Dr Dmitriy Kuvshinov

Dr Dmitriy Kuvshinov

Lecturer, School of Engineering

+44 (0)1482 466451 | D.Kuvshinov@hull.ac.uk

Faculty and Department

  • Faculty of Science and Engineering
  • School of Engineering

Related groups

  • Chemical Engineering

Summary

Dr Dmitriy Kuvshinov holds the post of Lecturer in the School of Engineering at the University of Hull.

Dr Kuvshinov has more than 30 years of experience in the development and application of natural gas conversion, carbon capture and utilisation catalytically driven technologies to practical engineering problems at different scales.

His R&D activities are well supported by strong first-hand skills in computational fluid dynamics (CFD) and transport processes design with use of COMSOL software.

Doctor Kuvshinov is well recognised expert in the carbon nanomaterials synthesis and application fields.

Dr Dmitriy Kuvshinov is a major contributor to development of wide range of teaching modules starting from CFD Modelling, Materials/Nanomaterials Engineering, Design of a Process equipment and Transport Processes.

Dr Kuvshinov contributes to teaching across Chemical Engineering undergraduate and MSc programmes.

Current Teaching:

“Chemical Engineering of Nanomaterials”, (Level 7), (20 credits), (50 hours)

"Transport processes", (Level 5), (20 credits), (50 hours)

Previous Taught Modules

"Chemical engineering of Nanomaterials’’, (Level 7), (10 credits), (25 hours)

"Advanced Process Modelling and Simulation, COMSOL’’, (Level 7), (10 credits), (25 hours)

"Chemical Dynamics and Statics of a Process equipment’’, (Level 4), (10 credits), (25 hours)

Recent outputs

View more outputs

Journal Article

The Use of Tissue-on-Chip Technology to Focus the Search for Extracellular Vesicle miRNA Biomarkers in Thyroid Disease

Haigh, T., Beattie, H., Wade, M. A., England, J., Kuvshinov, D., Karsai, L., …Green, V. (2024). The Use of Tissue-on-Chip Technology to Focus the Search for Extracellular Vesicle miRNA Biomarkers in Thyroid Disease. International Journal of Molecular Sciences, 25(1), Article 71. https://doi.org/10.3390/ijms25010071

John Greenman Mark Wade Vicky Green

Formulation and Physical Properties of Citronella Oil Emulsion on Differences in Emulsifiers With The Addition of Maltodextrin

Puspitarini Siswanto, A., Dwi Ariyanto, H., Endy Yulianto, M., Muhammad Faisal, M., Kusuma Wardani, O., & Kuvshinov, D. (2023). Formulation and Physical Properties of Citronella Oil Emulsion on Differences in Emulsifiers With The Addition of Maltodextrin. Materials Today: Proceedings, 87(2), 147-151. https://doi.org/10.1016/j.matpr.2023.02.389

Response surface methodology for synthesis of bio-jet fuel from waste cooking oil using agitated ozone treatment

Siswanto, A. P., Yulianto, M. E., Handayani, D., Faisal, M. M., Wardani, O. K., & Kuvshinov, D. (2022). Response surface methodology for synthesis of bio-jet fuel from waste cooking oil using agitated ozone treatment. Materials Today: Proceedings, 63(supp.1), S346-S348. https://doi.org/10.1016/j.matpr.2022.03.274

Identification of soluble tissue‑derived biomarkers from human thyroid tissue explants maintained on a microfluidic device

Riley, A., Jones, H., England, J., Kuvshinov, D., Green, V., & Greenman, J. (2021). Identification of soluble tissue‑derived biomarkers from human thyroid tissue explants maintained on a microfluidic device. Oncology Letters, 22(5), Article 780. https://doi.org/10.3892/ol.2021.13041

John Greenman Vicky Green

Synthesis of Ni-based catalysts by hexamethylenetetramine-nitrates solution combustion method for co-production of hydrogen and nanofibrous carbon from methane

Kuvshinov, D. G., Kurmashov, P. B., Bannov, A. G., Popov, M. V., & Kuvshinov, G. G. (2019). Synthesis of Ni-based catalysts by hexamethylenetetramine-nitrates solution combustion method for co-production of hydrogen and nanofibrous carbon from methane. International Journal of Hydrogen Energy, 44(31), 16271-16286. https://doi.org/10.1016/j.ijhydene.2019.04.179

Research interests

Carbon nanostructures synthesis, modification and application.

R&D of industrial carbon capture and utilisation technologies.

Design and application of biogas upgrading technologies.

Design and application of Lab-on-a-Chip and miniature devices to fine chemistry and bio-molecular engineering.

Design and application of low-temperature plasma technologies.

Lead investigator

Project

Funder

Grant

Started

Status

Project

THYME: Improvement of an AD biogas production by application of a biogas upgrading process.

Funder

Research England

Grant

£29,937.00

Started

1 July 2021

Status

Complete

Project

NERC Discipline Hopping: Improvement of an Anaerobic Digestion process efficiency by combination with a waste plastic utilisation technology

Funder

NERC Natural Environment Research Council

Grant

£8,568.00

Started

1 March 2022

Status

Complete

Project

HEIF: Granulated Carbon nano fiber market analysis

Funder

00 University of Hull

Grant

£23,340.00

Started

1 January 2022

Status

Complete

Project

HEIF: New nano-carbon based conductive elements for application to structural ceramic panels

Funder

00 University of Hull

Grant

£15,400.00

Started

1 January 2022

Status

Complete

Postgraduate supervision

Dr Kuvshinov supervises PhD research projects across a broad selection of topics. Applications are always welcome for PhD, MPhil and MSc by Research degrees in all topics related to

*-application and development of Natural Gas conversion, carbon capture and utilisation technologies;

*-waste plastic utilisation;

*-carbon nanomaterials synthesis and application;

*-ozonolysis driven processes;

*-Lab-on-a-Chip and miniature systems development for bio- and molecular engineering.

Please contact him directly to discuss opportunities, topics and available funding.

Completed PhDs

- Nuhu Mamman Musa. Development of a bubble enhanced energy efficient indoor air cleaning and purification technology through design, construction, experimental investigation, modelling and simulation.

- Chimaoge Okezue. Effect of Chemical Impurities on Centrifugal Machine Performance: Implications for Compressor Sizing in a CO2 Transport Pipeline.

Ongoing PhDs

- Hannah Marsden. Waste textile utilisation accompanied by Hydrogen and Carbon Nanomaterials production.

- Aleksei Iurkov. Development of compact mobile autonomous system for dissolved CO2 detection.

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