Dr. Bindeshwar  Singh

Dr. Bindeshwar Singh

Assistant Professor
Kamla Nehru Institute of Technology, India


Highest Degree
Ph.D. in Technology from Indian Institute of Chemical Technology, India

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Area of Interest:

Engineering
100%
Electrical Engineering
62%
Power System Operation
90%
Power Quality
75%
Vector Control
55%

Selected Publications

  1. Singh, B., S.P. Singh, J. Singh, N. Tiwari and S. Dadhich, 2018. Utilities of Differential Algebraic Equations (DAE) model of SVC and TCSC for operation, control, planning and protection of power system environments. Int. J. Future Revolution Comput. Sci. Commun. Eng., 4: 61-67.
  2. Singh, B. and M.K. Yadav, 2018. GA for enhancement of system performance by DG incorporated with D-STATCOM in distribution power networks. J. Electr. Syst. Inform. Technol., 4: 4-18.
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  3. Singh, B. and G. Agrawal, 2018. Enhancement of voltage profile by incorporation of SVC in power system networks by using optimal load flow method in MATLAB/simulink environments. Energy Rep., 4: 55-68.
  4. Singh, B. and D.K. Mishra, 2018. A survey on enhancement of power system performances by optimally placed DG in distribution networks. Energy Rep., 4: 129-158.
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  5. Singh, B. and B.J. Gyanish, 2018. Impact assessment of DG in distribution systems from minimization of total real power loss viewpoint by using optimal power flow algorithms. Energy Rep., 4: 407-417.
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  6. Singh, B. and A. Pratap, 2018. A hybrid approach based on GA and Monte Carlo simulation for improvement of the system power factor by DG and STATCOM in distribution systems. J. Electr. Eng. Electron. Technol., 7: 94-108.
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  7. Singh, B., V. Mukherjee and P. Tiwari, 2017. GA-based multi-objective optimization for distributed generations planning with DLMs in distribution power systems. J. Electr. Syst. Inform. Technol., 4: 62-94.
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  8. Singh, B., R.P. Payasi and V. Shukla, 2017. A taxonomical review on impact assessment of optimally placed DGs and FACTS controllers in power systems. Energy Rep., 3: 94-108.
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  9. Singh, B., R.P. Payasi and J. Sharma, 2017. Effects of DG Operating Power Factor on its Location and Size by using GA in Distribution Systems. In: Handbook of Distributed Generations, Bansal, R. (Ed.). Springer, Cham, ISBN: 978-3-319-51343-0, pp: 459-501.
  10. Singh, B., C. Pal, V. Mukherjee, P. Tiwari and M.K. Yadav, 2017. Distributed generation planning from power system performances viewpoints: A taxonomical survey. Renew. Sustain. Energy Rev., 75: 1472-1492.
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  11. Singh, B. and J. Sharma, 2017. A review on distributed generation planning. Renew. Sustain. Energy Rev., 76: 529-544.
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  12. Singh, B., V. Mukherjee and P. Tiwari, 2016. Genetic algorithm for impact of DG planning with different load models from minimum total MVA viewpoints. Renew. Sustain. Energy Rev., 57: 1611-1636.
  13. Singh, B., V. Mukherjee and P. Tiwari, 2016. Genetic algorithm for impact assessment of optimally placed DG and FACTS controllers with different load models from minimum total real power loss viewpoint. Energy Build., 26: 194-219.
  14. Singh, B., M.K. Yadav and Charitpal, 2016. A survey on enhancement of power quality by optimally placed FACTS controllers in distribution networks. Eur. J. Adv. Eng. Technol., 3: 45-58.
  15. Singh, B., D.Singh, R.P. Payasi, J. Sharma, M.K. Yadav and C. Pal, 2016. A taxonomical review on distributed generation planning. Eur. J. Adv. Eng. Technol., 3: 23-38.
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  16. Singh, B., V. Mukherjee and P. Tiwari, 2015. A survey on impact assessment of DG and FACTS controllers in power systems. Renew. Sustain. Energy Rev., 42: 846-882.
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  17. Singh, B., P.P. Gupta, R. Kumar and A. Kumar, 2015. Electrical power quality problem: A key issues, challenges and opportunities. J. Automat. Syst. Eng., 9: 37-53.
  18. Singh, B., D. Singh, A. Kumar and M. Hasan, 2015. Enhancement of PQ parameters in distribution system by DGs: A taxonomical review. J. Automat. Syst. Eng., 9: 144-155.
  19. Singh, B., D. Singh and A. Kumar, 2015. Enhancement of PQ parameters in distribution system by exhaustive search method. Eur. J. Adv. Eng. Technol., 2: 148-165.
  20. Singh, B., A. Srivastava and Manisha, 2014. Applications of FACTS controllers. J. Automat. Syst. Eng., 8: 1-24.
  21. Singh, B., R.P. Payasi, K.S. Verma, V. Kumar and S. Gangwar, 2013. Design of controllers PD, PI and PID for speed control of DC motor using IGBT based chopper. German J. Renew. Sustain. Energy Res., 1: 29-49.
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  22. Singh, J., B. Singh, S.P. Singh and R. Dixit, 2012. Performance evaluation of PMSM drives using DTC techniques. Int. J. Rev. Comput., 9: 234-242.
  23. Singh, J., B. Singh, S.P. Singh and M. Naim, 2012. Performance evaluation of direct torque control with permanent magnet synchronous motor. Samriddhi, 2: 21-30.
  24. Singh, J., B. Singh, S.P. Singh and M. Naim, 2012. Performance evaluation of direct torque control with permanent magnet synchronous motor. Buletin Teknik Elektro dan Informatika, 1: 165-178.
  25. Singh, G. and B. Singh, 2012. Application of artificial intelligence computational techniques in mechanical engineering fields: A survey. IJMSER., 3: 161-203.
  26. Singh, B., S.P. Singh, M. Singh, R. Dixit, N. Mittal and A. Baranwal, 2012. Stand alone power generation by three phase asynchronous generator: A comprehensive survey. Int. J. Rev. Comput., 10: 36-51.
  27. Singh, B., K.S. Verma, D. Singh, S.P. Singh and M. Singh et al., 2012. Multi-level inverter: A literature survey on topologies and control strategies. Int. J. Rev. Comput., 10: 1-16.
  28. Singh, B., 2012. Introduction to FACTS controllers in wind power farms: A technological review. Int. J. Adv. Renew. Energy Res., 1: 23-59.
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  29. Kumar, R., S.P. Singh, B. Singh and R.P. Vishvakarma, 2012. Characterization of voltage sags and its mitigation using custom power devices in emerging power system. Bull. Electr. Eng. Inform., 1: 69-88.
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  30. Dixit, R., B. Singh, S.P. Singh and N. Mittal, 2012. A topologies on converters: A review. Int. J. Rev. Comput., 9: 234-242.
  31. Singh, J., S.P. Singh, B. Singh, M. Naim and R. Mishra, 2011. Enhancement of performance parameters of three phase induction motor by vector control methods. Int. J. Comput. Intell. Res. Applic., 5: 41-61.
  32. Singh, B., S.P. Singh, J. Singh and M. Naim, 2011. Performance evaluation of three-phase induction motor drive fed from z-source inverter. Int. J. Comput. Sci. Eng., 3: 1277-1289.
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  33. Singh, B., S.A. Malik, A.K. Pandey and V. Shukla, 2011. Enhancement of performance parameters of three phase induction motor by current source inverter: An overview and key issues. Int. J. Comput. Sci. Artif. Intell., 1: 18-26.
  34. Singh, B., P. Chaturvedi, S.K. Sinha, A.S. Pandey and S.P. Singh, 2011. Enhancement of the performance parameters of three phase induction motor using multilevel converters: A literature survey. Int. J. Rev. Comput., 8: 34-46.
  35. Singh, B., N.K. Sharma, A.N. Tiwari, K.S. Verma and S.N. Singh, 2011. Applications of Phasor Measurement Units (PMUs) in electric power system networks incorporated with FACTS controllers. Int. J. Eng. Sci. Technol., 3: 62-84.
  36. Singh, B., N.K. Sharma, A.N. Tiwari, K.S. Verma and S.N. Singh, 2011. Applications of PMUs in an integrated power system environment with FACTS controllers: A survey. Int. J. Eng. Sci. Technol., 3: 25-57.
  37. Singh, B., K.S. Verma, D. Singh, C.N. Singh, A. Singh, E. Agrawal, R. Dixit and B. Tyagi, 2011. Introduction to FACTS controllers. Int. J. Rev. Comput., 8: 47-56.
  38. Singh, B., K.S. Verma, D. Singh, C.N. Singh and A. Singh et al., 2011. Introduction to FACTS controllers: A critical review. Int. J. Electr. Energy Syst., 3: 85-98.
  39. Singh, B., K.S. Verma, D. Singh and S.N. Singh, 2011. Multi-objective VAR planning with SVC using particle swarm optimization techniques in power system networks. Int. J. Electr. Energy Syst., 3: 49-57.
  40. Singh, B., K.S. Verma, D. Singh and S.N. Singh, 2011. A novel approach for optimal placement of distributed generation and FACTS controllers in power systems: An overview and key issues. Int. J. Rev. Comput., 7: 29-54.
  41. Singh, B., I. Yadav and D. Kumar, 2011. Mitigation of power quality problems using FACTS controllers in an integrated power system environment: A comprehensive survey. Int. J. Comput. Sci. Artif. Intell., 1: 1-12.
  42. Singh, B., I. Yadav and D. Kumar, 2011. Mitigation of power quality problems by STATCOM and D-STATCOM in an integrated power systems. Int. J. Rev. Comput., 8: 57-68.
  43. Singh, B., 2011. Utilities of Differential Algebraic Equations (DAE) model of SVC and TCSC for operation, control, planning and protection of power system environments. Int. J. Rev. Comput., 7: 55-64.
  44. Singh, B., 2011. Applications of FACTS controllers in power systems for enhance the power system stability: A state-of-the-art. Int. J. Rev. Comput., 6: 40-69.
  45. Naim, M., B. Singh and J. Singh, 2011. Improvement of power factor and reduction of harmonics in three-phase induction motor by PWM techniques:A comprehensive literature survey. Int. J. Eng. Techsci., 2: 257-269.
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  46. Naim, M., B. Singh and J. Singh, 2011. Improvement of power factor and reduction of harmonics in three-phase induction motor by PWM techniques: A literature survey. Int J. Engg Techosci., 2: 257-269.
  47. Kumar, R., S.P. Singh, K.S. Verma, B. Singh and J. Singh, 2011. Voltage sags characterization and their mitigation using custom power devices. Int. J. Eng. Techsci., 2: 320-335.
  48. Kumar, R., S.P. Singh, K.S. Verma, B. Singh and J. Singh, 2011. Voltage sags characterization and its impact assessment on equipment behavior. Int. J. Eng. Techsci., 2: 302-313.
  49. Singh, B., N.K.Sharma, A.N. Tiwari, K.S. Verma and D. Singh, 2010. A status review of incorporation of FACTS controllers in multi-machine power systems for enhancement of damping of power system oscillations and voltage stability. Int. J. Eng. Sci. Technol., 2: 198-205.
  50. Singh, B., N.K.Sharma and A.N. Tiwari, 2010. A comprehensive survey of optimal placement and coordinated control techniques of FACTS controllers in multi-machine power system environments. Int. J. Electr. Eng. Technol., 5: 79-102.
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  51. Singh, B., N.K. Sharma, A.N. Tiwari and S.P. Singh, 2010. Incorporation of FACTS controllers in newton raphson load flow for power flow operation, control and planning: A comprehensive survey. Int. J. Comput. Sci. Eng., 2: 2117-2124.
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  52. Singh, B., N.K. Sharma and A.N. Tiwari, 2010. Prevention of voltage instability by using FACTS controllers in power systems: A literature survey. Int. J. Eng. Sci. Technol., 2: 980-992.
  53. Singh, B., N.K. Sharma and A.N. Tiwari, 2010. Classification of coordinated control techniques of FACTS controllers in emerging power systems: A review. Int. J. Eng. Technosci., 1: 18-34.
  54. Singh, B., N.K. Sharma and A.N. Tiwari, 2010. Application of computational intelligence techniques for optimal placement of FACTS controllers in large-scale emerging power system networks. Int. J. Comput. Sci. Syst. Eng., 1: 1893-1903.
  55. Singh, B., N.K. Sharma and A.N. Tiwari, 2010. A study on enhancement of loadability of large-scale emerging power systems by using FACTS controllers. Int. J. Comput. Sci. Eng., 2: 1893-1903.
  56. Singh, B., N.K. Sharma and A.N. Tiwari, 2010. A comprehensive survey of optimal placement and coordinated control techniques of FACTs controllers in multi-machine power system environments: A state-of-the-art. Int. J. Power Syst. Optimiz., 2: 79-101.