Hochschule Reutlingen
Prof. Dr. Almeida Streitwieser

Prof. Dr.-Ing. Daniela Almeida Streitwieser

Studiendekanin Master-Studiengang Umweltschutz

+49 7121 271 2018

d.almeida_streitwieser@reutlingen-university.de

Gebäude 2, Raum 219

Während der Vorlesungszeit:

Mittwoch 10.00 bis 11.30 Uhr und nach Vereinbarung

  • Studiendekanin Master-Studiengang Umweltschutz
  • Nachhaltigkeitsbeauftragte der Fakultät
  • Beauftragte für Internationales der Fakultät

Vorlesungen:

  • Umweltchemie,
  • Verfahrens- und Anlagentechnik,
  • Instrumentelle Analytik

Praktika:

  • Umweltanalytik

Umweltchemie und Verfahrensentwicklung zum Umweltschutz

Professional Experience

 

2022 – present

Reutlingen University, Germany: Professor and Director of the Master of Environmental Protection

2014 – 2021

University San Francisco de Quito. Ecuador: Head of the Department of Chemical Engineering

2008 – 2021

University San Francisco de Quito. Ecuador: Founder and director of IDEMA

2007 – 2014

University San Francisco de Quito. Ecuador: Professor at the Department of Chemistry and Chemical Engineering

2005 – 2007

ISKA GmbH, Group U-Plus AG – EnBW Energie Baden-Württemberg. Germany: Responsible of R&D on Renewable Energies and Waste Management. Specialist on commissioning and optimization of the Mechanical – Biological Waste Treatment Plants in Buchen and Heilbronn

2001 – 2004

Friedrich – Alexander University of Erlangen – Nuremberg. Germany: Research Assistant of the Project CellSiC of the Ministery of Education and Research and DaimlerChrysler A.G. Teaching Assistant and Research Advisor for B.Sc., M.Sc. and Engineering thesis

Education

 

2001 – 2004

Doctor – Engineer  (eq. Ph.D.) in Chemical and Process Engineering, Friedrich – Alexander University of Erlangen – Nuremberg, Germany. SCL
BMBF Programm. Partner: Daimler, Hahnemühle, FAU, …

1999 – 2001

Master of Science (M.Sc.) in Chemical and Process Engineering, Friedrich – Alexander University of Erlangen – Nuremberg, Germany. SCL

1995 – 1999

Bachelor of Science (B.Sc.) in Industrial Chemistry, University San Francisco de Quito, Ecuador. SCL

Publications in Journals

  1. Highly Active MgP Catalyst for Biodiesel Production and Polyethylene Terephthalate Depolymerization; Pablo Andrés Gangotena Palacios, Sebastián Ponce Cahuasqui, Alvaro Martín Gallo Córdova , Gertrud Daniela Almeida Streitwieser, José Ramón Mora; ChemistrySelect; 7 (15),2022, DOI: 10.1002/slct.202103765
  2. Proposal of a regulatory framework for bioenergy implementation in a unified agricultural code for Ecuador; Sebastian Ponce, Carola Mena-Campoverde, Juan Sebastián Proaño, José Francisco Álvarez-Barreto,Francis Aguirre,Diana Torres Quintana,Juan S. Sanchez Prieto, Daniela Almeida Streitwieser; Biofuels, Bioprod. Bioref. 16:1116–1129(2022); DOI: 10.1002/bbb.2355
  3. Fast Pyrolysis as a Valorization Mechanism for Banana Rachis and Low-Density Polyethylene Waste; Daniela Almeida Streitwieser, Daniela Oña Villamil, Erika Gutierrez, Sebastián Salazar, Jose´ R. Mora, M. Lorena Bejarano; Chem. Eng. Technol. 44 No. 11 (2021) 11, 2092–209; https://doi.org/10.1002/ceat.202100232
  4. Improving degradation of real wastewaters with self-heating magnetic nanocatalysts; Alvaro Gallo-Cordova, Juan José Castro, Elin L. Winkler, Enio Lima Jr., Roberto D. Zysler c, María del Puerto Morales a, Jesús G. Ovejero, Daniela Almeida Streitwieser; Journal of Cleaner Production 308 (2021) 127385; https://doi.org/10.1016/j.jclepro.2021.127385
  5. Biojet fuel production from oleaginous crop residues: thermoeconomic, life cycle and flight performance analysis; Nicolas Vela-García, David Bolonio, María-Jesús García-Martínez, Marcelo F. Ortega, Daniela Almeida Streitwieser, Laureano Canoira; Energy Conversion and Management 244 (2021)  114534; https://doi.org/10.1016/j.enconman.2021.114534
  6. Fast synthesis of silver colloids with a low-cost 3D printed photo-reactor; Sebastian Ponce, Mateo Hernandez, Karla Vizuete, Daniela Almeida Streitwieser, Alexis Debut; Colloid and Interface Science Communications 43 (2021) 100457; https://doi.org/10.1016/j.colcom.2021.100457
  7. Recent advances in residual biomass conversion into bioenergy and value-added products: A review of the Ecuadorian situation; Sebastian Ponce, Jose Alvarez-Barreto, Daniela Almeida; Avanves en Ciencias e Ingenierías; 13 (1); 2021; DOI: dx.doi.org/10.18272/aci.v13i1.1929
  8. Conversion of PP, HDPE and LDPE Plastics into Liquid Fuels and Chemical Precursors by Thermal Cracking; Yuliana Rodríguez Lamar, José Noboa, Andrés S. Torres Miranda, Daniela Almeida Streitwieser; J Polym Environ (2021). https://doi.org/10.1007/s10924-021-02150-1
  9. Chemical Pretreatments on Residual Cocoa Pod Shell Biomass for Bioethanol Production; Jose F. Alvarez-Barreto, Fernando Larrea, Maria C. Pinos, Jose Benalcázar, Daniela Oña, Carolina Andino, Daniela A. Viteri, Marco Leon, Daniela Almeida-Streitwieser; Bionatura 6 (2021);
    http://dx.doi.org/10.21931/RB/2020.06.01.9
  10. Comparison of Bioethanol Production of Starches from Different Andean Tubers; Larrea F., Salazar S., Andino C., Ona D., Benalcazar M., Mora J., Almeida Streitwieser D., Alvarez-Barreto J.; Chemical Engineering Transactions 80 (2020), pp. 259-264
  11. Experimental and theoretical study of the thermal decomposition of ethyl acetate during fast pyrolysis, Diana C Vargas, Sebastian Salazar, José R Mora, Kevin M Van Geem, Daniela Almeida Streitwieser. Chemical Engineering Research and Design 157 (2020); pp. 153-161.
  12. Preliminary Study of Biomethane Production of Organic Waste based on their Content of Sugar, Starch, Lipid, Protein and Fibre; Daniela Almeida Streitwieser, Ines A. Cadena; Chemical Engineering Transactions 65 (2018); pp. 661-666.
  13. Comparison of the adsorption capacity of organic compounds present in produced water with commercially obtained walnut shell and residual biomass; Alvaro Gallo-Cordova, María del Mar Silva-Gordillo, Gustavo Muñoz-Rivadeneira, Xavier Arboleda-Faini, DanielaAlmeida Streitwieser, Journal of Environmental Chemical Engineering 5 (2017); pp. 4041-4050.
  14. Comparison of the anaerobic digestion at the mesophilic and thermophilic temperature regime of organic wastes from the agribusiness;Daniela Almeida Streitwieser; Bioresource Technology 241 (2017); pp.  985–992.
  15. Kinetic study of the thermal and catalytic cracking of waste motor oil to diesel like fuels; Diana Cristina Vargas, María Belen Alvarez, Alexis Hidrobo Portilla, Kevin Marcel Van Geem, Daniela Almeida Streitwieser; Energy & Fuels; 30 (11) (2016), pp. 9712–9720.
  16. Estudio comparativo de la compostabilidad de fundas plásticas de PEBD, oxo-biodegradables y de papel distribuidas en el Distrito Metropolitano de Quito; Daniela Almeida Streitwieser & Tsu Hsin Huang; Avances en Ciencia e Ingeniería 7 (2015); pp. C20-C30.
  17. Entwicklung eines internen Kreislaufwirtschaftskonzepts für die Agrarindustrie im Hochland Ecuadors (Development of an intern closed loop recycling system for the agribusiness in the highlands Ecuador);Daniela Almeida Streitwieser, Fernando Játiva Guzman; Müll und Abfall 08 (2010); pp. 379-382.
  18. Estudio de la co-digestión anaeróbica de desechos orgánicos agroindustriales; Daniela Almeida, Diego A. Regalado, María J. Ampudia, Avances en Ciencia e Ingeniería 2 (2010); pp. C11-C16.
  19. Análisis macro-cinético de la infiltración química de vapor de capas de Si y Si/SiC en estructuras biomórficas de carbón; Daniela Almeida S.; Avances en Ciencia e Ingeniería 1 (2009); pp. 41-49.
  20. Processing of Porous Biomorphic Tic Ceramics by Chemical Vapor Infiltration and Reaction (CviR) Technique; Nadja Popovska, Daniela Almeida Streitwieser, Chen Xu Helmut Gerhard Heino Sieber; 28th International Conference on Advanced Ceramics and Composites A: Ceramic Engineering and Science Proceedings; First published: 26 March 2008.
  21. Optimization of the ceramization process for the production of three-dimensional biomorphic porous SiC ceramics by chemical vapor infiltration (CVI); Daniela Almeida Streitwieser, Nadja Popovska, Helmut Gerhard; Journal of the European Ceramic Society 26 (12); P (2006); pp. 2381-2387.
  22. Kinetic Analysis of the Processing of Porous Biomorphic Titanium Carbide Ceramics by Chemical Vapor Infiltration; N. Popovska, D. Almeida-Streitwieser, C. Xu, H. Gerhard, H. Sieber; Chemical Vapor Deposition 11 (3) (2005); pp. 153-158.
  23. Application of the chemical vapor infiltration and reaction (CVI-R) technique for the preparation of highly porous biomorphic SiC ceramics derived from paper; Daniela Almeida Streitwieser, Nadja Popovska, Helmut Gerhard and Gerhard Emig; Journal of the European Ceramic Society 25 (6) (2005); pp. 817-828.
  24. Paper derived biomorphic porous titanium carbide and titanium oxide ceramics produced by chemical vapor infiltration and reaction (CVI-R); Nadja Popovska, Daniela Almeida Streitwieser, Chen Xu and Helmut Gerhard; Journal of the European Ceramic Society 25 (6) (2005); pp. 829-836.
  25. Kinetic analysis of the chemical vapor deposition of Si from SiCl 4 - H2 for the production of biomorphic Si3N4 ceramics; Popovska, N.; Daniela Almeida Streitwieser; Ghanem, H.; Proceedings - Electrochemical Society (2005); PV 2005-09, pp. 160-167
  26. Processing of biomorphous SIC ceramics from paper preforms by Chemical Vapor infiltration and reaction (CVI-R) technique; Streitwieser, D.A., Popovska, N., Gerhard, H., Emig, G.; Ceramic Engineering and Science Proceedings 25(3) (2004), pp. 511-516
  27. Processing of porous biomorphic TiC ceramics by chemical vapor infiltration and reaction (CVI-R) technique; Popovska, N., Streitwieser, D.A., Xu, C., Gerhard, H., Sieber, H.; Ceramic Engineering and Science Proceedings 25(3) (2004), pp. 535-540
  28. Gas phase processing of porous, biomorphous TiC-ceramics Sieber, H.; Zollfrank, C.; Popovska, N.; Almeida, D.; Gerhard, H.;, Key Engineering Materials 264-268 (2004); pp. 2227 – 2230.
  29. Kinetic Analysis of the Low Temperature CVD of Silicon / Silicon Carbide from Methyltrichlorosilane / Hydrogen for the Ceramization of Biomorphic Carbon Preforms; Popovska, N., Almeida Streitwieser, D., Gerhard, H., Emig, G.; in Proceedings of the Int. Symp. Chemical Vapor Deposition XVI and EUROCVD 14 Vol. 1 (2003); pp. 573 – 580.

 

Publications of book chapters, books and conference papers

  1. Magnetic Iron Oxide Colloids for Environmental Applications; Alvaro Gallo-Cordova, Daniela Almeida Streitwieser, María del Puerto Morales and Jesús G. Ovejero; Book Chapter; Colloids - Types, Preparation and Applications (2021) IntechOpen.
  2. Catalytic oxidation of ferrous ion in acid medium with active aeration using activated carbon doped with transition metals; E.de la Torre Miranda, D. Almeida Streitwieser and E.de la Torre Chauvín; Hyroprocesses 2020, 12th International Conference on Process Hydrometallurgy (2020), ISBN 978-95 6- 397 -034-0,
  3. Kinetic investigation of the anaerobic bio-digestion process of organic wastes from the agribusiness; Daniela Almeida Streitwieser & Tsu Hsin Huang; The 9th International Conference in Chemical Kinetics; Abstract Book (2015), ISBN 978-90-9029-133-8 ; pp. 205-209.
  4. Liquid kinetic study of the catalytic cracking of waste motor oil for obtaining diesel like fuels; Diana C. Vargas, María B. Alvarez and Daniela Almeida Streitwieser; The 9th International Conference in Chemical Kinetics; Abstract Book (2015), ISBN 978-90-9029-133-8 ; pp. 166-170.
  5. Processing of Biomorphous Sic Ceramics from Paper Preforms by Chemical Vapor Infiltration and Reaction (CviR) Technique; Daniela Almeida Streitwieser; Nadja Popovska Helmut Gerhard Gerhard Emig; Book Series: Ceramic Engineering and Science, Chapter 74. Proceedings 28th International Conference on Advanced Ceramics and Composites A: Ceramic Engineering and Science Proceedings 25 (2004),
  6. Kinetic Investigation of the Chemical Vapor Infiltration and Reaction (CVI-R) Process for the Production of SiC and TiC Biomorphic Ceramics from Paper Preforms; Daniela Almeida Streitwieser; Dissertation Friedrich-Alexander Universität Erlangen-Nürnberg; December 2004, Germany.

Publikationen finden Sie auch unter: ORCID ID / Researcher ID / Google Scholars / ResearchGate 

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