satchidanand ramdasji satpute

@vit.edu

Assistant Professor and Chemical Engineering department
BRACT's Vishwakarma Institute of Technology, Biberwadi, Pune

satchidanand ramdasji satpute


               Download Compact PDF  
https://researchid.co/sat9jan

RESEARCH INTERESTS

Chemical Engineering Thermodynamic
10

Scopus Publications

Scopus Publications

  • Investigating the structural properties of the Tower of Hanoi problem using combinatorial approaches
    P. S. Patil, Tanveer Ahmad Wani, Virendra Thakur, Satchidanand Satpute, J. Charishma, G. Srujana
    Journal of Discrete Mathematical Sciences and Cryptography, 2026
    Mathematicians and computer scientists have long been interested in the Tower of Hanoi issue due of its many fascinating possibilities. This combinatorial research examines the Tower of Hanoi problem’s structural aspects to determine its behaviour, how solutions vary over time, and the best strategies. By observing how the problem repeats, we identify combinatorial patterns that reveal the minimum number of operations required to solve the puzzle for n discs. We also examine how Stirling numbers, sequences, and binary timber relate to the problem’s solution area. Combinatorial counting rules are used in our method to estimate problem complexity. Combinatorial approaches may help solve other iterative or high-quality flow issues as well as the Tower of Hanoi. The research illuminates combinatorial problem-solving strategies and their applications in computer theory.
  • Bioremediation of hazardous Metanil yellow dye by using Trichoderma and Azotobacter biofertilizers
    Kavita Kulkarni, Prajapati Manujendra Kumar, Anand Kulkarni, Satchidanand Satpute
    Ecological Frontiers, 2024
  • Utilization of Low Cost Biofertilizers for Adsorptive Removal of Congo Red Dye
    Kavita Kulkarni, Sunny Kurhade, Yogesh Chendake, Anand Kulkarni, Satchidanand Satpute
    Bulletin of Environmental Contamination and Toxicology, 2023
  • Bioremediation of hazardous Metanil yellow dye by using Trichoderma and Azotobacter biofertilizers
    Kavita Kulkarni, Prajapati Manujendra Kumar, Anand Kulkarni, Satchidanand Satpute
    Acta Ecologica Sinica, 2023
  • ANN modelling of Hydrodynamic Cavitation for the degradation of Rhodamine B dye
    Suyog Ghadge, Surabhi Shrivastava, Shankar B. Kausley, Satchidanand Satpute, Mandar Badve, Anala A. Pandit, Beena Rai, Aniruddha B. Pandit
    Journal of Water Process Engineering, 2022
  • Adsorptive Removal of Unsaturated Fatty Acids Using Ion Exchange Resins
    Manisha A. Khedkar, Satchidanand R. Satpute, Sandip B. Bankar, Prakash V. Chavan
    Journal of Chemical and Engineering Data, 2021
    The main aim of the present investigation was to elucidate the efficacy of silver ion chromatography for selective separation of unsaturated (oleic, linoleic, and linolenic) fatty acids on a prepar...
  • Thermodynamic analysis and experimental validation of multi-composition ammonia liquor absorption engine cycle for power generation
    Satchidanand R. Satpute, Gorakshnath Takalkar, Nilesh Mali, Sunil Bhagwat
    International Journal of Energy Research, 2020
    Energy conservation, utilization, and effective integration are of utmost importance for future sustenance. Accordingly, this work focuses on the generation of power from the low‐grade temperature below 150°C. A proposed novel multi‐composition ammonia liquor absorption engine (MALAE) power cycle can be used toward the above purpose by supplying renewable energy obtained from low concentration type solar collectors. Proposed MALAE power cycle minimizes heal loss due to heat recovery and uses high purity NH3 vapors to expand through the isentropic turbine. MALAE power system is modeled and simulated using NH3‐H2O as a working fluid for a reboiler temperature of 115°C. The purpose of this work is to simulate the proposed MALAE power cycle with the distillation column and two solution heat exchanger (SHE). MALAE modeling and simulation is accomplished in SCILAB software. The simulation outcome is validated with the pilot‐scale 5 kW experimental setup and validation showed ±5% deviation. A comparison of MALAE cycle with published cycles signifies higher efficiency of MALAE cycle toward the utilization of low‐grade energy from a temperature range of 100°C to 150°C. Finally, detailed parametric analysis of MALAE cycle efficiency is presented in terms of number of plates, distillation pressure and vapor flowrate, absorber temperature, pressure partial condenser temperature, and heat loads.
  • Novel multistage solid–liquid circulating fluidized bed: liquid phase mixing characteristics
    Manjusha A. Thombare, Dinesh V. Kalaga, Sandip B. Bankar, Rahul K. Kulkarni, Satchidanand R. Satpute, Prakash V. Chavan
    Particulate Science and Technology, 2020
    Liquid phase axial mixing studies have been carried out in the novel solid–liquid circulating fluidized bed (SLCFB). The SLCFB primarily consists of a single multistage column (having an inner diameter of 100 mm i.d. and length of 1.40 m) which is divided into two sections wherein both the steps of utilization, namely loading (e.g., adsorption and catalytic reaction) and regeneration of solid phase, can be carried out simultaneously in continuous mode. Weak base anion exchange resin was used as the solid phase, whereas water as the fluidizing medium. The effects of physical properties of solid phase, superficial liquid velocity, and solid circulation rate on liquid phase axial dispersion coefficient were investigated. The dispersion coefficient increases monotonically with an increase in the size of solid particle, superficial liquid velocity, and solid circulation rate. The axial dispersion model (ADM) was used to model experimental residence time distribution (RTD) data. A good agreement was found between ADM predictions and the experimental measurements. A unified correlation has also been proposed to determine dispersion coefficient as a function of physical properties of solid and liquid phases, superficial liquid velocity, and solid circulation rate based on all previous and present experimental data on multistage SLCFB.
  • Study of thermally coupled distillation systems for energy-efficient distillation
    Neha Saxena, Nilesh Mali, Satchidanand Satpute
    Sadhana Academy Proceedings in Engineering Sciences, 2017
  • Ultrasound assisted synthesis of PANI/ZnMoO4 nanocomposite for simultaneous improvement in anticorrosion, physico-chemical properties and its application in gas sensing
    B.A. Bhanvase, N.S. Darda, N.C. Veerkar, A.S. Shende, S.R. Satpute, S.H. Sonawane
    Ultrasonics Sonochemistry, 2015
    Ultrasound assisted in-situ semi-batch emulsion polymerization has been used for the preparation of polyaniline (PANI) and PANI/ZnMoO4 nanocomposite with different loading of ZnMoO4 (ZM) nanoparticles. ZM nanoparticles were functionalized using Myristic acid (MA) for better compatibility with PANI. The cavitational effects induced due to ultrasonic irradiations have been shown significant enhancement in the dispersion of functionalized ZM nanoparticles into the PANI during ultrasound assisted in-situ emulsion polymerization process. TEM images of PANI/ZM nanocomposite particles give the direct evidence of fine dispersion and encapsulation of MA treated ZM nanoparticles in PANI matrix. The presence of ZM nanoparticles in PANI/ZM nanocomposite shows significant improvement in the mechanical (cross-cut adhesion), thermal, anticorrosion and sensing properties of PANI/ZM nanocomposite/alkyd coatings over PANI/alkyd and neat alkyd resin coating. Fine and uniform dispersion of ZM nanoparticles in PANI matrix using this novel synthesis method (PANI (p-type)/ZM (n-type) hetero-junction) improves LPG sensing ability and minimizes response time to sense LPG significantly compared with neat PANI.