Presents an updated deillegalscription of the renewable waste conversion technologies
Proposes improved combustion facilities design, suitable for renewable waste
Addresses a complementary technical-ecological approach to renewable waste management
Professor Gheorghe Lazaroiu, PhD, has extensive research experience in Power Engineering. His main research focus lays in innovative biomass conversion technologies for energy purposes, hybrid energy systems and renewable energy integration. During his career, he coordinated as Project Director more than 25 research grants, and published over 200 scientific articles. Additionally, and he served as reviewer for more than 30 scientific journals and for national and international research funding institutions.
Professor Lucian Mihaescu, PhD, has extensive research experience in Mechanical and Mechatronic Engineering. His research focuses on improved and novel combustion technologies, as well as on reduced carbon dioxide emissions in energy processes. He is co-author of more than 150 scientific publications and holds five recognized patents. During his career, Professor MIHAESCU has coordinated more than 30 research grants as Project Director.
This book investigates innovative solutions to increase the share of renewable engery in the global power mix, with a particular focus on improved and sustainable biomass conversion technologies.
To this end, the book deals with an analysis of the generation mix of renewable energies (including biofuels, renewable waste and biogas) in the overall power balance of several countries. In addition, the possibilities of using bioenergy resources in the context of power generation are thoroughly analyzed. As one of the most important ways of converting biomass into energy, the combustion process is analyzed in detail, highlighting the vast potential for the use of innovative biofuels. In this context, a detailed classification of existing biofuels is established, reflecting the relationship between their energy properties and their potential use in industrial facilities. Additionally, the most efficient combustion technologies for the respective applications are discussed.
Furthermore, the authors emphasize that the management of renewable waste, both from industry (tannery waste and oils from transport) and agriculture, requires an economic and environmental friendly approach. The challenges of burning various renewable waste fuels and upgrading industrial facilities are discussed, and the ideas and technologies presented in this book contribute to the UN Sustainable Development Goal (SDG) for "Affordable and Clean Energy".
The book is a useful resource for professionals dealing with current and upcoming activities related to renewable energy combustion, and a good starting point for young researchers.
INNOVATIVE RENEWABLE WASTE CONVERSION TECHNOLOGIES
Preface
1. Structure of the energy produced from renewable sources (15 pages). G. Lazaroiu, L. Mihaescu, D. Ciupageanu*
2. The matrix of energy biofuels (20 pages). L. Mihaescu, G. Lazaroiu*, D. Ciupageanu.
3. The matrix of technologies for the efficient use of energy biofuels (20 pages). G. Lazaroiu, L. Mihaescu, I. Pisa, V. Berbece*.
4. Combined combustion required for energy fuels (20 pages). G. Lazaroiu, L. Mihaescu, D. Ciupageanu, G. Negreanu*
5. Experimental tests on the combustion of animal fats (40 pages). G. Lazaroiu, L. Mihaescu, A. Bondrea*.
6. Combustion of biogas obtained by anaerobic fermentation of animal proteins (25 pages). G. Lazaroiu, L. Mihaescu, M. Mavrodin*.
7. Feasibility and experimental study of cogeneration power plant through wood biomass gasification process (20 pages). I. Iliev*, A. Terziev
8. Design and experimental testing of a horizontal flame burner for agricultural waste pellets (10 pages). E. Enache, L. Mihaescu*, I. Pisa.
9. Experimental research of combustion of poultry manure (10 pages). G. Lazaroiu, L. Mihaescu, E. Pop*, G. Negreanu
10. Waste heat recovery from boilers and furnaces running on biomass waste products (10 pages). I. Iliev*, A. Terziev
11. Solutions for polluting emissions reduction in internal combustion engines (40 pages). A. Cernat*, C. Pana, N. Negurescu
12. Technologies for energy production from lignocellulosic agricultural residues (70 pages). G. Geletukha*, S. Dragnev, T. Zheleyzna, P. Kucheruk, E. Oliynyk.
13. Purification of oils from transport through nanotechnological processes and their combustion for energy production (30 pages). I. Pisa*, M. Dragne
14. Environmental impact and risk analysis of the implementation of cogeneration power plants (10 pages). I. Iliev, A. Terziev*
15. Informatic applications for efficient exploitation of forestry fund. (20 pages). T. Vatuiu*
16. The staged combustion of meat-and-bone meal: The characteristics of conversion sub-processes and large-scale process outputs (40 pages). M. Kantorek, K. Jesionek, S. Polesek-Karczewska*, P. Ziólkowski, J. Badur
* Corresponding authors
Authors´ affiliations:
· Full Professor Gheorghe LAZAROIU, PhD, Power Engineering Faculty, University Politehnica of Bucharest, Romania, glazaroiu@yahoo.com
· Full Professor Lucian MIHAESCU, PhD, Mechanics and Mechatronics Faculty, University Politehnica of Bucharest, Romania, lmihaescu@caz.mecen.pub.ro
· Assistant researcher Dana-Alexandra CIUPAGEANU, Power Engineering Faculty, University Politehnica of Bucharest, Romania, and Department of Engineering, University of Perugia, Italy, dana_ciupageanu@yahoo.com
· Full Professor Ionel PISA, PhD, Mechanics and Mechatronics Faculty, University Politehnica of Bucharest, Romania, ipisa@caz.mecen.pub.ro
· Lecturer Viorel BERBECE, Mechanics and Mechatronics Faculty, University Politehnica of Bucharest, Romania, v_berbece@yahoo.com
· Assistant Professor Dana-Andreya BONDREA, PhD, Power Engineering Faculty, University Politehnica of Bucharest, Romania, andreya.dana@yahoo.com
· Full Professor Gabriel Paul NEGREANU, PhD, Mechanics and Mechatronics Faculty, University Politehnica of Bucharest, Romania, gabriel.negreanu@gmail.com
· Madalina MAVRODIN, PhD, Project manager at Groupe Renault Bucuresti, Romania, madalina_mavrodin@yahoo.com
· Emil ENACHE, Administrator Enache Morarit, Husi, Romania. www.enache-morarit.ro
· Lecturer Alexandru CERNAT, PhD, Mechanics and Mechatronics Faculty, University Politehnica of Bucharest, Romania, cernatalex@yahoo.com
· Full Professor Constantin PANA, PhD, Mechanics and Mechatronics Faculty, University Politehnica of Bucharest, Romania, constantinpana@yahoo.com
· Full Professor Iliya ILIEV, PhD, Bulgarian Academy of Sciences, Bulgaria, iiliev@enconservices.com
· Associate Professor Angel TERZIEV, PhD, Technical University of Sofia, Bulgaria, aterziev@enconservices.com
· Georgii GELETUKHA, PhD, Head of Bioenergy Laboratory, Institute of Engineering Thermophysics of National Academy of Sciences of Ukraine, Ukraine, geletukha@uabio.org
· Semen DRAGNEV, PhD, Senior Researcher of Bioenergy Laboratory, Institute of Engineering Thermophysics of National Academy of Sciences of Ukraine, Ukraine, dragnev@secbiomass.com
· Tetyana ZHELEYZNA, PhD, Leading Researcher of Bioenergy Laboratory, Institute of Engineering Thermophysics of National Academy of Sciences of Ukraine, Ukraine, zhelyezna@secbiomass.com
· Petro KUCHERUK, PhD, Senior Researcher of Bioenergy Laboratory, Institute of Engineering Thermophysics of National Academy of Sciences of Ukraine, Ukraine, kucheruk@secbiomass.com
· Eugen OLIYNYK, Researcher of Bioenergy Laboratory, Institute of Engineering Thermophysics of National Academy of Sciences of Ukraine, Ukraine, oliinyk@secbiomass.com
· Full Professor Teodora VATUIU, PhD, University Titu Maiorescu of Bucharest, Romania, v_teodora@yahoo.com
· Marcin KANTOREK, Endress+Hauser, Wroclaw, Poland, marcin.kantorek@gmail.com
· Krzysztof JESIONEK, Wroclaw University of Science and Technology, Poland, krzysztof.jesionek@pwr.edu.pl
· Full Professor Niculae NEGURESCU, PhD (Mechanics and Mechatronics Faculty, University Politehnica of Bucharest, Romania, email: niculae_negurescu@yahoo.com)
· Sylwia POLESEK-KARCZEWSKA, PhD, Institute of Fluid Flow Machinery, Polish Academy of Sciences, Poland, sylwia.polesek-karczewska@imp.gda.pl
· Pawel ZIÓLKOWSKI, PhD, Gdansk University of Technology, Faculty of Mechanical Engineering, Department of Energy and Industrial Apparatus, Poland, e-mail: pawel.ziolkowski1@pg.edu.pl
· Full Professor Janusz BADUR, PhD, Institute of Fluid Flow Machinery, Polish Academy of Sciences, Poland, e-mail: jb@imp.gda.pl
This book investigates innovative solutions to increase the share of renewable engery in the global power mix, with a particular focus on improved and sustainable biomass conversion technologies.
To this end, the book deals with an analysis of the generation mix of renewable energies (including biofuels, renewable waste and biogas) in the overall power balance of several countries. In addition, the possibilities of using bioenergy resources in the context of power generation are thoroughly analyzed. As one of the most important ways of converting biomass into energy, the combustion process is analyzed in detail, highlighting the vast potential for the use of innovative biofuels. In this context, a detailed classification of existing biofuels is established, reflecting the relationship between their energy properties and their potential use in industrial facilities. Additionally, the most efficient combustion technologies for the respective applications are discussed.
Furthermore, the authors emphasize that the management of renewable waste, both from industry (tannery waste and oils from transport) and agriculture, requires an economic and environmental friendly approach. The challenges of burning various renewable waste fuels and upgrading industrial facilities are discussed, and the ideas and technologies presented in this book contribute to the UN Sustainable Development Goal (SDG) for "Affordable and Clean Energy".
The book is a useful resource for professionals dealing with current and upcoming activities related to renewable energy combustion, and a good starting point for young researchers.
Professor Gheorghe Lazaroiu, PhD, has extensive research experience in Power Engineering. His main research focus lays in innovative biomass conversion technologies for energy purposes, hybrid energy systems and renewable energy integration. During his career, he coordinated as Project Director more than 25 research grants, and published over 200 scientific articles. Additionally, and he served as reviewer for more than 30 scientific journals and for national and international research funding institutions.
Professor Lucian Mihaescu, PhD, has extensive research experience in Mechanical and Mechatronic Engineering. His research focuses on improved and novel combustion technologies, as well as on reduced carbon dioxide emissions in energy processes. He is co-author of more than 150 scientific publications and holds five recognized patents. During his career, Professor MIHAESCU has coordinated more than 30 research grants as Project Director.
Über den Autor
Professor Gheorghe Lazaroiu, PhD, has extensive research experience in Power Engineering. His main research focus lays in innovative biomass conversion technologies for energy purposes, hybrid energy systems and renewable energy integration. During his career, he coordinated as Project Director more than 25 research grants, and published over 200 scientific articles. Additionally, and he served as reviewer for more than 30 scientific journals and for national and international research funding institutions.
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Professor Lucian Mihaescu, PhD, has extensive research experience in Mechanical and Mechatronic Engineering. His research focuses on improved and novel combustion technologies, as well as on reduced carbon dioxide emissions in energy processes. He is co-author of more than 150 scientific publications and holds five recognized patents. During his career, Professor MIHAESCU has coordinated more than 30 research grants as Project Director.
Inhaltsverzeichnis
Klappentext
This book investigates innovative solutions to increase the share of renewable engery in the global power mix, with a particular focus on improved and sustainable biomass conversion technologies.
To this end, the book deals with an analysis of the generation mix of renewable energies (including biofuels, renewable waste and biogas) in the overall power balance of several countries. In addition, the possibilities of using bioenergy resources in the context of power generation are thoroughly analyzed. As one of the most important ways of converting biomass into energy, the combustion process is analyzed in detail, highlighting the vast potential for the use of innovative biofuels. In this context, a detailed classification of existing biofuels is established, reflecting the relationship between their energy properties and their potential use in industrial facilities. Additionally, the most efficient combustion technologies for the respective applications are discussed.
Furthermore, the authors emphasize that the management of renewable waste, both from industry (tannery waste and oils from transport) and agriculture, requires an economic and environmental friendly approach. The challenges of burning various renewable waste fuels and upgrading industrial facilities are discussed, and the ideas and technologies presented in this book contribute to the UN Sustainable Development Goal (SDG) for "Affordable and Clean Energy".
The book is a useful resource for professionals dealing with current and upcoming activities related to renewable energy combustion, and a good starting point for young researchers.
Presents an updated deillegalscription of the renewable waste conversion technologies
Proposes improved combustion facilities design, suitable for renewable waste
Addresses a complementary technical-ecological approach to renewable waste management
