GENERAL
Name: Boldyryev, Stanislav

Date of birth: 18.12.1975
E-mail: stanislav(dot)boldyryev(at)fsb(dot)unizg(dot)hr
Phone (cell): +385 1 616 84 93
Current Location: Zagreb, Croatia

ORCID: https://orcid.org/0000-0002-2866-3995
Google scholar: https://scholar.google.com/citations?hl=en&user=IcQ9gkEAAAAJ
Researcher ID: O-8465-2016
Scopus Author ID: 23988686100
CROSBI Author ID: 40787
EDUCATION

Oct 2004 – Sep 2007 Department of Integrated Processes and Chemical Engineering, National Technical University “Kharkiv Polytechnic Institute”, Kharkiv, Ukraine, specialty – Chemical Engineering
PhD Degree: National Technical University “Kharkiv Polytechnic Institute”, Kharkiv, Ukraine
PhD Thesis: “Process integration and high effective HENs in chemical processes”, Supervised by Professor Leonid Tovazhnyanskyy and Professor Leonid Ulyev
Sep 1997 – Feb 1999 Kharkiv State Polytechnic University, Kharkiv, Ukraine (now National Technical University “Kharkiv Polytechnic Institute”),
specialty – Process engineering of fats and oils
MSc Degree: Kharkiv State Polytechnic University, Kharkiv, Ukraine
MSc Thesis: “Synthesis of surface active agents based on renewable feedstock”, Supervised by Professor Anatoliy Melnik
Sep 1993 – June 1997 Kharkiv State Polytechnic University, Kharkiv, Ukraine (now National Technical University “Kharkiv Polytechnic Institute”),
specialty – Food Processing
BSc Degree: Kharkiv State Polytechnic University, Kharkiv, Ukraine
BSc Thesis: “Crude glycerine production”, Supervised by Professor Leonid Perevalov
ADVANCED TRAININGS/COURSES

Oct 2022 – March 2023 Green Hydrogen and Renewable Power-to-X Professional (Renewables Academy - RENAC AG ), Berlin, Germany
Sep 2017 Fouling in Refinery Heat Exchanger Networks, Heat Transfer Research Inc. (HTRI), Guilford, UK
May 2016 COFUND as a moving pulse of research excellence: challenges and opportunities, Ministry of Science, Education and Sports, Republic of Croatia, Zagreb, Croatia
Apr 2015 Intellectual property for NEWFELPRO researchers, Government of the Republic of Croatia, Zagreb, Croatia.
June 2010 Summer School - Process Integration and Intensification, Process Optimisation and Regional Sustainability, Faculty of Information Technology, University of Pannonia, Veszprem, Hungary
Oct 2003 Summer School – Process integration with use of high effective heat exchanger equipment, National Technical University “Kharkiv Polytechnic Institute”, Kharkiv, Ukraine
Apr 2002 Process Integration Trainings, Centre for Process Integration of University of Manchester Institute of Science and Technology, Manchester, UK
LANGUAGE SKILLS

Ukrainian – native,
Russian – native,
English – fluent,
Croatian – basic proficiency,
CITIZENSHIP, TRAVEL TIME TO WORK

Citizenship: Ukraine
Work permit: Ukraine, Croatia
Travel time: Any
Ready to relocate
Ready for business trips
EXPERIENCE

April 2022 – now
Employer: Department of Energy, Power Engineering and Environment, Faculty of Mechanical Engineering and Naval Architecture, University of Zagreb, Zagreb, Croatia (www.fsb.unizg.hr)
Industry: Higher education, research
Position(s): Senior Researcher
October 2019 – March 2022
Employer: Research School of Chemical and Applied Biomedical Sciences, Tomsk Polytechnic University, Tomsk, Russian Federation (www.tpu.ru)
Industry: Higher education, research
Position(s): Senior Researcher / Associate Professor
November 2018 – December 2021
Employer: Department of Process Machines and Equipment, South Kazakhstan State University, Shymkent, Kazakhstan (www.ukgu.kz/en)
Industry: Higher education, research
Position(s): Guest Professor
September 2017 – October 2019
Employer: Neva-Teplotechnika Engineering Company (HTRI, CALGAVIN and PSE representative in CIS countries), Pushkin, Saint-Petersburg, Russian Federation, (www.neva-teplo.ru)
Industry: Engineering, consulting
Position(s): Co-founder and Head of Process Integration Department
November 2016 – August 2017
Employer: The Centre for Sustainable Development of Energy, Water and Environment Systems (SDEWES Centre), University of Zagreb, Zagreb, Croatia (www.sdewes.org)
Industry: Research, consulting
Position(s): Energy Efficiency Expert
October 2014 – October 2016
Employer: Department of Energy, Power Engineering and Environment, Faculty of Mechanical Engineering and Naval Architecture, University of Zagreb, Zagreb, Croatia (www.fsb.unizg.hr)
Industry: High education, research
Position(s): Marie Curie Research Fellow (NEWFELPRO)
September 2013 – October 2014
Employer: Chemical plant PJSC “Brom”, Krasnoperekopsk, Ukraine (www.perkopbromine.com)
Industry: Chemical industry
Position(s): Deputy General Director on Development
June 2012 – October 2012
Employer: Center for Process Integration and Intensification, Faculty of Information Technology, University of Pannonia, Veszprem, Hungary (http://cpi.uni-pannon.hu/)
Industry: High education, research
Position(s): Guest researcher
February 2007 — August 2013
Employer: Centre for energy saving process integration of National Technical University "Kharkiv Polytechnic Institute" Kharkiv, Ukraine (www.kpi.kharkov.ua)
Industry: High education, research
Position(s): Associate Professor (2009-2013),
Assistant Professor (2007-2009)
February 1999 — August 2013
Employer: AO Spivdruzhnist-T LLC (Alfa Laval manufacturer), Kharkiv, Ukraine (www.sodr-t.kharkiv.com/)
Industry: Engineering, manufacturing, consulting
Position(s): Project manager (2007-2013)
Senior Researcher (2004-2007),
Researcher (2001-2004),
Engineer (1999-2000)
PROJECTS

Industrial projects
Oct 1999 – Dec 2000 Ukraine, Zaporozhie Coke–Chemical Plant - Expertise, process integration
Jan 2001 – Dec 2001 Russia, Taranovka, Dmitro-Taranovskii Sugar Plant - Expertise, pinch analysis, heat recovery improvement
Dec 2001 – Dec 2002 Ukraine, Avdeevka Coke-Chemical Plant - Expertise, pinch analysis and HEN retrofit of coal tar distillation plant, benzene hydrocarbons distillation plant
Jul 2002 – Jun 2003 Ukraine, Mariupol Coke–Chemical Plant - Expertise, process integration
Feb 2004 – Nov 2004 Ukraine, Kherson Refinery OAO “Khersonneftepererabotka”, Crude distillation, Reforming, Utility system - Expertise, energy audit, heat integration, HEN optimisation
Aug 2006 – Nov 2006 Ukraine, Lisichansk Refinery "LINIK". Crude distillation unit - Expertise, energy audit, pinch analysis
Feb 2007 – May 2007 Ukraine, Kharkiv Fats and Oils Factory - Expertise, energy audit, process integration, calculation of plate heat exchangers
Aug 2007 – Dec 2007 Ukraine, Sumy Chemical plant “SumyKhimprom” - Expertise, energy audit, process integration of titanium dioxide production
Aug 2008 – Dec 2008 Russia, Chaykovskiy “UralOrgSynthesis”, Gas Fractioning Unit - Expertise, energy audit, pinch analysis
Feb 2011 – Sep 2011 Ukraine, Zaporozhie Titanium-Magnesium Plant – Expertise, pinch analysis, heat pumps integration
Dec 2011 – Mar 2012 Ukraine, Lisichansk Refinery "LINIK" - Crude distillation unit, Bitumen unit - Expertise, energy audit, heat integration, plate heat exchangers calculation
Feb 2012 – Jun 2012 Russia, Saratov Refinery, Crude distillation - Expertise, energy audit, pinch analysis
Jun 2012 – Dec 2012 Russia, Carbamide Production – Expertise, process integration, plate heat exchangers calculation
Feb 2013 – Oct 2013 Russia, Nizhniy Novgorod Refinery, Ethylene oxide and Benzene Plants – Expertise, energy audit, process integration
Oct 2014 – Dec 2014 Russia, Ryazan Refinery, Crude oil unit - Expertise of Pinch Analysis project
Feb 2015 – Oct 2015 Croatia, Holcim - Cement Factory. Energy audit, Process Integration, Total Site Analysis.
Feb 2016 – May 2016 Russia, Saratov Refinery, crude oil distillation, reforming. Pinch analysis, energy efficiency, emission reduction, HEN optimisation, project management.
May 2016 – July 2016 Russia, Syzran Refinery, crude oil distillation, hydrotreater. Pinch analysis, energy efficiency, emission reduction, HEN optimisation, project management.
July 2016 – Sept 2016 Russia, Samara Refinery, crude oil distillation units. Pinch analysis, energy efficiency, emission reduction, HEN optimisation, project management.
Sept 2016 – Dec 2016 Russia, Novokuibyshevsk Refinery, crude oil distillation, delayed coking unit, crude oil treatment plant. Pinch analysis, energy efficiency, emission reduction, HEN optimisation, project management.
Sept 2016 – Dec 2016 Croatia, Zagreb brewery. Energy expertise, energy audit, Pinch Analysis.
Nov 2016 – Apr 2017 Russia, Angarsk Refinery, crude oil distillation, hydro-cracker, crude oil treatment plant. Pinch analysis, energy efficiency, emission reduction, HEN optimisation, project management.
Feb 2017 – May 2017 Russia, Achinsk Refinery, combined LK-6Us unit. Pinch analysis, energy efficiency, emission reduction, HEN optimisation, project management.
Apr 2017 – July 2017 Russia, Komsomolsk on Amur Refinery, crude distillation units, hydrotreater, reformer, gas fractioning units. Process integration, energy efficiency, HEN retrofit, emission reduction., project management.
Oct 2017 – Jan 2018 Russia, SIBUR-POLYEF, Terephthalic acid production. Energy expertise, heat transfer enhancement.
Sept 2018 – Dec 2018 Russia, SIBUR petrochemical. Examination of innovative technical solutions aimed at optimising petrochemical plants. Project coordination.
Sept 2019 – June 2020 Russia, Angara-service Ltd. Modelling of crude oil unit of Omsk Refinery under fouling in heat exchanger network. Process simulation, economic assessment.
Apr 2020 – Aug 2020 Russia, SIBUR–Tomskneftechim. Assessment of the energy-saving potential of monomer production. Energy expertise, process modelling, investigation of energy-saving potential, development of energy-saving measures, project coordination.
Mar 2021 – Sept 2021 Russia, SIBUR–Tomskneftechim. Improving the energy efficiency of monomer production with the use of the Pinch analysis. Plant expertise, measurements, data reconciliation, process simulation, debottlenecking, retrofit, economic analysis, management and coordination.
Nov 2021 – Feb 2022 Russia, SIBUR–ZapSibNeftekhim. Assessment of the energy-saving potential of gas fractioning unit. Data extraction and reconciliation, process simulation, assessment of energy-saving potential, project coordination.
Nov 2021 – Feb 2022 Russia, SIBUR–Kstovo. Assessment of the energy-saving potential of monomer and benzene plants. Data extraction and reconciliation, process simulation, assessment of energy-saving potential, project supervision.
June 2023 – Oct 2023 Ukraine, TECHNOPROMIMPEX Ltd. Simulation of dual pressure nitric acid plant. Data acquisition, steady state digital twin development and approval.
Nov 2023 – Dec 2023 Ukraine, TECHNOPROMIMPEX Ltd. Modelling of selective gas treatment of dual pressure nitric acid plant. Data acquisition, process simulation, steady state digital twin development, and development of the optimisation scenario.
Research projects
Nov 1999 – Nov 2000 EC project SYNERGY (contract No 4.1041 /D/99-028) “Analysis of the possibilities of energy saving and application of non-traditional sources of energy, with prognostication of a corresponding reduction in greenhouse gas emissions” Optimisation of heat exchangers networks, pinch analysis, estimation of energy saving potential
Sept 2001 – Sept 2004 EC Project DEMACSYS (contract No ICA-CT-2001-10005) “Development and application of decision-making computerized system for environmental impact assessment and pollution reduction management in chemical industrial areas” Expertise, energy audit, heat integration, total site integration
Oct 2004 – Jan 2008 EC project SHERHPA (project No COLL-CT-500229) – Sustainable heat and energy research for heat pump application, collective research.
Heat integration of ammonia cooling cycle of food processing factories, expertise of ammonia cooling heat pumps, heat exchangers calculation. Project management
Jan 2006 – Dec 2008 EC project ECOPHOS (No INCO-CT-2005-013359) – Waste utilization in the phosphoric acid industry through the development of ecologically sustainable and environmentally friendly processes for a wide class of phosphorous containing products.
Expertise, energy audit, heat integration of phosphoric acid production, PFI Company, Greece. HEN optimization for sodium hypophosphite production, project management
Dec 2010 – Dec 2012 EC Project "INTHEAT" (Grant Agreement 262205) – Intensified heat transfer technologies for enhanced heat recovery.
Data extraction, heat integration, plate heat exchangers calculation, project management
Feb 2012 – Aug 2013 EC Project FP7 project “DISKNET” Grant Agreement No: PIRSES-GA-2011-294933) – Distributed Knowledge-Based Energy Saving Networks.
Energy efficiency, Total Site Integration, HEN optimization, Project management
Aug 2012 – Aug 2013 EC Project “EFENIS” (Grant Agreement No. ENER/FP7/296003/EFENIS) – Efficient Energy Integrated Solutions for Manufacturing Industries.
Energy efficiency for refinery and coal to chemicals, Total Site Integration, Heat Recovery
Oct 2014 – Oct 2016 EC and Croatian Government Project CARBEN (NEWFELPRO Grant Agreement No. 39) - Carbon footprint reduction and energy efficiency via development an advanced techniques for Total Site integration,
Energy audit, Pinch Analysis, Total Site Analysis, Project management
Oct 2014 – Jan 2015 Republic of Croatia. Changes in Croatian by-law. Pinch Analysis was added as an obligatory measure for the guidance of energy audit of big enterprises in the Republic of Croatia (“Narodne novine”, No 127/2014).
June 2018 – Dec 2018 UK – Russia, SIBUR petrochemical, CalGavin Ltd., Process Integration Ltd., Process Systems Enterprise Ltd, University of Manchester, Newcastle University. Industry – academia partnering and knowledge transfer for a wide range of heat and mass transfer technologies. Project management and coordination.
June 2020 – Dec 2020 Russia (contract No. VIU-199-2020) - Assessment of the resource flows potential and its optimisation at the regional level based on a digital representation and circular economy principles. Conceptualisation, methodology development, project management and coordination.
Jan 2021 – Dec 2023 Kazakhstan (contract AP09260365). Carbon footprint reduction and energy efficiency improvement through the development of advanced methods for the wide integration of industrial territories. Proposal preparation, conceptualisation, methodology development, co-supervision.
May 2022 – Dec 2023 EC project INSULAE (Grant agreement ID: 824433). Maximizing the impact of innovative energy approaches in the EU islands. Research and development.
Oct 2023 – now EC project SET_HEAT (No. 101119793, LIFE-2022-CET-DH) - Supporting Energy Transition and Decarbonisation in District Heating Sector. Trigger strategic investment programmes of DH companies, which nowadays largely rely on combustion processes of fossil fuels and biomass, in Poland, Lithuania, Romania, and Croatia.
ACADEMIC ACTIVITIES

University teaching
  • 2022 - now, University of Zagreb, Faculty of Mechanical Engineering and Naval Architecture, Croatia
    - Energy Management - energy integration in industry
    - BSc, MSc and PhD co-supervision
  • 2019 - 2022, Tomsk Polytechnic University, Russia
    - Process integration and energy efficiency of chemical processes
    - MSc and PhD supervision
  • 2021, South Kazakhstan University, Kazakhstan
    - Process Integration
    - Energy Efficiency in Industry
    - Process simulation (Aspen HYSYS, UniSim Design)
    - MSc and PhD supervision
  • 2018, South Kazakhstan University, Kazakhstan
    - Process Integration
    - Energy Efficiency in Industry
    - Heat exchanger networks
    - Process simulation (Aspen HYSYS, UniSim Design)
    - MSc and PhD supervision
  • 2014-2016, Department of Energy, Power Engineering and Environment, University of Zagreb, Croatia
    - Energy efficiency in industry
    - Total Site Integration
    - Process optimisation
    - Process simulation (Aspen HYSYS, UniSim Design)
    - BSc supervision
  • 2007-2013, Centre for Energy Saving Process Integration, National Technical University "Kharkiv Polytechnic Institute", Ukraine
    - Process Simulation (Aspen HYSYS, UniSim Design)
    - Energy Audit
    - Process Integration
    - Environmental Economy
    - MSc and BSc supervision

  • Industry teaching
  • Oct 2021 - Feb 2022, EuroChem, fertilizer manufacturer, Russia
    - System analysis and energy efficiency of chemical processes
    - Industrial case study supervision & consulting
  • Dec 2021 - Feb 2022, SIBUR, Petrochemical Company, Russia
    - Chemical process integration
  • Apr 2021 - Dec 2021, SIBUR, Petrochemical Company, Russia
    - Process Integration and energy efficiency
    - Industrial case study supervision & consulting
  • March 2021 - Apr 2021, SIBUR, Petrochemical Company, Russia
    - Energy and resource efficiency of process industry
    - Industrial case study supervision & consulting
  • Dec 2019 - June 2020, SIBUR, Petrochemical Company, Russia
    - Energy efficiency
    - Pinch technology
    - Industrial case study supervision & consulting
  • Oct 2019, SIBUR, Petrochemical Company, Russia
    - Process integration and energy efficiency
    - Industrial case study supervision & consulting
  • Oct 2019, SIBUR, Petrochemical Company, Russia
    - Process integration and energy efficiency
  • Oct 2019, SIBUR, Petrochemical Company, Russia
    - Pinch Analysis
  • Feb 2016, Rosneft, Oil Company, Russia
    - Integrated process design
  • May 2015, Rosneft, Oil Company, Russia
    - System analysis and design of energy-efficient processes
  • July 2014, Rosneft, Oil Company, Russia
    - Process simulation (HYSYS, UniSim Design)
  • EDITORSHIP & PEER REVIEW

    Editorship
    Current editorial role in journals:
    - From 2023 – Energy, Ecology and Environment (E3), Springer (Subject Editor)
    - From 2024 – Journal of Sustainable Development Indicators, SDEWES Center (Subject Editor)
    - From 2021 – Thermal Science and Engineering Progress, Elsevier (Guest Editor)
    - From 2021 – Energies, MDPI (Guest Editor)
    - From 2021 – Energy Sources, Part A: Recovery, Utilization, and Environmental Effects, Taylor & Francis (Editorial Board Member)
    - From 2019 – Fine Chemical Engineering, Universal Wiser Publisher, Singapore (Editorial Board Member)
    - From 2022 – Frontiers in Energy Efficiency - Energy Efficiency Applications (Editorial Board Member)
    - From 2015 – Proceedings of Conference on Sustainable Development of Energy, Water and Environment Systems (SDEWES), Faculty of Mechanical Engineering and Naval Architecture, University of Zagreb

    Past membership:
    - 2019-2021 – Resource-Efficient Technologies, Elsevier (Managing Editor)
    - 2015-2016 - Thermal Science Journal (Guest Editor)
    - 2018-2020 - International Journal of Petroleum and Petrochemical Engineering (Editor)
    - 2016-2019 - Journal of Petroleum (Editor)

    Project evaluation
    European Commission:
    - 2023 – HORIZON-CL4-2023-RESILIENCE-01, HORIZON-CL4-2023-TWIN-TRANSITION-01, HeDEA
    - 2020 – H2020-LC-SC3-2020-NZE-RES-CC, INEA
    - 2018 – H2020-WIDESPREAD-04-2019 – ERA Chairs Evaluation
    National Research Fund of Ukraine:
    - 2022-2023 – 2022.01. Science for the reconstruction of Ukraine in the war and post-war periods
    EQA:
    - From 2022 – Research, Development and Technological Innovation projects
    Innovation Agency of Lithuania:
    - 2023 – No. 05-001-01-05-06/12-001-01-03-01 Implementing mission-driven science and innovation programmes - 2023 – Evaluation of R&D projects
    Sultan Qaboos University:
    - 2023 – Research Proposals (SQU – QU Joint Grant)
    Peer review
    Scientific journals:
    - Energy
    - Journal of Cleaner Production
    - Energy Conversion and Management
    - Applied Energy
    - Energy Sources, Part A: Recovery, Utilization and Environmental Effects
    - Applied Thermal Engineering
    - Journal of Environmental Management
    - Energies
    - Case Studies in Thermal Engineering
    - Clean Technologies and Environmental Policy
    - and other

    Conference papers and proceedings:
    - SDEWES
    - SEE SDEWES
    - LA SDEWES
    - PRES
    - ESCAPE
    ORGANISATION ACTIVITIES

  • International Scientific Committee Member of PRISE Foundation, from 2024, EU
  • Scientific advisory board member of Conference on Sustainable Development of Energy, Water and Environment Systems (SDEWES), 2015-2024, Croatia
  • Scientific advisory board member South European Conference on Sustainable Development of Energy, Water and Environment Systems (SEE SDEWES), 2016-2024
  • Scientific advisory board member of Latin American Conference on Sustainable Development of Energy, Water and Environment Systems (LA SDEWES), 2016-2024
  • Scientific committee member of 28th European Symposium on Computer-Aided Process Engineering (ESCAPE), 2018, Graz, Austria
  • Co-chair of Organising Committee and SAB member of 3d International Scientific Conference «Sustainable and Efficient Use of Energy, Water and Natural Resources» (SEWAN), 2021, Saint-Petersburg, Russia
  • Organising Committee Member of 2nd World Conference & Expo on Petrochemistry & Natural Resources, 2017, Abu Dhabi, UAE
  • Organising Committee Member of 9 International Conference on Petroleum Geology and Petroleum industry, 2017, Vienna, Austria
  • Member of local organisation committee of an International Conference “Integrated technologies and energy saving”, 2001-2013, Ukraine
  • Creation of new speciality “Integrated industrial processes” at National Technical University “Kharkiv Polytechnic Institute”, 2003 - 2009, Kharkiv, Ukraine
  • Creation of new branch “Process System Engineering and Sustainability” at Research School of Chemical and Biomedical Sciences, Tomsk Polytechnic University, 2019-2021, Tomsk, Russia
  • Session chair of different scientific conferences
  • PUBLICATIONS

    Publications (158 publications, 109 in English, 49 in Ukrainian and Russian)
    Key papers in English
    Scientific Papers Published in SCI/CC Journals
  • Boldyryev S, Ilchenko M, Krajačić G. Improving the Economic Efficiency of Heat Pump Integration into Distillation Columns of Process Plants Applying Different Pressures of Evaporators and Condensers. Energies. 17(4), 2024, 951
  • Boldyryev S., Ilchenko M., Kaldybaeva B., Krajačić G. Modelling of the Use of Renewable Energies and Energy-Saving Measures for Polymer Chemical Plant, Chemical Engineering Transactions, 103, 2023, 535-540
  • Galeazzi A., Boldyryev S., Khussanov A., Krajacic G., Manenti F. CAPE-based Curricula for the Improvement of Chemical Plants, Chemical Engineering Transactions, 103, 2023, 673-678
  • Boldyryev S., Kuznetsov M., Ryabova I., Krajačić G., Kaldybaeva B., Assessment of renewable energy use in natural gas liquid processing by improved process integration with heat pumps, e-Prime - Advances in Electrical Engineering, Electronics and Energy, 5, 2023, 100246
  • Boldyryev S., Gil T., Krajačić G., Khussanov A., Total site targeting with the simultaneous use of intermediate utilities and power cogeneration at the polymer plant, Energy, 279, 2023, 128034
  • Ulyev L., Boldyryev S., Kuznetsov M. Investigation of process stream systems for targeting energy-capital trade-offs of a heat recovery network, Energy, 263, Part D, 2023, 125954
  • Boldyryev S., Gil T., Ilchenko M. Environmental and economic assessment of the efficiency of heat exchanger network retrofit options based on the experience of society and energy price records. Energy, 260, 2022, 125155
  • Ilyunin O., Rudenko O., Bezsonov O., Boldyryev S., Zorenko V., Serdiuk N. Neural Network Controller of Flow through a Butterfly Valve. 2022 IEEE 3rd KhPI Week on Advanced Technology (KhPIWeek), 2022, pp. 1-5
  • Boldyryev S., Gil T., Khussanov A., Krajačić G. Energy-Saving Potential of an Existing Monomer Production by Combined Process and Inter-Plant Integration, Chemical Engineering Transactions, 94, 2022, 613-618
  • Kuznetsov M., Tsibulsky S., Boldyryev S. Optimisation of heat distribution system by using the inter-cluster connections model accounting for water consumption and emissions, Journal of Cleaner Production, 369, 2022, 133373
  • Tsvetkov N., Boldyryev S., Shilin A., Krivoshein Y., Tolstykh A., Hardware and Software Implementation for Solar Hot Water System in Northern Regions of Russia. Energies, 2022, 15(4), 1446
  • Kuznetsov M., Boldyryev S., Kenzhebekov D., Kaldybaeva B., Improving inter-plant integration of syngas production technologies by the recycling of CO2 and by-product of the Fischer-Tropsch process, International Journal of Hydrogen Energy, 2022.
  • Gil T., Ilchenko M., Kaldybaeva B., Mironov A., Boldyryev S., Economic Assessment of Heat Exchanger Network Retrofit Options Based on Historical Data of Energy Price Trends, Chemical Engineering Transactions, 88, 2021, 343-348
  • Dyudnev V., Korotkii V., Novgorodtsev S., Boldyryev S., Di Pretoro A., Bragina J., Trusova M., Manenti F., Energy Analysis and Process Simulation for the Energy Efficiency Improvement of Existing Chemical Plants, Chemical Engineering Transactions, 86, 2021, 715-720
  • Boldyryev S., Gil T., Debottlenecking of existing hydrocracking unit by improved heat recovery for energy and carbon dioxide savings. Energy Conversion and Management, 238, 2021, 114164
  • Tsvetkov N.A., Tolstykh A.V., Khutornoi A.N., Boldyryev S., Kolesnikova A.V., Tsvetkov D.N. Mathematical modelling of renewable construction materials for green energy-efficient buildings at permafrost regions of Russia, Environmental Challenges, 4, 2021, 100101
  • Boldyryev S., Shamraev A.A., Shamraeva E.O. The retrofit of the calcium chloride production by Pinch approach and process modifications, Applied Thermal Engineering, 189, 2021, 116775
  • Boldyryev S., Shamraev A.A., Shamraeva E.O. The design of the total site exchanger network with intermediate heat carriers: Theoretical insights and practical application, Energy, 223, 2021, 120023
  • Tsvetkov N.A., Krivoshein U.O., Tolstykh A.V., Khutornoi A.N., Boldyryev S., The calculation of solar energy used by hot water systems in permafrost region: An experimental case study for Yakutia, Energy, 210, 2020, 118577
  • Tsvetkov N.A., Krivoshein Y.O., Khutornoi A.N., Boldyryev S., Petrova A.V., Development of the ComputerAided Application for the Use of Solar Energy in the Hot Water Supply System of Russian Permafrost Regions, Chemical Engineering Transactions, 81, 2020, 943-948
  • Boldyryev S., ACHIEVEMENTS AND PERSPECTIVES OF PROCESS INTEGRATION IN CIS COUNTRIES. Resource-Efficient Technologies, 2020, 2, 1–14
  • Varbanov, P.S.; Chin, H.H.; Popescu, A.-E.; Boldyryev, S. Thermodynamics-Based Process Sustainability Evaluation. Energies, 2020, 13(9), 2132
  • Boldyryev S., Khussanov A., Gorbunov K., Gorbunova O., Sustainability Improvement of Kazakh Chemical Industry via Process Integration: A Case Study of Calcium Chloride Production, Chemical Engineering Transactions, 2019, 76, 1231-1236
  • Čuček L., Boldyryev S., Klemeš J.J., Kravanja Z., Krajačić G., Varbanov P.S., Duić N., Approaches for Retrofitting Heat Exchanger Networks within Processes and Total Sites, Journal of Cleaner Production, 2019, 211, 884-894
  • Vasilyev M., Boldyryev S., Process integration accounting fouling in heat exchanger network: a case study of crude oil distillation retrofit. Chemical Engineering Transactions, 2018, 70, 2149-2154
  • Ulyev L., Vasiliev M., Boldyryev S., Process integration of crude oil distillation with technological and economic restrictions, Journal of Environmental Management, 2018, 222, 454-464
  • Boldyryev S., Mikulčić H., Ulyev L., Duić N., Time Super Targeting: Planning of Optimal HEN Design Accounting Energy Prices, Chemical Engineering Transaction, 2017, 61, 1903-1908
  • Ulyev L., Boldyryev S., Vasilyev M., Zebeshev T., Khusanov A. Reducing energy consumption and CO2 Emission of coke plant, Environmental problems, 1(2), 2016, 133-144
  • Boldyryev S., Krajačić G., Duić N., Cost Effective Heat Exchangers Network of Total Site Heat Integration, Chemical Engineering Transaction, 2016, 52, 541-546
  • Schneider D. R., Guzović Z., Duić N., Boldyryev S., Energy transition in South East and Central Europe, Thermal Science, 20(4), 2016, 11-20
  • Babak T., Duić N, Khavin G., Boldyryev S., Krajačić G. Possibility of Heat Pump use in Hot Water Supply Systems, Journal of Sustainable Development of Energy, Water and Environment Systems, 4(3), 2016, 203-215
  • Boldyryev S., Mikulčić H., Krajačić G., Duić N., Waste heat utilisation of Croatian cement industry accounting Total Site demands, Computer Aided Chemical Engineering, 38, 2016, 2223-2228
  • Boldyryev S., Mikulčić H., Mohorović Z., Vujanović M., Krajačić G., Duić N. The improved heat integration of cement production under limited process conditions: A case study for Croatia, Applied Thermal Engineering, 2016, 105, 839-848
  • Barkaoui A., Boldyryev S., Duic N., Krajacic G., Guzović Z., Appropriate integration of geothermal energy sources by Pinch approach: Case study of Croatia, Applied Energy, 2016, 184, 1343–1349
  • Boldyryev S., Krajačić G., Duić N., Varbanov P. S., Cost Minimisation for Total Site Heat Recovery, Chemical Engineering Transaction, 2015, 45, 157-162
  • Boldyryev S., Varbanov, P. S., Low potential heat utilization of bromine plant via integration on process and Total Site levels, Energy, 2015. Vol. 90(1), 47-55
  • Nagy E., Mizsey P., Hancsók J., Boldyryev S., Varbanov P., Analysis of energy saving by combination of distillation and pervaporation for biofuel production, Chemical Engineering and Processing: Process Intensification, 2015, Vol. 98, 86-94
  • S. Boldyryev, P. S. Varbanov, Process Integration for Bromine Plant, Chemical Engineering Transaction, 2014, 39, p. 1423-1428
  • S. Boldyryev, P. S. Varbanov, A. Nemet, J. J. Klemeš, P. Kapustenko, Minimum heat transfer area for Total Site heat recovery, Energy Conversion and Management. 2014, 87, p. 1093–1097
  • S. Boldyryev, P. S. Varbanov, A. Nemet, P. Kapustenko, J. J. Klemeš, Targeting Minimum Heat Transfer Area for Heat Recovery on Total Sites, Chemical Engineering Transactions, 2013, 35, p. 79-84
  • L. M. Ulyev, P. A. Kapustenko, M. A. Vasilyev, S. A. Boldyryev, Total Site Integration for Coke Oven Plant, Chemical Engineering Transaction, 2013, 35, 235-240
  • E. Nagy, S. Boldyryev, Energy demand of biofuel production applying distillation and/or pervaporation, Chemical Engineering Transaction, 2013, 35, 265-270
  • S. Boldyryev, A. Garev, O. Ilunin, A. Shamraev, O. Selyakov , O. Leshchenko, P. Kapustenko, Modified Criterion for Economic Efficiency Estimation of Heat Pumps. Chemical Engineering Transactions, 2013, 35, p. 475-480
  • S. A. Boldyryev, A. O. Garev, J. J. Klemeš, L. L. Tovazhnyansky, P. O. Kapustenko, O. Yu, Perevertaylenko, O. P. Arsenyeva, Theoretical Foundations of Chemical Engineering, 2013, 47 (1), p. 39-46
  • S. Boldyryev, P. S. Varbanov, A. Nemet, J. J. Klemeš, P. Kapustenko, Capital Cost Assessment for Total Site Power Cogeneration, Computer Aided Chemical Engineering, Volume 32, 2013, p. 361-366
  • S. A. Boldyryev, P. O. Kapustenko, L. L. Tovazhnyansky, A. O. Garev, O. Yu. Perevertaylenko, G. L. Khavin, O. P. Arsenyeva, J. J. Klemeš, Ammonia Refrigeration Cycle Integration in Buildings Heating System, Chemical Engineering Transaction, 2012, 29 (2), p. 1453-1458
  • A. Nemet, P. S. Varbanov, P. Kapustenko, S. Boldyryev, J. J. Klemeš, Capital Cost Targeting of Total Site Heat Recovery, Chemical Engineering Transaction, 2012, 29 (2), p. 1447-1452
  • Tovazhnyansky L., Kapustenko P, Ulyev L., Boldyryev S., Heat Integration Improvement for Benzene Hydrocarbons Extraction from Coke-Oven Gas, Chemical Engineering Transaction, 2011, 25, p. 153-158
  • L. Tovazhnyansky, P. Kapustenko, L. Ulyev, S. Boldyryev, O. Arsenyeva, Process integration of sodium hypophosphite production, Applied Thermal Engineering, 2010, 30, p. 2306-2314
  • L. L. Tovazhnyanskii, P. A. Kapustenko, L.M. Ul’ev, S. A. Boldyrev, O. P. Arsen’eva, M. V. Tarnovskii. Thermal Process Integration in the AVDU A12/2 Crude Distillation Unit during Winter Operation. Theoretical Foundations of Chemical Engineering, 2009, Vol. 43, No. 6, pp. 906–917
  • Leonid Tovazhnyansky, Petro Kapustenko, Leonid Ulyev, Stanislav Boldyryev. Synthesis of energy saving integrated flowsheet for sodium hypophosphite production. Chemical Engineering Transactions Volume 18, 2009, p. 93-98
  • P. Kapustenko, S. Boldyryev, O. Arsenyeva, G. Khavin, The use of plate heat exchangers to improve energy efficiency in phosphoric acid production, Journal of Cleaner Production, 2009, No 17, p. 951–958
  • Petro O. Kapustenko, Leonid M. Ulyev, Stanislav A. Boldyryev, Andrey O. Garev, Integration of heat pump into the heat supply system of cheese production plant, Energy, 2008, 33 (8), p. 882-889
  • Tovazhnyanskyy L., Sherstyuk V., Kapustenko P., Khavin G. Perevertaylenko O., Boldyrev S., Garev A., Plate heat exchangers for environmentally friendly heat pumps, Chemical Engineering Transactions, 2007, 12, p. 213-217
  • Tovazhnyansky L., Kapustenko P., Ulyev L., Boldyryev S., Tarnovsky M., Energy integration of the early crude oil units with take into account different regimes, Chemical Engineering Transactions, 2005, 7, p. 103–108
  • Key conference proceedings and presentations
  • S. Boldyryev , M. Kuznetsov, T. Gil , G. Krajačić, B. Kaldybaeva. Assessment of renewable energy use in a gas fractionation plant. Book of abstracts. 17th Conference on Sustainable Development of Energy, Water and Environment Systems – SDEWES. 6.11.22 – 10.11.22. Paphos, Cyprus.
  • S. Boldyryev, H. Mikulčić, Z. Mohorović, M. Vujanović, G. Krajačić, Heat Recovery and CHP Approach for Site of Cement Plant, Book of abstracts, 10th Conference on Sustainable Development of Energy, Water and Environment Systems – SDEWES, 27.09.15 – 3.10.15, Dubrovnik, Croatia, p. 597.
  • A. Barkaoui, S. Boldyryev, N. Duić, G. Krajačić, Z. Guzović, Appropriate Integration of Geothermal Energy Sources by Pinch Approach: Case Study of Croatia, Book of abstracts, 10th Conference on Sustainable Development of Energy, Water and Environment Systems – SDEWES, 27.09.15 – 3.10.15, Dubrovnik, Croatia, p. 359.
  • S. Boldyryev, G. Krajačić, Targeting of Trade-Off for Total Site Heat Recovery, Book of abstracts, 10th Conference on Sustainable Development of Energy, Water and Environment Systems – SDEWES, 27.09.15 – 3.10.15, Dubrovnik, Croatia, p. 134.
  • S. Boldyryev, G. Krajačić, N. Duić, T. Novosel, Contributing global CO2 mitigation by utilisation of food industry heat into smart Croatian DHS via Total Site heat recovery, Book of abstracts: International Conference on Smart Energy Systems and 4th Generation District Heating, 25.08.2015 - 26.08.2015, Aalborg University, Copenhagen, p. 98.
  • S. Boldyryev, B. Ćosić, G. Krajačić, D. F. Dominković, K. Štefanec, N. Duić, Pollution reduction in Croatian food industry via Total Site heat recovery, 4th International Conference on Sustainability Science and Engineering, Balatonfured, Hungary, 2015, p. 32
  • S. Boldyryev, G. Krajačić, Energy efficiency and carbon footprint reduction for Croatian regions by Total Site integration, Proceedings of 23rd International Symposium on Heating, Refrigerating and Air Conditioning, 2015, Zagreb, Croatia
  • P. S. Varbanov, S. Boldyryev, A. Nemet, J. J. Klemeš, P. Kapustenko, Targeting of the Trade-Off of Capital Cost and Carbon Footprint for CHP, 6th International Conference on Process Systems Engineering (PSE ASIA) 25 - 27 June 2013, Kuala Lumpur
  • S. Boldyryev, A. Garev, A. Yuzbashyan, O. Arsenyeva, Preventing fouling in PHEs for crude oil distillation unit, Presented at CAPE Forum 2013 – Computer Aided Process Engineering, 7-10 April 2013, Graz University of Technology, Graz, Austria, p. 6
  • L. Tovazhnyansky, P. Kapustenko, L. Ulyev, L. Melnykovskaya, S. Boldyryev, Refinement of the payload tube furnace by taking into account the heat losses in heat exchange equipment and piping installation of primary oil refining unit, Proceedings of 20th International Congress of Chemical and Process Engineering – CHISA, 25 – 29 August, 2012, Prague, Czech Republic. p. 309
  • Garev, S. Boldyryev, O. Arsenyeva, L. Tovazhnyanskyy, P. Kapustenko, Integration of Ammonia Cooling Cycle in Buildings Heating System with Computer Modeling, Presented at CAPE-2012: Computer Aided Process Engineering Forum, Veszprem, Hungary, 2012
  • L. Tovazhnyansky, P. Kapustenko, L. Ulyev, S. Boldyryev, M. Vasilyev., Process integration of benzene distillation unit at the coke plant, Presented at CHISA 2006: 19th International Congress of Chemical and Process Engineering, Prague, Czech Republic, 2010
  • Tovazhnyansky L. L., Kapusteno P.A., Ulyev L.M. and Boldyryev S. A., Energy Saving Potential of Phosphoric Acid Production by Wet Process, Proceedings of Computer Aided Process Engineering Forum – CAPE, 2008, Thessaloniki, Greece
  • Tovazhnyanskyy L., Kapustenko P., Ulyev L., Boldyrev S., Garev A., Heat Integration of ammonia cooling unit into the purification process of fats and oils, Presented at ESCAPE17: 17th European Symposium on Computer Aided Process Engineering: Bucharest, Romania, 2007
  • P. O. Kapustenko, G. L. Khavin, A. Y. Perevertaylenko, S. A. Boldyryev, Compact heat exchangers for phosphoric acid production, 17th International Congress of Chemical and Process Engineering, CHISA 2006, Summaries Vol. 4. System Engineering, Prague, Czech Republic, 2006
  • L. L. Tovazhnyansky, P. O. Kapustenko, L. M. Ulyev, S. A. Boldyrev, O. Yu. Perevertaylenko, Integration of ammonia refrigeration cycle into the heating system of a dairy factory, Heat transfer in components and systems for sustainable energy technologies, Heat-SET 2005 conference, Grenoble, France, 2005
  • L. L. Tovazhnyansky, P. O. Kapustenko, O. Perevertaylenko, S. O. Boldyryev, A. O. Garev, Energy saving retrofit of refrigerating section of dairy factory with using of modern methods of process integration and high effective heat exchangers, 16th International Congress of Chemical and Process Engineering, CHISA’2004, Summaries Vol. 4. System Engineering, Prague, Czech Republic, 2004
  • Tovazshneanski L. L., Kapustenko P. A., Ulyev L. M., Boldyryev S. A., Heat Integration Improvement for Eastern European Countries Sugar-Plant, 15th International Congress of Chemical and Process Engineering, CHISA’2002, Summaries Vol. 4. System Engineering, Prague, Czech Republic, 2002
  • Tovazshneanski L. L., Kapustenko P.A., Ulyev L. M., Boldyryev S., Djelali V. V., Rubchevcky V. N., Volokh V. M., The Heat Integration in Process of Producing the Pitch From Coal Tar. 4th Conference on Process Integration, Modelling and Optimisation for energy Saving and Pollution Reduction, PRES’01, Florence, Italy, 2001
  • In Ukrainian and Russian
    Scientific Papers Published in Scientific Journals
  • Товажнянский Л.Л., Капустенко П.А., Ульев Л.М., Перевертайленко А.Ю., Болдырев С.А., Рубчевский В.Н., Волох В.М. Анализ потенциала энергосбережения в процессе дистилляции каменноугольной смолы // Інтегровані технології та енергозбереження. Харьков. 2001, №2. С. 16 – 22.
  • Товажнянский Л.Л., Капустенко П.А., Ульев Л.М., Болдырев С.А. Улучшение тепловой интеграции на сахарных заводах // Інтегровані технології та енергозбереження, 2002, № 2. С. 11 – 16
  • Товажнянский Л.Л., Капустенко П.А., Ульев Л.М., Болдырев С.А. Тепловая интеграция и энергосбережение в сахарной промышленности // Вестник НТУ “ХПИ”. 2002. Вып. 9. Т. 1. Харьков. НТУ “ХПИ”. С. 94 – 105
  • Товажнянский Л.Л., Капустенко П.А., Ульев Л.М., Болдырев С.А., Бухкало С.И., Кауфман С.И. Определение потенциала энергосбережения процесса дистилляции каменноугольной смолы и процесса переработки нафталиновой фракции на авдеевском КХЗ // ІТЕ. 2003, № 2. С. 23-30
  • Товажнянский Л.Л., Капустенко П.А., Ульев Л.М., Болдырев С.А. Создание оптимальной теплообменной системы в процессе дистилляции каменноугольной смолы // Інтегровані технології та енергозбереження. Харьков. 2004, №2. С. 85 – 90
  • Товажнянский Л.Л., Капустенко П.А., Ульев Л.М., Болдырев С.А., Гарев А.О. Интеграция цикла аммиачного охлаждения в теплосеть сыро-молочного завода. // Інтегровані технології та енергозбереження. Харьков. 2005, №2. С. 92 – 100.
  • Товажнянский Л.Л., Капустенко П.А., Ульев Л.М., Болдырев С.А. Теплоэнергетическая интеграция установки первичной переработки нефти АВТ А12/2 при работе с вакуумным блоком в зимнее время // Інтегровані технології та енергозбереження. Харьков. 2005, №2. С. 3 – 11.
  • Л.Л. Товажнянский, П.А. Капустенко, Л.М. Ульев, Болдырев С.А., А.Ю. Перевертайленко. Интеграция многоциклического аммиачного охлаждения сыро-молочного завода. // Энергосбережение, энергетика, энергоаудит. Харьков. 2005, №6. С. 15 – 24.
  • Товажнянский Л.Л., Капустенко П.А., Ульев Л.М., Болдырев С.А. Улучшение тепловой интеграции на сахарных заводах. // Электронный журнал энергосервисной компании "Экологические системы". 2005, №7. http://www.esco-ecosys.narod.ru/2005_7/art86.htm
  • Товажнянский Л.Л., Капустенко П.А., Ульев Л.М., Болдырев С.А. Тепловая интеграция и энергосбережение в сахарной промышленности. // Электронный журнал энергосервисной компании "Экологические системы". 2005, №7. http://www.esco-ecosys.narod.ru/2005_7/art84.htm
  • Товажнянский Л.Л., Капустенко П.А., А.Ю. Перевертайленко, Ульев Л.М., Болдырев С.А., Гарев А.О. Моделирование теплообменной системы утилизации тепла холодильного агрегата сыро-молочного завода. // Збірник наукових праць Харківського університету Повітряних Сил. Харьков. 2006, выпуск 2(8). С. 75 – 78
  • Товажнянский Л.Л., Капустенко П.А., Ульев Л.М., Болдырев С.А., Тарновский М.В. Теплоэнергетическая интеграция установки первичной переработки нефти АВТ А12/2 при работе в летнее время. // Інтегровані технології та енергозбереження. Харьков. 2006, №2. С. 12 – 20
  • Товажнянский Л.Л., Капустенко П.А., Ульев Л.М., Болдырев С.А. Определение энергосберегающего потенциала на действующих предприятиях производства жиров. // Інтегровані технології та енергозбереження. Харьков. 2007, №2. С. 3 – 12
  • Болдырев С.А. Методы энергосбережения в сахарной промышленности (обзор). // Інтегровані технології та енергозбереження. Харьков. 2007, №2. С. 28 – 33
  • Товажнянский Л.Л., Капустенко П.А., Ульев Л.М., Болдырев С.А. Определение Энергосберегающего потенциала в экстракционном процессе производства фосфорной кислоты. // Інтегровані технології та енергозбереження. Харьков. 2007, №3. С. 14 – 22
  • Товажнянский Л.Л., Капустенко П.А., Ульев Л.М., Болдырев С.А., Мельниковская Л.А., Терещенко В.Н. Пинч-интеграция процесса концентрирования ортофосфорной кислоты. Інтегровані технології та енергозбереження. Харьков. 2008, №2. С. 9 – 17
  • Товажнянский Л.Л., Капустенко П.А., Ульев Л.М., Болдырев С.А. Определение энергосберегающего потенциала на действующих предприятиях производства жиров // Сучасні технології в машинобудуванні: Зб. наук. праць. – Харків, 2008, - Випуск 1. – С. 211-223
  • Товажнянский Л.Л., Капустенко П.А., Ульев Л.М., Болдырев С.А. Интеграция процесса дистилляции каменноугольной смолы // Товажнянський Леонід Леонідович. До 75-річчя з дня народження. – Харків.: НТУ «ХПІ». 2008. – С. 44–50
  • Товажнянский Л.Л., Капустенко П.А., Ульев Л.М., Болдырев С.А., Перевертайленко А.Ю. Интеграция процесса аммиачного охлаждения сыро-молочного завода // Товажнянський Леонід Леонідович. До 75-річчя з дня народження. – Харків.: НТУ «ХПІ». 2008. – С. 51–61
  • Товажнянский Л.Л., Капустенко П.А., Ульев Л.М., Болдырев С.А., Нечипоренко Д.Д. Теплоэнергетическая интеграция процесса производства гипофосфита натрия. Інтегровані технології та енергозбереження. Харків, 2009, №2. С. 71 – 82
  • Ульев Л.М., Болдырев С.А., Поливода Е.В. Определение энергосберегающего потенциала разделения ШФЛУ на центральной газофракционирующей установке. Вісник НТУ «ХПІ», 2009, №40, с. 21-32
  • Товажнянский Л.Л., Капустенко П.А., Ульев Л.М., Болдырев С.А., Арсеньева О.П., Тарновский М.В. Интеграция тепловых процессов на установке первичной переработки нефти АВТ А12/2 при работе в зимнее время. Теоретические основы химической технологии, 2009, том 43, №6, с. 665-676
  • Товажнянський Л.Л., Капустенко П.О., Ульєв Л.М., Болдирєв С.О., Васильєв М.А. Визначення потенціалу енергозбереження процесу дистиляції сирого бензолу. Інтегровані технології та енергозбереження. Харків, 2010. №4. С. 3-7
  • Л.М. Ульєв, С.О. Болдирєв, М.А. Васильєв. Економічно обґрунтована теплова інтеграція процесу очищення коксового газу від бензольних вуглеводнів. // Вісник НТУ «ХПІ». Збірник наукових праць. Тематичний випуск «Інноваційні дослідження у наукових роботах студентів». – Харків: НТУ «ХПІ» – 2011. – № 21. – С. 125–132
  • Болдырев С.А., Клемеш Й.Я., Товажнянський Л.Л., Капустенко П.А., Гарев А.О., Арсеньева О.П. Интеграция аммиачного холодильного цикла в тепловую систему зданий. Інтегровані технології та енергозбереження. Харків, 2012. №2. С. 76-81
  • С. А. Болдырев, А. О. Гарев, П. А. Капустенко, Л. Л. Товажнянский, Й. Й. Клемеш, А. Ю. Перевертайленко, О. П. Арсеньева. Тепловая интеграция аммиачного холодильного агрегата в коммунальную систему зданий, Теоретические основы химической технологии, 2013, том 47, № 1, с. 1–9
  • Капустенко П.А., Илюнин О.О., Болдырев С.А., Гарев А.О., Лещенко Е.В., Перевертайленко А.Ю., Селяков А.М., Шамраев А.А. Критерий эффективности теплових насосов с учетом групового влияния аргументов. Інтегровані технології та енергозбереження. Харків, 2013. №2. С. 30-34
  • Conference papers and presentations
  • Товажнянский Л.Л., Капустенко П.А., Ульев Л.М., Перевертайленко А.Ю., Болдырев С.А. Прогноз снижения выбросов СО2 при улучшении тепловой интеграции на сахарных заводах Северо ¬– Восточной Украины // IV Всеукраінська науково-методична конференція з міжнородною участю “Екологія інженерія. Стан, наслідки, шляхи створення екологічно чистих технологій”, 22 – 25 жовтня 2002 р. Збірка доповідей. Дніпродзержинськ. 2002. С. 16 – 18
  • Товажнянский Л.Л., Капустенко П.А., Ульев Л.М., Болдырев С.А. Снижение потребления коксового газа при тепловой интеграции процесса на двухколонном агрегате дистилляции каменноугольной смолы // IV Всеукраінська науково-методична конференція з міжнородною участю “Екологія інженерія. Стан, наслідки, шляхи створення екологічно чистих технологій”, 22 – 25 жовтня 2002 р. Збірка доповідей. Дніпродзержинськ. 2002. С. 219 – 221
  • Товажнянский Л.Л., Капустенко П.А., Ульев Л.М., Болдырев С.А. Экономически оптимальная тепловая интеграция на сахарных заводах // Междунар. Научн. – практ. конф. “Логистика и экономика ресурсосбережения и энергосбережения в промышленности” (ЛЭРЭП – 2002), 28-31 Октября. 2002. Москва. Статья С3.2-1.1.4
  • Товажнянский Л.Л., Капустенко П.А., Ульев Л.М., Болдырев С.А., Тарновский М.В. Организация оптимального снабжения энергией процессов первичной переработки нефти на АВТ А12/2. Международная Научно-практическая конференция “Логистика и экономика ресурсосбережения и энергосбережения в промышленности” (ЛЭРЭП – 2007), Саратов, Статья С3.2-1.1.4
  • Ульєв Л.М., Болдирєв С.О., Полівода Е.В. Теплоенергетична інтеграція процесу поділу широкої фракції легких вуглеводнів. Матеріали 17 міжнародної науково-практичної конференції «Інформаційні технології: наука, техніка, технологія, освіта, здоров’я». Харків: НТУ «ХПІ», 2009, Ч. 2, с. 24
  • Ульєв Л.М., Болдирєв С.А., Васильєв М.А. Діагностика процесу дистиляції бензолу. Матеріали Всеукраїнської міжвузівської науково-технічної конференції «Сучасні технології в промисловому виробництві». Суми: Сумський державний університет, 2010, Ч. 3, С. 102-103
  • Ульєв Л.М., Болдирєв С.А., Полівода К.В. Екстракція даних для теплоенергетичного інтегрування процесу поділу ШФЛВ на центральній газофракціонуючій установці. Матеріали Всеукраїнської міжвузівської науково-технічної конференції «Сучасні технології в промисловому виробництві». Суми: Сумський державний університет, 2010, Ч. 3, С. 91-92
  • Чернишев І.С., Болдирєв С.О., Бабак Т.Г., Сільченко К.О. Інтеграція процесу ректифікації частково розчинної азеотропної суміші фурфурол-вода. Інформаційні технології: наука, техніка, технологія, освіта здоров’я: Тези доповідей ХVIII міжнародної науково-практичної конференції, Ч. ІІІ (12-14 травня 2010 р., Харків). С. 34
  • Ульєв Л.М., Болдирєв С.О., Гарєв А.О., Ярмоленко Ю.М. Інтеграція аміачного холодильного циклу на підприємствах харчової промисловості. Інформаційні технології: наука, техніка, технологія, освіта здоров’я: Тези доповідей ХVIII міжнародної науково-практичної конференції, Ч. ІІІ (12-14 травня 2010 р., Харків). С. 28
  • Ульєв Л.М., Болдирєв С.О., Василенко О.С. Визначення енергозберігаючого потенціалу процесу відділення бензолу при переробці коксового газу. Інформаційні технології: наука, техніка, технологія, освіта здоров’я: Тези доповідей ХVIII міжнародної науково-практичної конференції, Ч. ІІІ (12-14 травня 2010 р., Харків). С. 26
  • Болдирєв С.О., Горбунов К.О., Крикун О.І., Толста Н.О. Застосування засобів комп’ютерної інтеграції та автоматизація процесу концентрування розчину нітрату натрію. Інформаційні технології: наука, техніка, технологія, освіта здоров’я: Тези доповідей ХVIII міжнародної науково-практичної конференції, Ч. ІІІ (12-14 травня 2010 р., Харків). С. 7
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  • RESEARCH AREAS

  • Chemical Engineering
  • Process System Engineering
  • Process Integration
  • Total Site Integration
  • Sector Coupling
  • Pinch Analysis
  • Industry Electrification
  • Energy Saving
  • Renewable and Sustainable Energy
  • Process intensification
  • Heat recovery
  • Heat exchangers
  • Heat exchanger networks
  • Heat pumps
  • Process simulation and digital twining
  • Aspen Plus & HYSYS
  • UniSim Design
  • AWARDS

    Oct 2014 – Grant Marie Curie (NEWFELPRO fellowship for experienced researchers), EC and Croatian Government
    Nov 2018 – Outstanding reviewer – Chemical Engineering and Processing: Process Intensification, Elsevier
    May 2017 – Outstanding reviewer – Journal of Environmental Management, Elsevier
    Jan 2017 – Outstanding reviewer – Journal of Cleaner Production, Elsevier
    Oct 2016 – Outstanding reviewer – Applied Energy, Elsevier
    May 2015 - Outstanding reviewer - Energy, Elsevier
    Dec 2014 – Outstanding Reviewer – Energy Conversion and Management Journal, Elsevier