

S. Batch Name of the Reg. No. Name of the Student Topic No No. Guide

1. 411513103002 Abinaya M Strength properties of concrete using Mrs. Namitha 2. 411513103007 Anandheswaran B 1 crumb rubber with partial Jacob replacement of fine aggregate 3. 411513103302 Arunkumar M

4. 411513103008 Anish Kumar P Mrs. Namitha An Experimental study of bacterial 5. 411513103015 Divya B 2 Jacob self-Healing Concrete 6. 411513103311 Shanmugasundaram C

7. 411513103031 Phidawansha R Sohliya Comparison on Strength of Concrete 8. 411513103021 Jenifer Raj M 3 Mr. M.Vignesh cementatious using Glass Powder and Polythene bag as additive 9. 411513103055 Vinayagam P

10. 411513103001 Aarthi V R Seismic Behaviour of Brick and 11. 411513103004 Aishwarya S P 4 Mr. M.Vignesh Hollow Block Masonry Walls with fibre composites 12. 411513103017 Gayathri P

13. 411513103012 Charan Tej R Experimental Study on static 14. 411513103033 Pravin A Mathew 5 Dr. Rajesh Guna behaviour of high Volume class C Fly ash RCC Beam. 15. 411513103048 Sudharsan R

16. 411513103036 Rajkumar R An Experimental study of Strated 17. 411513103037 Rajpandi V 6 Dr. Rajesh Guna Fibre Concrete.[SIFCON] 18. 411513103057 Yuvaraj R

19. 411513103005 Ajithkumar M Experimental Investigation of Mrs. 20. 411513103029 Narendhar S 7 Pervious Concrete for Improving the S.Rajalakshmi performance In Rigid Pavements. 21. 411513103053 Viknesh V

22. 411513103014 Devanathan S Mrs. Flyash based cellular light weight 23. 411513103047 Sudha V 8 S.Rajalakshmi concrete 24. 411513103306 Pandiyarajan D

25. 411513103024 Krishna Moorthi K S Strength Property of Coir Fibre 26. 411513103038 Revathy D 9 Mrs. P.Kaviyarasi Concrete. 27. 411513103301 Aravind J 28. 411513103016 Durga Prasad K An Experimental Study on BUBBLE 29. 411513103042 Saravana Gugan C 10 Mrs. P.Kaviyarasi DECK TECHNOLOGY 30. 411513103032 Prasanth V

31. 411513103022 Kalaiyarasan E Mr. M.S. 32. 411513103052 Vijay P 11 Paper Concrete Brick Gowthaman 33. 411513103046 Sriram S

34. 411513103018 Gunasekaran S Experimental investigation on thermal Mr. M.S. 35. 411513103023 Krishna Kumar K 12 conductivity and electrical resistivity Gowthaman of soil. 36. 411513103051 Swadeeswaran B

37. 411513103010 Arvindhraj P Stabilization of Bitumen by Marble 38. 411513103044 Shateesh B 13 Ms. K.S.Dhivya Dust & Quarry Sand 39. 411513103054 Vikramathithan S

40. 411513103013 Charles Samuel M Experimental Study of partial 14 Ms. K.S.Dhivya replacement of fine grained soil with 41. 411513103303 Dhinesh S Foundry sand

42. 411513103307 Parthiban M Replacement of coarse aggregate an 43. 411513103308 Sarath Kumar V 15 Mr. M.JayaGopal fine aggregate by Rough Ceramic Tiles an Ceramic Powder in concrete 44. 411513103050 Suriya Prakash R

45. 411513103028 Nagavigneswaran L Experimental Study on concrete 46. 411513103009 Aravind V 16 Mr. M.JayaGopal without OPC 47. 411513103309 Sathish S

48. 411513103019 Hari Ram S Experimental investigation of Pervious 49. 411513103030 Parikshith Akhil R 17 Mrs.K.S.Binitha Concrete for Improving the performance In Rigid Pavements. 50. 411513103039 Roselyn Rebecca

51. 411513103043 Sathish Kumar M Experimental study on increase in 52. 411513103045 Sivanesan G 18 Ms.V.GnanaDevi strength of concrete by using Basalt Fibre 53. 411513103305 Mohammedmubarak M

54. 411513103003 Adityan P Experimental study on use of HYPO and bagasse ASH as a Partial 55. 411513103006 Ajith Kumar R 19 Mr.Anbalagan replacement cement in cement 56. 411513103310 Sathishkumar K concrete.

HoD - Civil Principal PERI Institute of Technology

Department of Civil Engineering

Academic Year 2017 – 2018 (Even Semester)

Subject Code / Name: CE 6811 Project Work Semester: 08

S. Batch Name of the Reg. No. Name of the Student Topic No No. Guide 1. 411514103098 Tharun Kumar P

2. 411514103090 Stefy J Experimental investigation on 1 Mr. Anbalagan M concrete using Graphite Powder as an 3. 411514103084 Shobika Bai S Admixture

4. 411514103089 Sivasaranya E

5. 411514103021 Hariharasudan P

6. 411514103057 Ponraj M Mr. Gowthaman 2 Water Sensitive Urban Design 7. 411514103107 Vignesh S (1996-09-03) M S

8. 411514103303 Asvini K

9. 411514103011 Ben Jachin S

10. 411514103033 Kaleel J 3 Mr. Magesh B Enrouted Pervious Paver Blocks 11. 411514103013 Dilip Kumar T

12. 411514103034 Kamleshwar S

13. 411514103005 Alexsuman T

Experimental Study of Strength 14. 411514103015 Divakaran R Mr. Gift Pon 4 Behavior of Cement less Geopolymer Lazarus D 15. 411514103066 Roselin Sobha J Concrete

16. 411514103110 Vikram S

17. 411514103026 Jasima S A

18. 411514103041 Leena Priya R Mr. Hari Sathish Behavior of Basalt Fiber in High 5 19. 411514103056 Pavithra K Kumar M Strength Concrete

20. 411514103023 Hemalatha G

21. 411514103099 Varuna V

22. 411514103302 Akash Kumar S Experimental Study on Strength of 6 Dr. Rajesh Guna R Fiber Reinforced Quarry Dust 23. 411514103306 Manikandan S Concrete 24. 411514103076 Saravanan E

25. 411514103032 Kalaimani M

26. 411514103058 Poornipooja S An Experimental Study on Partial 7 Dr. Rajesh Guna R Replacement of Cement by Zeolite in 27. 411514103095 Surendar V Concrete

28. 411514103092 Sudhagar M

29. 411514103001 Ajith P K Study to improve Labour Productivity 30. 411514103006 Anandha Charli S 8 Mr. Jayagopal M in Precast Construction Project 31. 411514103025 Jagan Raj P 32. 411514103051 Naveenraj C

33. 411514103079 Sathya Bama K

Experimental Investigation of Partial 34. 411514103052 Neelamegan S Mr. Hari Sathish 9 Replacement of Cement with Alkali Kumar M 35. 411514103094 Supriya K R Activated Glass Powder

36. 411514103049 Md Salman Kauser

37. 411514103040 Kumaran A

38. 411514103087 Sivaram M Experimental Investigation of 10 Mr. Anbalagan M Bendable Concrete Using Polyvinyl 39. 411514103088 Sivaraman T Alcoholic Fibre

40. 411514103093 Sundharesh N

41. 411514103027 Jayanthi M An Experimental Investigation on 42. 411514103039 Krishna Selvi G 11 Mrs. Binitha K S Palm Fuel Ash Based Geopolymer Concrete 43. 411514103114 Yogesh A K

44. 411514103016 Esther Metilda J Detection of Concrete Mix Proportion 45. 411514103074 Saranya J 12 Dr. Rajesh Guna R Using Sensor Techniques 46. 411514103103 Vidhya Lakshmi M

47. 411514103109 Vigneshwaran P Mr. Gift Pon Experimental Study on Transparent 13 48. 411514103113 Vishak Rengaraaj K Lazarus D Concrete Using Optical Fibre

49. 411514103002 Akaash R Building Information Modeling and 50. 411514103100 Veerabaghu Venkatesh 14 Mr. Magesh B Effective Monitoring System 51. 411514103022 Harish S

52. 411514103009 Balaji K

Scrutinial Study on Monopolizing the 53. 411514103019 Gowtham B Mr. Hari Sathish 15 Excessive Runoff of In Certain Kumar M 54. 411514103073 Santhosh K S S Locations of Kanchipuram 55. 411514103305 Krishnamoorthi R

56. 411514103008 Austin M Max

57. 411514103018 Gopiaravind A Experimental Investigation Bricks 16 Ms. Debi Linsha R using Sea Shell Powder partially 58. 411514103050 Muralidharan N Replacement of Soil

59. 411514103097 Thamizhmaran S

60. 411514103046 Mohamed Buhari S Experimental Investigation on Partial 61. 411514103071 Santhanam C Replacement of Prosopis Juliflora Ash 17 Ms. Lavanya C 62. 411514103012 Deepak V and Full Replacement of R-Sand by M- Sand 63. 411514103105 Vignesh N

64. 411514103101 Velu M

Investigation of Physicochemical 65. 411514103078 Sathish P Mrs. 18 Parameters of Ground Water Quality Priyadharshini M 66. 411514103070 Sam Surya S near Sevappet

67. 411514103024 Henson Bernald S

68. 411514103075 Saravana Kumar S 19 Ms. Binitha K S Study of an Energy Efficient Solar 69. 411514103063 Raj Kumar A Panel Tiles for Footpath in Chennai

70. 411514103059 Prakash B

71. 411514103036 Karthik R

72. 411514103080 Sehu Altaf M Utilization of Waste Foundry Sand in 73. 411514103067 Sadam Hussain I 20 Mr. M. Jayagopal Fly ash Bricks 74. 411514103091 Subikha S

75. 411514103053 Nithilesh V S

76. 411514103065 Rakesh K Study on Mechanical Properties of C & 21 Mr. B. Magesh D Waste Concrete with Partial 77. 411514103060 Prakash D Replacement of M-Sand

78. 411514103037 Karthikeyan R

79. 411514103112 Vinoth Kumar S Experimental Study on Partial Replacement of Fine Aggregate by 80. 411514103061 Praveen Kumar B 22 Ms. Dhivya K S Eggshell powder, Cow dung Powder 81. 411514103108 Vignesh V & Glass Powder

82. 411514103064 Rajuvel S

83. 411514103086 Siva Raj A Compatibility Study on Two Different 23 Ms. Deby Linsha Plasticizers with Ordinary Portland 84. 411514103054 Nizar Ahamed A Cement

85. 411514103301 Ajith Kumar K

86. 411514103068 Sakthivel D

Determination of Characteristic 87. 411514103077 Sathish B Mr. Gift Pon 24 Strength of Cement Concrete Using Lazarus D 88. 411514103082 Shailesh D K Carbon Fibre 89. 411514103083 Sharan Prasad M S

90. 411514103010 Balakumar A

91. 411514103062 Rajendiran N Experimental Investigation on Bricks 25 C. Lavanya using Red Soil, Limestone and Egg 92. 411514103081 Senthilkumaran R Shell as Replacement of Clay

93. 411514103096 Suryakumar G

94. 411514103020 Gugan Raj K

95. 411514103035 Karthick H Strengthening of Concrete Under 26 M. Ragul Tensile Loading Using Autoclaved 96. 411514103028 Jayasuriya M Aereated Concrete

97. 411514103045 Manojkumar P

98. 411514103047 Mohamed Irshath M

99. 411514103106 Vignesh S (1996-05-19) Experimental Study of Replacement of 100. 411514103055 Parithy K 27 M. Ragul Copper Slag for Fine Aggregate 101. 411514103072 Santhosh D

102. 411514103085 Sivalingam D

HoD - Civil Principal PERI Institute of Technology

Department of Civil Engineering

Academic Year 2018 – 2019 (Even Semester)

Subject Code / Name: CE 6811 Project Work Semester: 08

S. Batch Register No. Name of the Students Title of the Project Guide Name No.

1 411515103085 Sharvesh R

2 411515103089 ShreShinika G An Experimental Investigation of 1 Insufficient Ground Water Infiltration and Mr.B.Magesh 3 411515103079 Ranjith Kumar N its Improvement in Pallikaranai

4 411515103100 Vignesh M

5 411515103056 Mahadevan S

6 411515103057 Maniratnam S Experimental Investigation on Thermal 2 Conductivity and Electrical Resistivity of Mr.M.S.Gowthaman 7 411515103089 Srihari S Soil

8 411515103101 Vigneshwaran M

9 411515103003 Abiramiyazhini G

10 411515103044 Jeevitha N Removal of Hexavalent Chromium from 3 Mr.M.S.Gowthaman 11 411515103050 Kavin Romero George Waste Water Using Chitosan

12 411515103052 KharatmoleGayathrri

13 411515103012 Anandha Krishnan R

14 411515103030 Dakshana Moorthy R Experimental Investigation of CO2 4 Absorption in concrete by Using Zeolite Mr.M.Anbalagan 15 411515103022 Balaji K Powder

16 411515103049 Karthick S

17 411515103028 Boomiga N

18 411515103072 Preethi K 5 Automated Lane Extending System Dr.R.RajeshGuna 19 411515103077 Ramu R

20 411515103303 Bhavani S

21 411515103001 Aakash A

22 411515103039 Hindhumathi Y Experimental Investigation on Partial Mr.M.Hari Sathish 6 Replacement of Basalt Rock to Coarse 23 411515103307 Priya M Kumar Aggregate Santhanakrishnan V 24 411515103308 M

25 411515103093 Surya S

26 411515103013 Anirudhan R An Experimental Investigation on Partial 7 Replacement of Fine Aggregate by Dr.R.RajeshGuna 27 411515103018 Arun Kumar M Expanded Polystyrene Beads in Concrete

28 411515103063 Nirmal Kumar P

29 8 411515103301 Ajith Kumar M Experimental Study on Concrete with Dr.R.RajeshGuna 30 411515103104 Yuvaraj D Conventional Fine Aggregate Partially Replaced with Waste Plastic 31 411515103306 Karthik M

32 411515103305 Karthik D

33 411515103054 Lokesh R

34 411515103061 Mohan T Experimental Investigation on Partial 9 Replacement of Mesquite Wood Ash and Ms.C.Lavanya 35 411515103004 Ajay Kanna K Micro Silica

36 411515103024 Balaji R

37 411515103033 Dinesh M

38 411515103027 Boobalan S Soil Stabilization by Using GGBS and E 10 Mr.M.Anbalagan 39 411515103011 Akileshwaran K P GlassFibre

40 411515103051 Kaviyarasu R

41 411515103005 Ajith Kumar C

42 411515103006 Ajith Kumar D Experimental Study on Partial 11 Ms.K.S.Dhivya 43 411515103015 Aravind T Replacement of Teri Sand in Concrete

44 411515103067 Pavithra D

45 411515103026 Bharath P

46 411515103066 Parthiban M Improving the Labour Productivity in 12 Mr.M.Jayagopal 47 411515103097 Veeraselvan P Mivan Technology

48 411515103302 Basilton Immanuel G

49 411515103082 Sasi Kumar R

50 411515103091 Subash D Evaluation of Structural Properties of 13 Concrete Using Nano Silica as a CRM and Mr.B.Magesh 51 411515103105 Yuvaraj K MSand as FA

52 411515103304 Gokulnath K

53 411515103035 Faizur Rahman B

54 411515103036 Gunanidhi S Experimental Investigation on Self 14 Compacting Concrete Using Flyash and Mr.M.Anbalagan 55 411515103092 Subbulakshmi R Metakaolin

56 411515103099 Vidhya S

57 411515103016 Arunachalam R

58 411515103075 Ragul R Experimental Study on Bitumen Partially 15 Ms.C.Lavanya 59 411515103062 Narendiran G Replaced with Waste PVC

60 411515103095 Thangamuthu

61 411515103038 Hemananth C S

62 411515103042 Jaya C S Experimental Study on Partial 16 Replacement of Sewage Sludge and Alum Ms.K.S.Dhivya 63 411515103048 Kamesh S Sludge in Concrete

64 411515103055 Lokesh R 65 411515103078 Ramya Githanjali S

Experimental Study on Partial 66 411515103080 Ranjith Kumar P Mr.M.Hari Sathish 17 Replacement of Sand with Marble Dust Kumar 67 411515103102 Vigneshwaran P and Steel Fibre

68 411515103041 Jai Krishnna T

69 411515103032 Dhanasekar K

70 411515103031 Deepak Raj S Experimental Study on Partial 18 Mr.M.S.Gowthaman 71 411515103047 Kaliya Moorthy M Replacement with Bottom Ash

72 411515103010 Akash A

73 411515103071 Pravin Ajho M

74 411515103064 Nithish Raja N Experimental Behaviour Study of 19 Replacement of Fine Aggregate with Mr.B.Magesh 75 411515103096 TharveshMoheideen MSand and GGBS

76 411515103058 Manivannan R

77 411515103009 Ajith Kumar R

78 411515103019 Athish R R An Experimental Study on Concrete Using 20 Magnesium Potassium Phosphate Cement Ms.C.Lavanya 79 411515103045 JeyaRuban A blended with Fly Ash

80 411515103076 Rammohan S

81 411515103037 Hariharan N

411515103046 82 Iniyavan E P Experimental Investigation of Geopolymer 21 Mrs.S.Rajalakshmi 83 411515103090 Sriram S with E-Glass Fibre

84 411515103070 Praveen Kumar C

85 411515103081 Rathna Gowtham R

86 411515103098 Velmurugan V Strength Assessment of Green Mix 22 Concrete with Partial Replacement of Fine Ms.K.S.Dhivya 411515103088 87 Sivasakthi R Aggregate with Quarry Dust

88 411515103025 Barath M

89 411515103068 Prabhu S

411515103094 90 Tamizharasan R Experimental Investigation on Strength 23 Mrs.S.Rajalakshmi 91 411515103029 Chandra Pandian C Development of Concrete Using Coir Fibre

92 411515103083 Sathish Pandian C

93 411515103084 Selva Ganesh K

94 411515103103 Yakesh N Utilization of Pond Ash as Partial 24 Replacement of Fine Aggregate in Mr.M.Ragul 411515103017 95 Arun Kumar R Concrete Mix

96 411515103069 Praveen R

HoD - Civil Principal

PERI Institute of Technology Department of Civil Engineering Academic Year 2015-2016 (Even Semester)

Subject Code / Name: CE 6811 Project Work Semester: 08 Bat Name of the S. Topic Reg. No. Name of the Student ch No Guide No. 1. 411512103013 J.Jaya Kumar

2. 411512103022 B.Loganathan Experimental study on flyash based 1 Ms.J. Vasugi 3. 411512103027 R.Naveen ferrocement slab 4. 411512103046 T.M.Sunmuga Rajan 5. 411512103003 Arish Kumar

Experimental study on plastic brick Mr. A.Muthu 6. 411512103007 Deepak v using municipal waste and strength & 2 Krishnan 7. 411512103008 Deepak Nivas S Behavior of plastic brick with conventional brick 8. 411512103040 Sithyvinayagam 9. 411512103020 Lingeswaran M

10. 411512103038 Santhosh Shivan V K Advanced chemical curing in 3 Ms. M. Devakani 11. 411512103050 Vijay Aashithiya R S S Concrete 12. 411512103008 Prabhu 13. 411512103010 Dinesh U

Mr. A.Muthu 14. 411512103019 Laksmanan A Experimental Study on Concrete filled 4 Krishnan 15. 411512103048 Surya Moorthi A steel tubular columns 16. 411512103301 Ashik Mustafa 17. 411512103006 Bala gobal S Experimental study on PCM modified 18. 411512103055 D. Yuvaraj 5 Ms.R.Poornima roof tiles to achieve comfortable indoor temperature 19. 411512103017 Kishore kumar 20. 411512103022 Manish vivek kennedy

21. 411512103047 Suresh kumar Mr.Rajalakshmi Experimental Investigation on 6 concrete: Partial replacement of coarse 22. 411512103701 Pradeep kumar aggregate with electronic waste 23. 411512103076 Saravanan E 24. 411512103027 Amal kumar M

25. 411512103039 Stalin A The effect of polymer fly ash 7 Ms. R. Elakya stabilization on the unconfined 26. 411512103114 Vigneshwaran M compressive strength of clayey soils 27. 411512103304 Karthick 28. 411512103042 Siva Subramani K

Mr. A Ranjith 29. 411512103041 Sivakumar R Experimental study on light weight 8 Kumar 30. 411512103053 Vinoth Raj N high strength concrete

31. 411512103045 Sudharshan 32. 411512103026 C Nandhini

Mr. J Ranjith 33. 411512103043 Sruthi C Study on schedule delay analysis of 9 Kumar 34. 411512103052 Vinoth Kumar A building interior and finishing work 35. 411512103302 Debi Riba

36. 411512103005 B.Aruna

Mr. K Suresh 37. 411512103029 P Nirmal raj Study on 3D Printing in Construction 10 kumar 38. 411512103030 K C Parkadhe Anibal Industry 39. 411512103307 Nithya M

40. 411512103023 Manikandan M

41. 411512103032 Pragadessh M Ms. R.Elakiya Studies on the enhancement of sub 11 grade stabilization using flyash 42. 411512103033 Praseetha K reinforced with geo textile 43. 411512103037 Sankara Narayanan J

44. 411512103028 Naveen kumar M

45. 411512103031 Perumal A Strength and behavior of aerated 12 Ms. Poornima 46. 411512103054 Vishnu G concrete 47. 411512103306 Manikandan K

48. 411512103004 Arun M

Mr. J. Ranjith 49. 411512103009 Dhanusha D A study on risk management in 13 Kumar 50. 411512103011 Giridharan K R building construction 51. 411512103015 Karthika Laxmi J M.Devakani Biosorption – A solution to pollution 52. 411512103014 Jothikumar K 14 case study on colour removal using biosorption method 53. 411512103001 Ajay Sadhasivam S

54. 411512103034 Radhakrishnan P Experimental Investigation of dual 15 Mr. J. Ranjith Acoustic Property Material 55. 411512103012 Jayaavignesh T Kumar 56. 411512103014 Jothi Kumar K 57. 411512103016 Karthikeyan M

58. 411512103025 Nafshala Shalini J Mr. A.Muthu “Applications Of Quantified And Cost 16 59. 411512103035 Raghavasampath D Krishnan Of Building” 60. 411512103303 John Henry Brown J

PERI Institute of Technology Department of Civil Engineering Academic Year 2014-2015 (Odd Semester) Subject Code / Name: CE 6811 Project Work Semester: 08 S. Batch Name of the Reg. No. Name of the Student Topic No No. Guide 1. 411511103009 Jayagandan.N

2. 411511103015 Makendran .K 1 Ms.A .Muthu Design of dwelling House 3. 411511103024 Romi Divine. RM Krishnan 4. 411511103006 Dwarak Yogey.J

5. 411511103011 Karthik.M

Study on concrete debries as a partial 6. 411511103029 Sriram.B 2 replacement of fine aggregate in Mr. 7. 411511103031 Vengadesh.G.S concrete P.Ramachandran 8. 411511103302 Ajaikumar S

9. 411511103014 Kaviarasan.P Experimental Investigation on Partial 10. 411511103317 Saravana Baskar B M.Devakani Replacement of Fine Aggregate by 3 11. 411511103320 Veena G Polystyrene Beads.

12. 411511103018 Nasurudeen. M

13. 411511103020 Pavan Kumar.A

14. 411511103306 Kanniyappan S Strength Investigation of Carbon Nan 4 Ms. R.Elakiya tubes on the Properties of Concrete 15. 411511103304 Dilli Babu A 16. 411511103023 Rajeshkannan

17. 411511103316 Sarathkumar T Experimental Investigation of Fibre 18. 411511103033 Vijay.K Mr. J. Ranjith reinforced Concrete Self Compacting 5 19. 411511103313 Premkumar S Kumar Concrete

20. 411511103035 Vinoth Kumar.V

21. 411511103025 Sakthivel. B Experimental Investigation of Marble 22. 411511103312 Prem Kumar R Powder as a Partial Replacement of 6 Ms. Poornima 23. 411511103027 Sathya.K Fine Aggregate

24. 411511103319 Sujatha R

25. 411511103303 Athi Ilavarasan S Experimental Investigation on 26. 411511103307 Karthick P M.Devakani Concrete with Using E-waste and 7 27. 411511103305 Ganesh Raj C Marble Dust

28. 411511103309 Kaviyarasan D

29. 411511103003 Bhuvaneswari.M Experimental investigation on use of 30. 411511103010 Josiah Raja Mr. J. Ranjith different organic wastes for 8 31. 411511103022 Prem Kumar. V Kumar production of bio gas

32. 411511103301 Aarthy B 33. 411511103007 Ganeshkumar.E Experimental investigation on 34. 411511103322 Vivekanandan S Modular Construction 9 Ms. R.Elakiya Experimental study on plastic roads. 35. 411511103017 Narasimhan

36. 411511103030 Syed Abdul Amen

37. 411511103004 Charles Experimental investigation on 38. 411511103021 Praveen Emmanuvel Stabilization of Subgrade Using Geo 10 Ms. Poornima 39. 411511103026 Sarathbabu Synthetics

40. 411511103308 Karthikeyan R

41. 411511103701 Sri Ganesh Kumar Experimental investigation on Use of 42. 411511103012 Karthikeyan. M Ms.A .Muthu Steel Slag in Construction of Flexible 11 43. 411511103016 Manjunadhan Krishnan Pavement

44. 411511103028 Solanki Bharatsingh

45. 411511103005 Dinesh Kumar Study on Drinking Water Quality 46. 411511103013 Karthik.G M.Devakani 12 Standards Study in and Around

47. 411511103310 Parthasarathy S Chennai 48. 411511103314 Ramesh E

49. 411511103318 Sathishkumar D A Study on Effect of Pollutants on 50. 411511103315 Santhana Krishnan K Mr. Land and River due to Discharge of 13 51. 411511103032 Vigneshkumar.V P.Ramachandran Paper Packaging Factory Waste Water

52. 411511103019 Parthasarathi.S

53. 411511103008 Giffin.P.B.

54. 411511103311 Praveenkumar R Sampling and Analysis of Industrial 14 Ms. Poornima Waste Water and Reuse 55. 411511103034 Vijaya Kumar. S 56. 411511103321 Vinoth R

TECHNOLOGY INSTITUTE OF PERI Electronles Engineering Electrieal and Departmem of PROJECT REPORT Acadenmic year2018-2019 PROJECT WORK: EE6811 DESCRIPTION_ PROJECT TITLE YEAR/BRANCH: IV EEE GUIDE NAME STUDENT NAMEL S.Ne BATCH REG NO SMART DUAL-AXIS The main objective of this project 41151510S033SOWMYAS. SOLAR TRACKIN is to implenent is that if the LD

ENABLED WITH is failed it can automatically 411515105040 YOGEETHA S Dr. KC. Jayasankar sensor record previous cONTINGENCY access with the

APPROACH 411515105022 MERCY PETRICIAM ofan Arduin It is a novel design PERSONAL HEALIHBased System collaboraling nc 41151S10S003 ANISH KUMAR G necds of, CARE MONITORING basic health monitoring not only a patient, but any SHANKAR Dr. KC. Jayasankr SYSTEM USING 411515105032NARAYANANV ARDUINO individual person

is one a11S15105011 DINESH KUMAR M waste anagement ol GARBAGE |Solid SMART that has lo bo major aspect COLLECTION FOR Considerod for nwking our 411515105021 MANISHA M MUNICIPAL SOLID Ms. S lakshmi cnvironment healthier WASTE 411515105015 KAMALI GL

control is to The am projecl SMART HOME BY of voIce KUMAR S hone appliaices by 411515105013 HARISH USING vOICE Ms. S. Lakshm using Googlc assistant RECOGNI TION conuands 41 151S105020MANIKANDAN R

41 1515105029RAJALINGAM K

the solar In order lo oplumize 411515105026 NTROCINE G PV Fed photovoltaic (PV) generaled Single Stage brushless DC motor a max1mum power power using VTNOTHINI G point tracking (MPPT) 41151510S037 Ms SL Srecdevi driven industnal

Applications technique.

411515105019 MALARVZHIS STATIC AND the ctliciency In order to improve DYNAMIC 411515105005 BALASUBRAMANIAN dynamuc and static charging AUTOMATIC of vehicle 41151SIO5O10 DINESHT MsSL Sreedevi of electrie WIRELESs CHARGING system ELECTRIC VEHICHILE

is to the project The of nuuzeaun lhe qucue at the 411515105304 SUNDILARAMOORTH PREPAID ENERGY aik to 034 HANUJAA S clectneity billing counlers A1519 METER WITH GSM| restnict the usage of electrcly KUMAk VN TECHNOLOGY AND N Pnya aulonalcally, if the bull is not 4l 1515i05025 NARESH 1O1 a 411515103K DINESHP

KUTE M.E.,Ph.D. Dr.R. PALSON KENNEDY, TE PRINCIPAL CHENNA TECHNO01nv PERI IMSTITUTE OF 6000 atk kam, Chennai-6t 143d 411515105006 DANTEL JONES IS 411515105028 RAGAVAN R_ A Modular Multi-Level A modular multi-evel converter converter tor Optimal with conparative study betwecn

Ms. N. Prya Power Flow Control intwo MPPT algoithms used lor Grid Connecled PV optimal power low control in a 23 411515105012 ELAYNCHEZHI YANNK System small grid connecled PV 5ystem.

411515105014 |HARISH RAJS_ A MODIFIED SEPIC 24 BASED DC-DC A new Modilied Single Switch 411515105007 DANUSH ADHITHYA N CONVERTER USING Single Ended Primary Inductor Converter (MS2-SEPIC)>based Mr. D. Sathyaraj QUASI RESONANT OPERATION FOR high step-up DC-DC converter is RENEWABLE ENERGY presented. APPLICATION 411515105018 LESSLEE NEW BEHAN 411515105027 PRADEEP KUMAR K_ The proposed system includes 411515105002 AKESH M smart helmet where in the Ik is cnabled when the Design and scnsor only implenentation deteclor Mr. D. Sathyaraj helmct is on, Aleohol 10 helmel system put ofsnxart IS uscd to sense whelher biker rider doesn I drink. 411515105039 |VISWESH.K

L411515105017 KSHORE BABUC_ serves as a CTO-converter 411515105030 RAKESH.R A High-Eliciency Hybrid front-cnd dc-dc slage ol Kesonant Converter With microinverter to convert the Mr.P.SundaraMr.P.Sundararaman lor raman Wide-Input Regulatiorn power from a photovollaic mouu Photovoltaic Applications 0 a dc bus.

411515105303 KARTHICK KANNAN 411515105016 KEERTHANA S The aim of the project is to detcct the fault and locating it . Quick UNDER GROUNDfault detection can help prolcct tne FAULT DETECTING cquipment by allowing the Mr.R. Tamilamuthan AND LOCATING USIN disconnection of laulted ines 411515105038 VISHNU PRIYA B 1OT belore any signilicant damage of

the cquipment

411515105301 BAAMURUGAN DESIGN OF FAST CHARGING 36 411515105302 HUSSAIN TECHNIGUE FOR The resonant de-dc converter ELECTRICAL an on board CHARGING proccdurelor Mr.R. TamlamuthanVECHICLETamilamuthan VECHICLE ARO baltery charger of a plug -in 13 |STATIONS WITH GRID hybrid electrical vehicle(PHEV). TIED CASCADED H- BRIDGE MULTILEVEL CONVERTER 411515105024 NARESHN 411515105004 ARUMATIAS KS Implementation of single In this paper, an Improved 411515105035 G. VUAY transformer less single-phase phase inverter using single stage for solar energy single-stage grid-tled îlying 411515105036 VWAYN inductorinverter is presented. MrPSivaperumal usingMPPT A SOFT-SWITHING 411151O023 NANDARUMAR K BIDERECTIONAL DC-DC The battery super capacitor hybrid energy storage system CONVERTER FOR THE (BSHESS) applied to the electric

BATTERY SUPER vehicle (EV) or the hybrid electric 41 1515105031 KiSHWAN M CAPACITOR HYBRID 42 STORAGE SYSTEM| vehicie MiPSvaperumelJENERGY

HOD/EtE PROJECT COOKDINATO

OF1ECA KENNEDY, M.E.,Ph.D. DI.R. PALSON PRINCIPAL 009 ero TECHNOIngY D IYNNH INSTITUTE OE ERI Cheana i Man lm, SNI43d International ICIRCC'19 Conference on Informatics , Robotics, Construction & Communication

EEINO01- PERSONAL HEALTH CARE MONITORING SYSTEM ARDUINO USING Anish kumar.G', Dinesh kumar.M', Shankar narayanan.V",K.C.Jayasankar 12UG Scholar, Electrical and Electronics Faculty of Electrical and ElectronicsEngineering. PERI Institute [email protected], '[email protected],of Technology shankarnarayananl [email protected]@peri.ac. in

Abstract-- Modern Electronic devices and has a Biometrics. From technologies served lot to reduce the constraints in the basic thermometers to field of digital complex MRI scanners, advancement. various Electronics has helped in every Although Health are and centred Monitoring Systems widely available nowa days, are both cost ineffective to use only on The they the idea this patients. need fora Personalized Health of paper. It is a novel an Monitoring System provoked design of Arduino Based System the basic health needs of, not only a but collaborating monitoring patient, any individual It will basic measurenent person. provide body check-up such as of body temperature, heart visual facilities rate, acuity, hearing level, BMI, blood level and ECG at ease home. The height, weight, glucose of one's processing of data is carried out with user using Arduino. The system is to be designed friendly, non-invasive sensors and interactive results. components, interface and report generation based on Keywords- Personal Health Monitoring, Biometrics, Non-invasive measurement.

EEINOO2 - PREPAIDENERGYMETERWITH GSMTECHNOLOGYAND IOT P.Dinesh',V.Nareshkumar ,S.Thanujaa', N.Priya 2UG Scholar, Electrical and Electronics Engineering, Faculty of Electrical and Electronics PERI Institute of Technology [email protected], '[email protected], "[email protected], "priyal [email protected] ABSTRACT----The aimofiheprojectistominimizethequeueattheelectricity billingcountersandtorestricttlhe usageofelectricityautomatically,ifthebillis notpaid. Theprojectalsoaimsatproposingasystemthawillreducethetoss of powerandrevenueduetopowerthefts andotherillegalactivities. Thework systemadopts atotally new conceptof "Prepaid Electricity". The GSM technology is usedsothatthe consumer would receive messages about the consumption ofpower (in watts) andifitreachestheminimuumamount, it wouldautomatically alertthe consumertorecharge. The systemisfully Internet of Things (10T) based andhighlydesirubleinjfieldofenergy. Intihissystemconsumercando power munagement by knowing energy usage time to time.

Keywords-- Prepaid Electricity: power management; queue at theelectricity billing.

FH.. .R.PALSON KENNEDY, M.E.

PRINCIPAL

Pr: STITUTE OF TEC dAKam, Chenn . ICIRCC'19 International Conference on Informatics, Robotics, Construction & Communication EEINO03 - UNDER GROUND FAULT DETECTING AND LOCATING USING IOT

S.Keerthana', B.Vishnupriya", R.Tamilamuthan

UG Scholar, Electrical and Electronics Engineering Faculty of Electrical and Electronics PERI Institute ofTechnology [email protected],[email protected], "[email protected]

the detection can help protect Abstract----The aim is to detect and locating it. Quick fault of the project the fault The disconnection lines any significant damage of the equipment. allowing the of faulted before the equipment by and locate the areas where can remove persistent ofthe faults location help utility personnel The accurate fault and minimize the time outages. occur, thus the occurrence fault of power faults regularly reducing of and maintenance a transmission lines is essential to the protection of detection and location on power of faults electrical provided by detection and location relate to the measurements of quantities power system. Thefault receive alert messages with so the would sensors. The GSM is used that personnel current and voltage technology transmission based which helps in real time monitoring of location. The system is fully Internet of Things (107T) and distribution cables.

Sensors. Keywords--IOT, Relay, Arduino Microcontroller, GSM,

converter Power Flow Control EEINO04 A Modular Multi-Level for Optimal in Grid Connected PV System

L.S.Daniel Jones', K.Elaynchezhihan", R.Ragavan, N.Priya* UG Scholar, Electrical and Electronics Engineering Faculty of Electrical and Electronics PERI Institute of Technology [email protected], [email protected] [email protected], ragavanrajaram priyal [email protected]

used with between two MPPT algorithms A modular multi-level converter comparative study ABSTRACT---- has two connected PP The proposed inverter module, upper control in a small grid system. for optimal power flow inverter. The inverter compares with non- sub module based on muli-evel newly modified sub module and lower Conductance Perturb & Observe (P& O), and Incremental (IC). MPPT (Maximum Power Point Trucker),

Observe P&O;lneremental Conductane (IC). Keywords----MPPT; Perturb &

IUT CHENNA KENNEOY, M.E.. Ph.n. 600 043 0M. PALSON PRINCPAL ERS7I7!JTE D TrGHNOLOG

hennai-600 046, C PannivGhkit. International ICIRCC19 Conference on Informatics, Robotics, Construction & Communication EEINO05 - SMART DUAL-AXIS SOLAR TRACKING CONTINGENCY APPROACH ENABLED WITH Mercy Patricia.M', Sowmiya.R, Yogeetha.S', Dr.K.C.Jayasankar* 2 UG Scholar, Electrical and Electronics Engineering. Faculty of Electrical and Electronics PERI Institute Engineering. [email protected],'[email protected].'[email protected],2 of Technology [email protected] Abstract----The main goal of this is to project develop and a based on a implement prototype two-axis solar system ARDUINO microcontroller. The of tracking feed diameter to parabolic rflector or parabolic dish is constructed around two capture the sun's energy is by tracking light with the help of LDR sensor. the reflector theoretically calculated down to an The focus of parabolic can infinitesimally small point to monitored and data can be stored get extremely high temperature. This through 10T. This two axis has also using Arduino microcontroller. The auto-tracking system been constructed programming is used to The language interface the Arduino with automatic solar tracking system. light sensors are (LDR) used to track the sun and to start the operation). Time are used operation (Day/Night Delays for stepping the motor and the solar is reaching original position of the reflector. The tracking system constructed with both hardware and software implementations. Maximum Power Point Tracking(MPPT) is also implemented to the improve electrical power generation. The the and the parabolic reflector are designs of gear carefully considered and precisely calculated and all the data The main will be uploaded automatically. objective of this project is to is that automatically access with the previous record. implement if the LDR sensor is failed it can

Keywords- Two-axis solar tracking, Arduino, LDR, MPPT.

EEINO06- SMART HOME BY USING VOICE RECOGNITION

R.Manikandan' , J.Rajalingam , S.Harishkumar', S.Lakshmi 123UG Scholar, Electrical and Electronics Engineering. "Faculty of Electrical and Electronics PERI Institute of Technology '[email protected], '[email protected], "sonukevin, [email protected], "[email protected] ABSTRACT---The aim of our project is to control home appliances by voice commands using Google assistant. User sends a command through speech to the mobile device, which interprets the message and sends the appropriate command to the specific appliance. The voice command given by the user is interpreted by the mobile device using Google ussistant. In this home automation appliances like light, Fans are used which can be controlled easily using the Google assistant from the voice commands. As the user give the voice command to Google assistant according to that the home appliances can be switched ONOFF accordingly.

Keywords**- Smart home;Google assistant;control appliances by voice commands

Dr.R. PALSON KENNEDY, M.E.,Ph.0. CHENA PRINCIPAL PERI INSTITUTE OF TECHNOLOGY Mannivakkam, Chennai-600 046. ICIRCC'19 Construction & Communication International Conference on Informatics, Robotics,

AUTOMATIC WIRELESS EEINO07- STATIC AND DYNAMIC CHARGING ELECTRIC VEHICHLE

N.BalaSubramanian",T.Dinesh',U.Sundaramoorthi',S.L.Sreedevi

2 UG Scholar, Electrical and Electronics Engineering, Faculty of Electrical and Electronics Engineering, PERI Institute of Technology '[email protected] "[email protected], [email protected], '[email protected],

vehicle . and static charging system of electric the efficiency of dynamic electric Abstract---In order to improve and charging when are parked dynamic can wirelessly they charging electric vehicles charge charging system. Stationary lid magnetic core improve dynamic while are in motion. Using type vehicles can charge they wireless charging. PLC automation system in dynamic Power loss will be reduced using

Charging, Static Charging. Keywords--- Electric vehicle, Dynamic

for solar inverter single stage of phase using EEINO08 - Implementation single energy using MPPT Arumathias.J.K.S', Vijay.G',Vijay.N", P.Sivaperumal

123 UG Scholar, Elecirical and Electronics Engineering Electronics Engineering. Faculty Electrical and ofPERI Institute of Technology "[email protected] 'vijaysanó[email protected], "[email protected] [email protected], inductor single-phase single-stage grid-tied flying transformer less topology, In this paper, an improved is grounded in the improved Abstract--- photovoltaic (PV) array terminal has buck-boost capability The negative of the The topology inverter is presented. the current. proposed and suppresses leakage An improved control algorithm increases reliability and hasa efficiency. which componenis high A number required losses has been investigated. without increasing the of decreases switching which to the proposed proposed topology algorithm has been adapted Sor proper operation ofthe tracking(MPPT) observation maximum power point MPPT. and controllers, for the purpose ofthe perturbation proportiona-integral (P) not utilize inverler, which does

Losses. Inverter, Photovoltaic, Switching Grid-tied Flying Inductor Keywords-

EOFT HENNAIECHN 600048 .R. PALt SON KENNEDY, M,E..Pin PRINCPAL ICIRCC'19 & Communication Robotics, Construction on Informatics, International Conference USING DC-DC CONVERTER MODIFIED SEPIC BASED EEINO09 - A ENERGY FOR RENEWABLE RESONANT OPERATION QUASI APPLICATION

A.Lesslee', D.Sathyaraj" N. Danushadhithya', S.Harishraj", Electronics Engineering, 125UG Scholar, Electrical and and Electronics "Faculty of Electrical PERI Institute of Technology [email protected],, [email protected], "[email protected]

[email protected]

(MS2-SEPIC)-based Comverter Inductor Ended technique Switch Primary (CL) Single Single the coupled-inductor Abstract----A new Modified topology uses loss has The proposed Here, the switching DC-DC converter is presented. the converter. the step-up gain for circuit created by high which result a high voltage rectifier quasi-resonance operation of the state and a voltage tripler to the and steady because owing principles reduced significantly ofthe The operational been with circuit capacitors. the validity f the CL along prototype verify inductance of 100W laboratory leakage results based on a discussed. Experimental analysis are theoretical analysis. SEPIC converter. quasi-resonance operation, Keywords---High step-up,

industrial DC driven PV Fed brushless motor EEINO10- Single Stage Applications

S.Malarvizhi',G.Nirocine,G.Vinothini, S.L.Sreedevi

Engineering and Electronics Scholar, Electrical 12UG and Electronics Faculiy Electrical of Technology PERI Institute of "[email protected] [email protected], [email protected] maximum power [email protected] using a (P) generated power water pumping the photovoltaic in solar PVfed order to optimize solar required ABSTRACT----In conversion stage is usually increased cost, size, DC-DC leads to an a conversion stage technique, PV (MPPT) motor. This power solar energy tracking a stage point brushless DC (BLDC) addresses single control a this work driven solution, comversion A simple which is by As a unique DC-DC stage. reduced efficiency. eliminates the inverter (VSI), and which source complexity motor-pump, common voltage a BLDC sensors. No power using a current conversion feeding at its system solar PV array peak BLDC motor phase the eliminates the controlled operating control The is technique capable of The proposed its start. speed motor control. and soff BLDC control motor-pump through its is proposedfor 1he speed of system manifested control is associated for proposed is validation on a supplementary The suitability of experimental PV array. resulis and power of solar through the optimum MATLAB/Simulink based simulated evaluation using conditions. performance the pructical operating prototype, under developed PV Brushless DC motor, Array. Tracking, Maximum power point Keywords

M.E.Ph, D., Ur.R. PALSON KENNEDY, ECH PRINCIPAL TECHNOLNy INSTITUTE OF PERIMannivakkam, Chennai-600 0w. ICIRCC'19 Communication Robotics, Construction & International Conference on Informatics,

CHARGING TECHNIGUE FOR - DESIGN OF FAST EEIN011 GRID-TIED CHARGING STATIONS WITH ELECTRICAL VECHICLE MULTILEVEL CONVERTER CASCADED H-BRIDGE

N.Naresh, R.Tamilamuthan N.BalaMurugan', A.Hussain,

Electronics Engineering. 123UG Scholar, Electrical and Electronics Faculty of Electrical and PERI Institute of Technology [email protected] [email protected], [email protected]

[email protected]

of a plug in- hybria an on board battery charger de-dc converter design procedure for load in Abstract----The resonant the characteristics battery resistive load application, of a Unlike traditional converter and the electrical vehicle(PHEV). an LLC based on features of validated related to the charging profiles. the and nonlinear and highily methodology is proposed step-by-step design Li-ion profile , the charging duration for characteristics charging constant on a charging of the can increase the based on a estimmated parameters station which is ,the ona through experiments are conducted charging speed is improved, experiments batteries so the charging charging technique. converter to validate the proposedfast H-bridge resonant polarization parameters, vehicle charging station, cascaded H-Bridge, electrical Keyword-Fast charging, internal resistance.

MUNICIPAL SOLID COLLECTION FOR GARBAGE - SMART EEINO12 WASTE G.L.kamali, M.Manisha, S.Lakshmi

Electronics Engineering Scholar, Electrical and UG Electronics Faculty of Electrical and Institute of Technology [email protected],PERI "[email protected], "[email protected]

our that has to be Considered for making is one of major aspect Abstract----Solid waste management such temperature position of carried out considering many factors has been sensor, ultrasonic vironment healthier This project Various seusors such has gas en . in the dustbin. In level the garbage and the Dustbin. Dustbin, sensing gas, of the garbage, fire position of the of sense the gas, level of sensor are used to this sensor and IR GSM are used. Finally project sensor, fire 10Tand accurate measurement parameters, 10T. of vironment with the concept of solid waste managementfor also makes our en hygienic healthier und clean. t makes our environment measurement of parameters-sensors-accurate environment healthier-sensing Keyword --Making our

UTE

CHENNA

600 048 C.PALSON KENNEDY, M.E.. Pn,li. LOG PRINCIPAL E0 STITUT 0F TECHNN'GG7 ICIRCC'19 Construction & Comumunicatio Rohotics, on Informaties, Internattonal Conference

Wide-Input Converter With Resonant High-Efficiency Hybrid EEINO13 A Photovoltaic Applications - for SUNDAR RAMAN Regulation R.RAKESH", KANNAN?, P. E.KARTHICK Electronics Engineering C.KISHORE BABU', Electrical and UG Scholar, Electronics 2 Electrical and Faculy of Technology 'rakesh1998agmail.com, Institule of

PERI'[email protected],

[email protected], a kishorethelegand1 "sundararaman72agmail.co convert the powerfrom microinverter to wide-iuput de-de stage of a high-boost ratio, serves as front-end isolution, micro-coverter a modes mnicro-converters require hylbrid of Abstract--- A converter with resonant bus. front-end isolated converter is module to a de These introduces an This The proposed photovoltaic efficiency. paper efficiency. modes: a and high high additional regulation, while still maintaining under two voltage regulation resonant wide-input and operates conventional to achieve nominal-input voltage Unlike operation converter with voltage. resonant with high-input the design as a series converter simplifying designed and a buck fixedfrequency, voltage mode with swilching converler with low-input conduction a zero-current boost discontinues and/or diodes operates at (ZVS) this converter zero-voltage switching and ZCS ofoutput converters, can achieve MOSFET's, this converter secondary-side 98.1%. In addition, the efficiency and control. and/or ZCS of achieve a peak of MOSFETs, ZVS prototype ofthe primary-slde results using a 300-W (ZCS) conditions. Experimental converter; under all operating resonant operation; series hybrid mode converter; requirements; Keywords--- Micro or ZCS. conduction ;ZVS discontinuous

of smart helmet system and implementation EEIN014- Design M.Akesh',K.Pradeep kumar,K.Viswesh', D.Sathyaraj*

and Electronics Engineering 12UG Scholar, Electrical and Electronics Faculty of Electrical PERI Institule of "Technology "[email protected] [email protected], [email protected], visweshl [email protected] and cause death health problem and a leuding of are a major public crashes, and millions Abstract---Road traffic injuries a result 1.2 million people die as of road Euch yeur nearly and brain injuries by around the world. the risk head injury aims to reduce of serious where disabled. A helmet includes smart helmet are or system more injured the head. The proposed or collision to sense whether biker the impact ofa force Alcohol detector is used to reducing the helmet is put on, enabled only when Print Sensor, alcohol sensor, in the IR sensor is like Finger also incorporates other features added drink. This system The 1OT techniques has rider doesn't serve us the rider aids. and GSM . mems Sensor Such features to send the messuge any sensor, und GSM has used if IR the people monitor a vehicle of respective in this systems to above puramelers. changes occurred in the Sensor and GSM IR sensor, mems detector, 1OT techniques, Keywords-- Alcohol

HENNAT GGO 018 Dr.R. PALS0N KENIVEDY, MLRAi.. PERI INSTITHTEPRINCHPM Mannivakk2), dhannaiifilyOF MEOAND:T w PERI INSTITUTE OF TECHNOLOGY Department of Elcctrical and Electronics Engineering BEST PROJECT - DATE:16/04/2019 YEAR/BRANCH: IVEEE PROJECT WORK: EE6811 BATCH:2015-2019 S.NoBATCH REC NO_ STUDENT NAME GUIDE NAME PROJECT TITLE REMARKS RANK 411515105003ANISH KUMAR G_ VTUUCTI DIeCroC uerTCeS ad technologies has served a lot to reduce the 411515105032 SHANKAR constraints in the field of Biometrnics PERSONAL HEALTH NARAYANAN V From basic digital thermometers to CARE MONITORING Dr. KC. Jayasankar complex MRI scanners, Electronics has FIRST SYSTEM USING helped in every advancement. Although ARDUINOo 411515105011 DINESH KUMAR M various Health Monitoring Systems are wdely available now a days, they are The arnt or8tt projecrist6 cöítrot nömet appliances by voice commands using SMART HOME BY Google assistant. User sends a command Ms. S. Lakshmi USING VOICE through speech to the mobile device, SECOND 411515105013 HARISH KUMAR S RECOGNITiON which interprets the message and sends 411515105020 MANIKANDAN R the appropriate command to the specific 411515105029 RAJALINGAM K_ apaliangeTheaicecommandranne am or the projeci is to minimize h 411515105034 THANUJAA S the queue at the electric1ty billing PREPAID ENERGY 411515105025 NARESH KUMAR VN counters and to restrict the usage of 3 Ms. N. Priya METER WITH GSM THIRD automatically, bill is not 411515105009 TECHNOLOGY AND IOT| ecricity if the DINESH P paid. The project also aims at proposing a Lsvstem that will reduce the loss.of nower L

PROJECT COORDINATOR HOD/EEE

DR. PA1SON KEOF KATNEY ..:..

CHENNA 600 042ECH AA, nai.h P6. 3 ICIRCC'19 Tnternational Conference on Informatics, Robotics, Construction & Communication EEIN015 - A SOFT-SWITHING BIDERECTIONAL DC-DC CONVERTER FOR THE BATTERY SUPER - CAPACITOR HYBRID ENERGY STORAGE SYSTEMM M.Riswan', P.Nandha kumar, P.Sivaperumal° UG Scholar, Electrical and Electronics Engineering Faculty of Electrical and Electronics Engineering, PERI Institute of Technology [email protected], '[email protected]. '[email protected] Abstract-The battery super-capacitor hybrid energy storage system (BSHESS) apptied to the electric vehicle (E) or the hybrid electric vehicle (HEV), the bidirectional DC-DC converter (BDC) is the key component to controlthe energy flow between the battery and the super-capacitor. To reduce the internal energy loss of the BSHESS, the efficient BDC with soft-switching characteristics is the best choice. In this paper, through analyzing several existing soft-switching BDCs, a new coupled inductor based soft-switching BDC is proposed. This BDC has a Simple stucture without any auxiliary switch and can provide soft-switching conditionsfor both switches without additional control signals. In order to provethe feasibility of the proposed BDC, experimental results, which are obtainedfrom an experimental prototpe, are presented Experimental results show that soft-switching conditions of both switches of the proposed BDC are achieved.

Keyword--Soft-switching, DC/DC converter, zvs, coupled inductor, HESS

Qr.B.PALSON KENNEDY, M.E..Ph.D. NSNUTERtRINCIRAL OF FECHNOLOSY MvyAkEL13. GHEapei-600 046. PERI INSTITUTE OF TECHNOLOGY Department of Electrical and Electronics Engineering PROJECT REPORT YEAR/BRANCH: IVEEE |PROJECT WORK: EE6811 Academic Year 2017-2018 S.No BATCH REG NO STUDENT NAMEGUIDE NAME PROJECT TITLLE DESCRIPTION_ 411514105002 M. ASHEEK ALI 411514105022 M0HAMMED VAHID ELECTRONIC FILTER FOOR MEERAN HARMONIC Harmonic mitigation in medical research centre. In F.RUBY VINCY R MITIGATION IN A huspitals clectonic filter for harmoies mitigation to MEDICAL improve power quality. 411514105025 A. MUDASSIR AHMED RESEARCH CENTT

AnCgig TreTa ii TVTaCme TO TVTICTIE 411514105012JAYAVEL G communicalion is Internet ot Things (IO1 ), which allows the possibility loraulonomous devices io use 411514105020 MADHANDANI B INTERNET OF the Internet for exchanging data. This work presentS THINGS BASED design and exccution of real time monitoring and REAL TIME fault detection in transformers by recording Key distribulion transformer Mrs.K.SUJATHA TRANSFORMER 0peration indicators of a like load current, voltage, transformer oil PERFORMANCE which is Sent to MONITORING temperature and gas composition, an online server with the help of an 1OT module. 411514105045 VISHAL VIJAYKUMARV SYSTEM Through this project, we aim to minimize working cfforts and inprove the transformer fault detection 411514105304 LOGAPRAKASAM.C DESTUN ANDPOWer Sentraty Tequired tor the teveopihent or ANALYSIS OF any country. To mainlain the generation of electrie has to be 400/110 KVV power at adequatc level the power transmited in proper form and quality to the Mr.P.ELANGO ELECTRICAL consumer. This research paper deals wilh the 411514105016 KAVIN KUMAR G SUBSTATION 10 kV substation in ElcctriIcal 411S14105027 NISHANTH G BASED ON LOAD simulation of 400/1 (ETAPwiih detailcd OWANALYSISransient AnalyZer Prouram 10 411514105040 SURYA PRAKASH K in Photovoitaic storage is usuaily employed Banery fluctuations lue 411514105011JAMESA (PV) system to mitigate the power CONTROL AND to the characteristics of Py pancis and solar 411514105038 SELVARAJ M POWER 411514105043 ViGNESH N MANAGEMENT irradiance. Control schemes tor PV-baltery systems as well as must be able lo stabilize the bus vollages D. SCHEME FOR PV- Mr. SATHYARAJ BATTERY-BASED | tocontrol the power flows flexibly. This puper

proposes a comprehensivc control and power HYBRID 4 MICROGRIDS FOR |management system (CAPMS) for PV-battery-bused with both AC and DC buses. lor | 411514105308 PRASANTHJ BOTH GRID- hybrid micro grids proposes a new single-phase l1-Bridge FED proect for 411514105004 BALAMBIGAI M SOLAR QUASI less inverler with common ground UCKunsrormer 411514105018 LAVANYA E SWITCHED BUCKorid conncctcd photovoltaic systems (here atcrt is BOOST The inverter 'Siwakoti-H inverter). Ms. N. PRIYA SIWAKOTI-H Calledthe principle of nying capacitor and consist of unly | INVERTER four power switches (two reverse blocking IGBT's | (RB-IGBT) and two MOSFET'S), a capacitor and a IS 411514105033 SANGARI S ARTIFICIAL Residential solar photovolltaic (PV) energy ot the 411514105008 DAFNEY RUBAVATHI S NEURAL becoming an increasingly important part solar PV is NETWORK FOR cnergy. A Residential array renewable A to the distribution through 19 411514105013 KALAIARASIS CONTROL AND sually connected grid Single-phase inverter. Control ot the siigle-phise GRID the from Mr.K.MUTHUKUMA| INTEGRATION OF|PV system should maximize pOwer output the PV array while ensuring overall system 20 RESIDENTIAL pertormance, salety, reliability, and controlkability 411514105017 KOwSALYA A AR This paper has PHOTOVOLTAIC |or interface with the electrcity grul. develop| SYSTEMS main objectives. the first objective is to 21 411514105028 NITHYA R twoA solar plhotovoltac (SPV) powered brushless D 411514105005 BALAMURUGAN P SOLAR PV (BLDC) motor drive lor waler pumping is presentel motor current sensors of BLDC 411514105007 CHOZAVARADHAN G POWERED BLDC in thus puper. The 4T1514105044 VIJAYAKUMAR S MOTOR DRIVE and the volage sensor al the DC bus of voltage ARUN SHANK FOR WATER Source verler ( VSl) are elinUMed conpieteiy PUMPING USINCG the DC contrvlled by ljustung VERTERste.u, uie speel s CUK CONVERTER | bus vollug 25 411514105305MOHAMEDAMEEN M operalon Proporlioal mlegral (PD is crucal Tor the lll desg ol moulen clectuc puwer systens AUTOMATIC (P') aad poportonll ntegral LOAD P'upulional tegral control ihe coliollers uC useal to 26 411514105023 MOHAN B dervative (U'D) FREQUENCY Due arca syslen. paianiclers ot mulu power | CONTRODI. OF viar ous 4T1ST4105024MOHANDASSC ovetshoot iuncl sectlung time, Mis. S.LSREEDEV MULT1-AREA to lugh peak 411514]05047YUVARAJA convental Pl ad PID controllers are not POWER SYSTEM ieleiieu I0r luge powei syster1. The ua USING SOFT iolivalion of tUus pruject is lw contrul the ounput COMPUTING wlli nunimun peak overshoor TECINIOUES frqucney Iesonse 29 DICIKKLDICSKnts An ANFISJ Ld SetliuL UII LhuS 41S14105306 MOIANP

Dr.R.PALSON KENNEDY, M.E.Ph PRINCIPAL PERI INSTITUTE Mannivakkam, Chennai-600OF TECHNOL 0 411514105026 NAVEENKUMARD This project investigatcs the cnhancement in voltage 30 as well as the improvement in the POWER QUALITY StdDiy margin 31 411514105031 RAJESH P capability in a micro-grid powerower INPrransier Mr.R.TAMILAMUTHAIMPROVEMENT system with the incorporation of UPFC. Flexible AC| 9 MICRO GRID N transmission system (FACTS) devices uses power USING UPFC 32 electronics components to maintain controllability and capability of electrical power system FACTS 411514105039 SURENDHRAN R A ontrollermIcro-converter includes serves uniLicd as anq Tron-end Cdc-Ic Stage siage PAKANATI THARUN of a micr0-inverter to convert llhe power from a 33 a Thcsc front-cnd 411514105030 KUMAR P AHYBRID photovoltaic inodule to dc bus. ralio. RESONANT micro-converlers require isolation, high-boost CONVERTER FOR | wide-input voltage regulation. and high efficieney. Mr.R.TAMLAMOIRABETTER VoLTAGE|This paper introduces an isolatcd resonaint conee 4 10 N to achieve FOR | with hybrid modes of operation wide |REGULATION inpul regulation while slill maintaining high PHOTOVOLTAIC 411514105037 SEENU VASAN S converter as a APPLICATiONS eflicicncy. The proposcd is designcd 411514105041 THEESHANTH R series resonant converler with nominal-input voltage 411S14105042 VICKY MOHANS takes refers to the system that power 411514105010 GOwSIKVENK. ESH M| DESIGN AND applications combustion (ICE) shaft to ANALYSIS OF A from the internal engine 411514105019 MADHAN K accessories. PTO system is widoly 411514105035 SATHISHKUMARP HIGH VOLTAGE- drive vehicle such as utility truck, uscd in the specialty vehicles, Mr.P.SUNDARARAMANGAINSTEP-UP thesc construction vehicles, etc. In vehicles, DC-DC tractors, RESONANT loads to be driven by the CONVERTER eleciric FOR| there are many is that the shaft lCE usually TRANSPORTATIO PTO system so of the 40 shown in la. to a as Fig. Some| NAPPLICATIONSconnected generator, sustem inchude the kevchallenuesat ihis PTO of whale optimization with 411514105046 VIVEK N behaviour inspired 411514105006 BHARANITHARAN U technique based differential evolution(wODE) 41 maximum power point tracking algorithm for the the steady-state in the dynamic as MPPT IN DYNAMIC tracking well as shaded solar photovoltaic conditions partially r.M.KEERTHIVASA| CONDITION OF of a for 'WODE" technique is used 2 (PV) system. This PARTIALLY of the global 12 and oscillation-free tracking SHADED PV SYSTEM quick ina few steps. The unique 411514105014 KALAI SELVANG BY USING wODE best peak position tor maximum power 411514105015 KANNADASANR of this algorithm TECHNIQUE advantage 43 point tracking (MPPT) K 411514105021 MANOJ KUMAR

HOD/EEE

PROJECT CoORDINATOR STITUE OF T CHEN:UA OrR. 600010 048 PALSON KENNEDY M.E. Ph.D. PRINCnAL

' t ona p.!. EE4PO1 INTERNET OF THINGS BASED REAL TIME TRANSFORMER

Vishal Vijayakumar,PERFORMANCE Jayavel.G, Madhan MONITORING Dani.B°, Loga SYSTEM prakasam",Sujatha.K° UG Scholar, Dept of EEE, Peri Institute of Technology, Chennai, India Assistant Professor, Dept of EEE, Peri Institule of Technology, Chennai, India Creach2vishalv. jayavel712, madhandani.b)@gmail.com

Abstract-An emerging field in Machine to Machine communication is Internet of Things (10T), which allows the possibility for autonomous devices to use the Internet for exchanging data. This work presents design amd execution of real time monitoring and fuut detection in transformers by recording key operation indicators of a distribution transformer like load current, voltuge, transformer oil temperature and gas composition, which is sent to an ontine server with the help of an 10T module. Through this project, we ainm to mininize working efforts and improve the transformer fault detection capability across the distribution system

Gas Keywords-Internet of Things (IOT), Real Time Monitoring, Transformer Oil Temperature, Composition.

400/110 KV ELECTRICAL EE4 P02 DESIGN AND ANALYSIS OF ANALYSIS USING ETAP SUBSTATION BASED ON LOAD FLOW Prakash.K', Nishanth.G, Kavin Kumar.G',Elango.P Surya India 125 Institute Chennai, UG Scholar, Peri of Technology, Dept of EEE, India Peri Institute Technology, Chennai, Assistant Professor, Dept of EEE, of "kavincraze)@gnmail.com suryaprakashk1996, nishanth7 12776, To maintain the generation the development any country. of Abstract-Power is essentially required for of to the consumer. This trunsmitted in proper form and quality level the power has to be electric power at adequate Transient Program kV substation in Electrical Analyzer the simulation 400/110 research deals with os paper overcome the hurmonic and also to short circuit analysis, analysis detailed load flow anulysis, ETAP) with 400/110 kV actual data The results are based on received from under using problem of an voltage by SVC. substation. Static VAR Compensator Load Flow Analysis (LFA), Transient Anulyzer Program (ETAP), Keywords- Electrical (SCA). (SVC), Short Circuit Analysis

Dr.R. PALSON KENNEDY, M.E.Ph D. PRINCIPAI. PERI INSTITUTE OF TECHN Mannivakkam, Chennai-60 EE4 PO3 A UNIFIED CONTROL AND POWER MANAGEMENT SCHEME FOR PV-BATTERY-BASED HYBRID MICROGRIDS FOR BOTH GRID- CONNECTED AND ISLANDED MODES Vignesh.N', Selvaraj.M', Prasanth.J, James.A* , Sathyaraj.D° 1234 UG Scholar, Dept of EEE, Peri Institute of Technology, Chennal, India Assistant Professor, Dept ofEEE, Peri Institute of Technology, Chennai, India reach2vikku, "reach2setval 996, sharewithprasanth, jacobjameso1 8/@gmail.com

Abstract-Battery storage is usually employed in Photovoltaic (PV) system to mitigate the power Sluctuations

uble Control schemes PV-battery systems must be due to the characteristics ofPV panels and solar irradiance. for to stabilize the bus voltages as well as to control the power flows flexibly. This puper proposes a comprehensive

micro grids with both AC and DC control and power manugement system (CAPMS) for PV-battery-bused hybrid and CAPMS is successful in reguluting the DC buses, for both grid-connected and islanded modes. The proposed und the the and power of euch unit flexibly, baluncing AC bus voltages and frequency stably, controlling voltage disturbances under operating circumstances, regardless of power flows in the systems automatically different loads. irradiance and temperuture, and change of from switching operating modes, fluctuations uf Islund Mode control and munugement system (CAPMS), Keywords- Photovoltaic (PV), comprehensive power IM), Micro Grids (MG).

SWITCHED BUCK BOOST EE4P04 SOLAR FED QUASI SIWAKOTI-H INVERTER Balambigai.M, Lavanya.E',Sangari.S', Priya.N Chennai, lndia Peri Institute of Technology, 'UG Scholar, Dept of EEE, Chennai, India Peri Institute of Technology, Assistant Professor, Dept of EEE, ('sangariraji96)@gmail.com

with common ground transformer less inverter new single-phuse H-Bridge Abstract-This project proposes a The inverter works on the it is called 'Siwakoti-H' inverter). systems (here afler Sor grid connected photovoltuic 1GBT's (RB-IGBT) switches (two reverse blocking consist four pwer capucitor and of only shures a common principle of flying The topology at the stage. proposed and u output two MOSFET's), a capucitor small filer is and Modulation (SPHWM) technique Sinuseidal Pulse Width the PV source. A Unipolar ground with the grid and The main current requirements. switching loss, vutput ripple and filter modulate the inverter to minimie used to to reactive current and ability provide elimination the ure the leakage new inverler toupology of advantages the NPC und ANPC type of to de voltuge (unlike uc voltage is equal input Further, the peuk output al power to the grid. of Simulations as well as experimental results from ac-voltuge magnitude), which requires two times of the peak

CHENNAIEC

600048 , PS0N KEN'TEDY, %.rn,). 2r9 A

110v 3N, tnennart the theoretical analysís the concept and also at the end the paper to prove kW proto bype are presented of presented.

Pulse Width Modulation (SPWM). 'Siwakoti-H' inverter, Sinusoidal Keywords-photovoltaic systems (P),

AND NETWORK FOR CONTROL ARTIFICIAL NEURAL EE4P05 PHOTOVOLTAIC RESIDENTIAL SOLAR GRID INTEGRATION OF SYSTEMS Dafney.S",Muthukumar.K Kowsalya.A", Kalaiarasi.S", Nithya.R , Chennai, India 4 Peri Institute of Technology, UG Scholar, Dept of EEE, Chennai, India Peri Institute Technology, Professor, Dept of EEE, of Assistant "kalaiarasieee07, "dafney1997)@gmail.com nithyaravi821, "krishaction07, the world's important part of is becoming an increasingly Abstract-Residential solar photovoltaic (PV) energy a the distribution grid through single is connected to A residential solar PV array usually renewable energy. the PV array while the power output from PV system should maximize inverter. Control of the single-phase phase interfuce with the electricity grid. reliability, and controllability for overall performance, safety, vector ensuring system Neural Network (ANN) an Artificial The objective is to develop has two main objectives. first This paper controller is trained to implement inverter. The ANN based single-phase solar control strategy for a LCL-filter to evaluate the second objective is programming. The based on approximate dynamic optimal control, behaviour for grid integratioon Simulating the PV system ANN-based solar PV system by (a) the an performance of residential PV application (b) Building PV in a realistic extraction from solar array and maximum power residential PV system resulis demonstrate that a hardware validation. The solar PV system for and experimental vector control method the conventional standard the PV system using the ANN control outperforms This is also true in the using hardware implementation. simulation and control method in both proportional resonant and non-ideal conditions. disturbance, distortion, presence f noise, Maximum Grid Integration (Gl), voltaie (PV), LCL-filter, Neural Network (ANN, photo Keywords- Artificial

Power Extraction.

WATER MOTOR DRIVE FOR POWERED BLDC SOLAR PV EE4P06 CONVERTER USING CUK PUMPING Arun Shankar.T° Mohammed Ameen.M°, Vijaykumar", Chozavaradhan.G', Balamurugan.P', Chennai, India Peri Institute Technology, UG Scholar, Dept of EEE, of Chennai, India Peri Institute of Technology, Assistant Professor, Dept of EEE, water is motor drive for pumping brushless DC (BLDC) (SPV) powered Abstract-A solar photovoltaic bus voltage sensor at the DC of BLDC motwr and the voltage The current sensors of in this paper. DC bus voltuge presented controlled adjusting the Insteud, the speed is by are eliminated completely. source inverter (VS1)

Dr.R. PALSON KENNEDY, M.E.,Ph.0. PRINCIPAL PERI INSTITUTE OF TECHNOLOGY Mannivakkam, Chennai-600 046. of VSI. The Jfundamental frequency switching pulses are generated to operate the VSI in order to minimize the switching losses and to enhance the efficiency of proposed system. A DCDC Cuk converter is utilized to operate the SP array at is maximum power. The starting current of BLDC motor is bounded by an optimal initiliation and selection of the control parameters, perturbation size and frequency while tracking the peak power ofSPV array: The performance of proposed BLDC motor drive is thoroughily evaluated and is potential is demonstrated under realistic operating conditions. The simulated results and an experimental validation along with a comprehensive comparison with the existing techniques demonstrate prominenceof the preposed drive for SPV based water pumping.

Keywords-solar photovoltaic (SPV), Brushtess DC Motor (BLDC), voltage source inverter (VS), DCDC Cuk

converter

EE4P07 AUTOMATIC LOAD FREQUENCY CONTROL OF MULTI- AREA POWER SYSTEM USING SOFT COMPUTING TECHNIQUES. Mohan Dass.C', Yuvaraj.A", Mohan.P", Mohan.B', Sreedevi.S.L. UG Scholar, Dept ofEEE, Peri Institute ofTechnology. Chennai, India Assistant Professor, Dept of EEE, Peri Institute of Technology, Chennai, India mohandass/007, 'yuvarajprince, raimohanrai7, 'mohankumarb1996)@gmail.com

Abstract- Proportional integral (PI) is crucial for the operation and design of modern electric power systems.

Proportional integral (PI) and proportional integral derivative (PID) controllers are used to control the various parameters of multi area power system. Due to high peak overshoot and settling time, conventional Pl and PID controllers are not preferred for large power system. The main motivation of this project is to control the output freguency response with minimum peak overshoot and settling time. This project presents an ANFIS based intelligentload frequeney control approach for thre area power system with three control areas. The merit of the proposed controling technique is that it is faster than the automatic conventional control techniques and is able to handle thee non linearities simultaneously. Also the maximum overshoot and the settling time of ANFIS bused controller are lesser when compared to the conventional controllers, thereby reducing the oscillations locally and of inter-area. This effectiveness of the proposed controller in improving the dynamic response is shown und validated in three area inter-connected system. Comparison in performances of PL, PID control echnique and ANFIS control upprouch is curried vut in MATLABSIMULINK sofiware. The results validates that the ANFIS based intelligent controler isfaster than the conventional controller and have improved dynamic response.

Keywords-Proportional integral (P), Proportional integral (PI), proportional integral derivative (PID).

ANFIS controller.

CHEII 00048

Ur.R. PAL SON KEUNEDY, M E.,Ph 9RCiAL

n . , hgnnai-ti) e IN MICR0 GRID EE4P08 POWER QUALITY IMPROVEMENT USING UPFC Tamilamuthan.R" Rajesh.P , Naveen Kumar.D , Surendharan.R', Chennai, India UG Scholar, Dept Peri Institute of Technology, of EEE, India Institute Technology, Chennai, Assistant Professor, Dept of EEE, Peri of in as well as the improvement the enhancement in voltage stability margin Abstract-This project investigates UPFC. Flexible AC with the incorporation of in a micro-grid power system the power transfer capabiliy and maintain controllabilityy electronics to devices uses components transmission system (FACTS) power controller (UPFC), Static controller includes unified power flow electrical power system FACTS capability of (TCCs), Static series controlled series compensators (STATCOMs), Thyristor synchronous compensators phuse ure able to modify voltage, and Static VAR compensators (SVCs), compensators (SSSCs) synchronous versatile and complex power The (UPFC) is the most at particular bus in a power system. angle and impedance in electrical power control and optimization of power low that has emerged for the electronic equipment environment. The load Matlab/Simulink is modelled in A transmission line system transmission system. simple and reactive power) and the voltage and power (real an uncompensated system, results are first obtained for the system flow the result obtained after compensating obtained are compared with studied. The results so been profiles are the above work has enhancement. All the simulating for the stability margin using UPFC to show voltage Matlab/Simulink sofware. carried out using controller (UPFC), Stutic unified power flow Transmission System (FACTS), Flexible AC Keywords- compensators (SSSCs), voltage stability series synchronous (STATCOMS), Static synchronous compensators

margin.

BETTER VOLTAGE CONVERTER FOR HYBRID RESONANT EE4P09A APPLICATIONS FOR PHOTOVOLTAIC REGULATION Tamilamuthan.R Seenuvasan', Vicky Mohan', Tharun Kumar, Theeshanth.R', Pakanati Chennai, India EEE, Peri Institute of Techuolugy, 34 UG Scholar, Dept of Chennai, India LEE, Peri nstiute of Tec hnology, Assistant Protessor, Dept of

Dr.A. PALSON KENNEDY, M.E.PhD. ir PRINCIPAL PERI INSTITUTE OF TECHNOIny

Mannivakkam, Chennai-60t , to convert the power from a Abstract-A m o-comverter serves as a front-end de-dc stage ofa micro-in verter micro-converters require isolation, high-boost ratio, wide-input photovoltaic module to a de bus. These front-end modes isolated resonant converter with hybrid voltage regulation, and high efficiency. This paper introduces an converter is still efficieney. The proposed of operation to achieve wide-input regulation while maintaining high under two additional modes: a converter with and operates designed as a series resonant nominal-input voltage boost converter with low-input voltage and a buck converter with high-input voltage. Unlike conventiona

conduction mode with a sin1plijying resonant converters, this converter operates at discontinues fixed frequency, (ZVS) and/or zero-current the design and control. In addition, this converter can achieve zero-voltage switching switching (ZCS) of the primary-side MOSFETs, ZVS andor ZCS of the secondary-side MOSFETs, and 2ZcS of

achieve a results a 300-W prototype peak output diodes under all operating conditions. Experimental using and control Commission 97.6% including all auxiliary eficiency of 98.1% and a California Energy efficieney of power at nominal input voltage.

photovoltaic module, micro-inverter. Keywords-zero-voltage switching (ZVS), zero-current switching (ZCS),

VOLTAGE-GAINSTEP- EE4P10 DESIGN AND ANALYSIS OF A HIGH FOR TRANSPORTATION UP RESONANT DC-DC CONVERTER APPLICATIONS Gowsik Venkatesh.M", Sundararaman.P Madhan, Sathish Kumar.P', Vivek.N', 1254 UG Scholar, Dept of EEE, Peri Institute of Technology, Chennai, India India Assistant Professor, Dept of EEE, Peri Institule of Technology, Chennai, [email protected] the that takes power from in automotive applications refers to system Abstract-Power take-off (PTO) system PTO is used in the to drive vehicle accessories. system widely the internal combustion engine (1CE) shaft etc. In these vehicles, there are many tractors, construction vehicles, specialty vehicles, such as utility truck, the ICE is connected to a generator, us PTO so that the shufi of usually electric loads to be driven by the system low consumption of the of this PTO system include efjicieney, high shown in Fig. la. Somne of the key challenges in this PTo mechanical system maintenance and tifetime. Electrification fossil fuel in the ICE running at idle, energy storuge system and power address these challenges. With the development of system is u good solution to in such vehicles and to realize the electric power take-off (ePTO) system electronics technology, now it is possible haul trucks, transit bus, etc. other vehicles such as ambulance, long its application can be expunded to types of electric source such as louds. The ePTO system is using power which have several electric uccessory purpose of to the wheel. electric accessories while the 1CE only provides propulsion battery and fuel cell to drive the vehicle The etPTO shown in Fig. lb requires power the at the work site. system It can greatly reduce fuel consumption cell to drive the voltuge electrie lower from buttery or fuel higlh converler thut cun trunsfer the voltuge power essential such application. Typical converters have become an purt of louds. High voltage guin step-up DC-DC luw cost, jpower deusity, etc. Special are high efficiency, high requirements for such converters high voltage gain, AUE

CHENJAI Or,R. PALSON 600 043 ENMENV tn. FAC A the current ripple cell application because would be necessary for fuel such as low current ripple requirements in such type of converters increase in power capability There has been an the cell lifetime. led to a may greatly affect fuel has consequentially these converters. This current stress in decade which has led to high over the last devices. loss the switching conduction loss and switching of increase in the significant (ePTO), step-up electric power tuke-off combustion engine, (CE) (PTO), internal Keywords- Power take-off

DC-DC converters.

PARTIALLY CONDITION OF DYNAMIC EE4P11 MPPT IN TECHNIQUE USING WODE SYSTEM BY SHADED PV Kalaiselvan.G, Keerthivasan.M Bharanitharan.V", India Kannadasan.K Chennai, Kumar.K , , Technology,. Manoj Peri Institute of India UG Scholar, Dept of EEE, Technology, Chennai, Peri Institute of Assistant Professor, Dept of EEE, with whale optimization behaviour inspired whale hunting in thee a humpback iracking introduces maximum ponwer point Abstract-This paper the algorithm for This "WODE' based tracking system. technique photovoltaic (PV) evolution(WODE) shaded solar The differential partially a steps. conditions of a position in few the steady-state best peak well as the global condition is dynamic as tracking shaded oscillation-free of partially and (MPPT) in used quick tracking is for point convergence technique maximum power like longer algorithm for techniques, this evolutionary which advantage of other burden etc, unique problems of computational and generalized common oscillation, heary state and verified is from simulation as, it free steady MATLAB search particles, tested in number of is curve. algorithm voltuge-power duration, a large This hybrid in output peuks oscillations in . multiple consists and loss and which of steudy-state power PV system, satisfactory creates solar methods. The the the hardware of the art show state of levels developed with the temperature a and on compared irrudiance ability is variable tracking under the technique Moreover, hybrid the new performances of methods, dynamic control Tracking, art Power Point the state the Maximum over of (WODE), superiority Evolution Differential with Optimization

Keywords-Whale

photovoltaic (PV).

Dr.R. PALSON KENNEDY, M.E.,Ph.,D. PRINCIPAL PERI INSTITUTE OF TECHNOI.OGY F CHRO )Vakkam, Chennai-600 9.u. EE4P12 CONTROL OF GENERATION, STORAGE AND ENERGY DEMAND MANAGEMENT IN ISLANDED MICRO-GRIDS Anish Kumar.G', Dinesh Kumar.M , Yogeetha.S', Mercy Patricia.M", Sujatha.K UG Scholar, Dept of EEE, Peri Institute of Technology, Chenai, India Assistant Professor, Dept ofEEE, Peri Institute of Technology, Chennai, India (anishanish2405, 'dineshthunder50, yogeethapopl5, "mercymiracles)@gmail.com

Abstract-Microgrid is a localized group of electrical sources and sinks that normally operutes connected to and

synchronous with the traditional centraliced electrical grid, but can atso disconnect to "sland mode" A micro- grid can connect and disconnect from the main grid to enable it to operate in both 'on'grid and 'ofr grid (Island

and demand mode) modes. These micro-grids are smaller energy systems that include generation, storage stored and distributed. They management. The existing micro-grid can control the amount of energy generated, enumerates between the central and the loads. This paper can also use these data for communication system the demund and on managing energy method of energy generation based demand, storage of energy, the control systems, smart meters, and loads) in communication among various components (micro-sources, demand the will be able to obtain real time data energy of Islanded micro-grid. The proposed micro-grid of micr-sources is determined. This amount to be generated by the connected loads, based on which the of energy connected to the loads but via The generated power is not directly in eliminating surplus energy generation. helps The quality is maintained even when the load fluctuates. devices. By this method, the generated power storage micro- with centralized source. The use those data are communicated of these load fluctuations are observed and and systems. Also, this paper secure, flexible efficient energy can improve the power reliability and produce grids contribute to the controlled smart grids and development to in the areas of provides space for enthusiasts develop perfect power systems. ofthe and demand management. power smart grids, generation storage, Keywords- Island mode, Micro-grid, reliability.

Dr.R. PALSON KENNEDY, M.E..Ph.0.. PERI PRINCIPAL INSTITUTE OF Manivakham, Chennai-600TECHNOLOGY 04b EE4P13 Transmission Line Fault Detection and Localization by using Programmable Logic Control (PLC) Dhevadharshini.v', Aarthy.R?, Vishali.Ri', Mahadeshwar.S UG Scholar, Dept of EEE, Peri Institute of Technology. Chennai, India (dheva.myvd, 'aarthy26072017, *madeshsridharanl 1)@gmail.com Abstract-The reliability and quantity of electrical power networks are affected by the occurrence of electrical In this we fault paper propose a novel method to identify the occurrence of fault in distribution network, based on impedance measurement at the central performed distribution of he office .the measurement can be PLC performed using modems that belong to the energy metering infrastructure. The fault is detected by means of continuous impedance monitoring and its distance afterwards from the central office is estimated using the same measurement traces, without requiring additional information. Different type of fault is tested, and the effect of measurement bandwidth and the electrical noise on the measurement is also assessed.

Keywords-Fault Identification, Distribution Network (DN), PLC modems, Continuous Impedance Monitoring (CIM).

ON

OR.PALSGN KENEDY, E.n,i. E

CHENNA

600 048 IH3 PERI INSTITUTE OF TECHNOLOGY Department of Electrical and Electronics Engineering BEST PROJECTDATE:20.04.2018 YEAR/BRANCH IV EEE PROJECT WORK: EE6811 BATCH: 2014-2018 REMARKS RANK S.No BATCH REG NO STUDENT NAME GUIDE NAME PR0JECT TITLE iTOpOTTonai integar (rT)IS CTuTar ToO 411S14105023MOHANB the operation and design of modern AUTOMATIC clectric power systems. Proportional LOAD integral (PI) and proportional integral 411514105024 MOHAN DASS C FREQUENCY derivative (PID) controllers are used to CONTROLOF control the various parameters of multi 411514105047 YUVARAJ A Mrs. S.L.SREEDEV1 MULTI-AREA arca power system. Duc to high peak FIRST POWER SYSTEM Overshoot and settling time, conventional USING SOFT PI and PID controllers are not preferred COMPUTNG for large power systcm. The main 4 TECHNIQUES. motivation of this project is to control the output frequency response with minimum 411514105306 MOHAN P DESTUIN AIVD owe Tr ssthtafty requfed tor the ANALYSIS OF development of any country. To maintain 400/110 KV the generation of electric power at Mr.P.ELANGO ELECTRICAL adequate level the power has to be SECOND 411514105016 KAVN KUMAR G SUBSTATION transmitted in proper form and quality to 411514105027 NISHANTH G BASED ON LOAD the consumer. Thisresearch paper deals 411514105040 SURYA PRAKASH K ELOW ANALYSIS uith the simulation of 400/L10kV 411514105012 JAYAVEL G An emerging field in Machine to Machine communication is Internet of Things 411514105020 MADHANDANI B INTERNET OF (IOT), which allows the possibility for 10 411514105045 VISHAL VIDAYKUMAR V THINGS BASED autonomuus devices to use the Internet REAL TIME for exchanging data. This work prescnts Mrs.K.SUJATHA TRANSFORMER design and exccution of real time THIRD PERFORMANCE monitoring and fault detection in MONITORING transformers by recording key opcration SYSTEM indicators of a distribution transformer like load current. voltage. transformer oil 411514105304 LOGAPRAKASAM C lemperature and yas composition, which

HOD/EEE PROJECT CoORDINATOR

Dr.R. PALSON KENNEDY, M.E.,Ph.D. PRINCIPAL roINSTITIJTE OF TECHNO * 5 G48 if Cheana:-b Scanned by CamScanner Scanned by CamScanner Scanned by CamScanner Scanned by CamScanner Scanned by CamScanner Scanned by CamScanner Scanned by CamScanner Scanned by CamScanner Scanned by CamScanner Scanned by CamScanner Scanned by CamScanner Scanned by CamScanner Scanned by CamScanner