Task-3.1: Development of Low Ozone Depletion Potential (0.01-0.5) innovative fire suppression system

NWP-6

Task – 3.1: Development of Low Ozone Depletion Potential (0.01-0.5) innovative fire suppression system Task Leader:-  R.S. Chimote Objective: Development of water-mist based fire extinguisher Development of evaluation facilities for fire extinguishing system Scope of the work: Experimental Set-up for 1m2 size Turbulent diffusion Fires Capability enhancement of CFD Model of 1m2 size fire with extinguishment…

Task-2.3: Seismic resistance of confined masonry constructions under different axial stress

NWP-6

Task – 2.3: Seismic resistance of confined masonry constructions under different axial stress Task Leader:-  Ajay Chourasia Objective: Evaluate the efficacy of confined masonry construction & its strengthening under different axial loads under seismic excitation, in Indian Context to assess structural capacity in terms of strength, stiffness, deformation, energy dissipation and develop finite element model thereof.…

Task-2.2: Seismic behaviour of piles under dynamic lateral loading

NWP-5

Task – 2.2: Seismic behaviour of piles under dynamic lateral loading Task Leader:-  Parvathi, Manojit Samanta Objective: To investigate the seismic behaviour of piles subjected to dynamic lateral loading through experimental model testing and numerical analysis. The investigations envisage by bringing out the influence of various soil and pile parameters on the seismic behaviour of piles under…

Task-2.1 : Seismic Microzonation of Srinagar, Uttarakhand

NWP-5

Task – 2.1: Seismic Microzonation of Srinagar, Uttarakhand Task Leader:-  P.K.S. Chauhan Objective: Seismic Microzonation of Srinagar, Uttarakhand using geological, geophysical, geotechnical, seismological and liquefaction studies. Scope of the work: Selection of SMA sites, Geological Investigation, Procurement of SMAs Preparation of Site and installation of SMA , Microtremor Data collection and analysis Geophysical and Geo-technical Investigation…

Task-1.8 : Bio-engineering – A phytoremediation option for the mitigation of landslide and slope stability problems in the hilly regions

NWP-4

  Task-1.8 : Bio-engineering – A phytoremediation option for the mitigation of landslide and slope stability problems in the hilly regions Task Leader:-  Asha A. Juwarkar Objective: The aim of the proposed study is to integrate live materials, mainly plants and microorganisms, to address the problems of environmental management and sustainable development and utilization of vegetation,…

Task-1.7 : Landslide hazard information system and design of innovative measures for landslide control

NWP-4

Task – 1.7: Landslide hazard information system and design of innovative measures for landslide control Task Leader:-  P.S.Prasad, Kishor Kumar Objective: Landslide hazard information system of a part of Uttarakhand. Identification and selection of a typical/strategic/critical landslide as a “pacesetter example”. Detailed investigation, instrumentation, monitoring and analysis of a selected landslide in Rudraprayag Guptkashi region of Garhwal…

Task-1.6 : Comprehensive geo- investigation and control measures for a landslide in Chamoli-Joshimath region of Garhwal Himalaya

NWP-3

  Task – 1.6: Comprehensive geo- investigation and control measures for a landslide in Chamoli-Joshimath region of Garhwal Himalaya Task Leader:-  S. Sarkar Objective: The objective of the proposed study aims to carry out a comprehensive study involving geological, geotechnical and geophysical investigations, and mathematical modeling of an active landslide of Chamoli-Joshimath region of Garhwal Himalaya…

Task-1.5 : Development of Optical fibre based Multiplex Sensor Network System for Landslide Monitoring and Implementation in Northeast region of India

NWP-3

Task – 1.5: Development of Optical fiber based Multiplex Sensor Network System for Landslide Monitoring and Implementation in Northeast region of India Task Leader:-  P. C. Sarmah Objective: Design and development of an optical fiber based sensor usable for monitoring of landslide. Development of laboratory prototype multiplex network monitoring system for landslide and early   warning Field…

Task-1.4 : Landslide Monitoring using InSAR

NWP-2

Task – 1.4: Landslide Monitoring using InSAR Task Leader:-  S.K. Mittal Objective: The objective of proposed activity is to study the selected landslide site using InSAR and to correlate findings with other methodology (like GPS, optical fibre, Instrumentation, bio-measure) being followed by other participating labs. Scope of the Work: Finalization of vulnerable locations of selected site…

Task-1.3 : GPS based Integrated Landslide Modelling for hazard assessment

NWP-2

Task – 1.3 : GPS based Integrated Landslide Modelling for hazard assessment Task Leader:-  Sridevi Jade, M.S.M.Vijayan Objective: To develop a methodology and Integrated landslide model for hazard assessment in landslide prone zones of Chamoli-Joshimath region of Garhwal Himalaya based on movement pattern/dynamic behaviour of landslides using differential GNSS. Scope of the Work: Identification of study area…