Soil Sync Solutions
Soil Sync Solutions
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    • Home
    • Site Investigation
    • Sampling
    • Design & Analysis
    • Our Projects
    • Contact Us
  • Home
  • Site Investigation
  • Sampling
  • Design & Analysis
  • Our Projects
  • Contact Us

Our Projects

  • Developing a novel framework for contamination site assessment using advanced site characterization tools
  • Developing 3-D site conceptual site model
  • Extraction of large-depth continuous soil samples and discrete groundwater samples  
  • Evaluating soil and groundwater Quality for contaminants such as heavy metals, macroions, and microplastics 

  • Site characterisation using direct push injection logger (DPIL) and electrical conductivity (EC) probe  
  • Seepage analysis of dam 
  • Evaluating the migration pattern of fines with depth using continous soil sampler

  • Site characterisation and geotechnical assessment using CPTu, DPIL, EC probe, soil and groundwater sampling
  • Liquefaction susceptility assessment using SCPTu

  • Site characterisation using CPTu
  • Liquefaction susceptibility assessment using SCPTu

Our Publications

  1. Haritwal, D. K., Singh, P., Ramana, G. V., & Datta, M. (2025). Application of high-resolution site characterisation tools and sampling methods for assessing microplastic migration beneath MSW dumpsites. Journal of Hazardous Materials, 488, 137384. https://doi.org/10.1016/j.jhazmat.2025.137384
  2. Singh, P., Haritwal, D. K., Ramana, G. V., & Datta, M. (2025). Framework for site specific leachate limits in MSW dumpsites: Integration of high-resolution site characterization and contaminant transport modeling. Chemosphere, 371. https://doi.org/10.1016/j.chemosphere.2024.144054
  3. Haritwal, D. K., Singh, P., Ramana, G. V., & Datta, M. (2024). Advanced characterisation of groundwater contamination at a dumpsite: Methodology and assessment-Case study of a municipal solid waste dumpsite in India. Science of The Total Environment, 957, 177642. https://doi.org/10.1016/j.scitotenv.2024.177642 
  4. Singh, P., Haritwal, D. K., Seth, S., Ramana, G. V., & Datta, M. (2024). Electrical conductivity profiling for rapid contamination assessment in unsaturated zones: A case study of an MSW landfill. Science of the Total Environment, 951. https://doi.org/10.1016/j.scitotenv.2024.175773
  5. Haritwal, D.K., Singh, P., Ramana, G.V. et al. Microplastic migration from landfill-mined soil through earth filling operations and ecological risk assessment: a case study in New Delhi, India. Environ Sci Pollut Res (2024). https://doi.org/10.1007/s11356-024-35545-3 
  6. Singh, P., Haritwal, D. K., Ramana, G. V., & Datta, M. (2023). Using hydraulic profiling tool (HPT) to define permeability zones by k-means clustering. https://doi.org/10.53243/ICEG2023-175 
  7. Haritwal, D., Ramana, G. V, & Datta, M. (2023). Microplastics in soil-like-material obtained during mining of a municipal solid waste dumpsite. 25–28. https://doi.org/10.53243/ICEG2023-129
  8. Singh, P., Kumar Haritwal, D., Ramana, G. V, & Datta, M. (2023). Using hydraulic profiling tool (HPT) to define permeability zones by k-means clustering. https://doi.org/10.53243/ICEG2023-175

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