Instituto para el Desarrollo de Energías y Materiales Alternativos IDEMA
At the Institute for the Development of Alternative Energies and Materials - IDEMA we believe in a circular economy, where all matter and energy can and should be harnessed, and where it is the responsibility of human beings to use the planet's resources in a responsible and sustainable way. For this reason, we investigate new ways of using waste in order to generate innovative materials and chemical precursors substitutes for traditional raw materials such as oil, coal, or natural gas. Based on this concept we develop technologies to obtain economically profitable, socially responsible, and with a positive environmental impact, innovative biomaterials, alternative energy sources, and green chemical precursors.
The objective at IDEMA is to investigate new sources of raw material from biomass and waste of all kinds to develop technologies for their use as alternative energy sources, biomaterials, or chemical precursors for their subsequent application in production processes.
The specific objectives are:
To investigate chemical, thermo-chemical, physical, mechanical, or biological processes for the conversion of biomass, organic waste, and other industrial, agro-industrial, and municipal by-products.
Apply engineering and green chemistry concepts to generate new technologies from biomass and other industrial waste to obtain:
- Investigate chemical, thermochemical, physical, mechanical or biological processes for the conversion of biomass, organic waste and other industrial, agro-industrial and municipal by-products.
- Generate new biomaterial technologies for biomedical and biotechnological applications.
- Investigate processes of conversion of biomass and organic residues into chemical precursors and alternative materials by biological, chemical, thermochemical or physical processes.
- Develop new alternative energy sources from residual biomass and industrial, agro-industrial, urban, and other residues.
History and Background
The Alternative Energy Development Laboratory (LaDEA) was created in 2008 with the aim of researching and developing new technologies in the field of waste management in order to obtain second generation alternative and renewable energy, or secondary raw materials. In 2016 the name was changed to IDEMA to formalize its existence as a research institute within the USFQ.
To date, 60 Engineering theses or degree projects have been carried out, and 10 consultancies and research and development projects with external national or international funds.
At IDEMA there are currently three lines of research:
- Thermo-chemical processes
Investigate alternative raw material sources and develop new processes for the generation of energy and alternative materials, giving high added value to waste and by-products from the Ecuadorian agro-industry, in order to contribute to the efficient management of waste, reuse it as secondary raw materials, and produce substitutes for derivatives of fossil hydrocarbons. These processes are aimed at applications in the production of biofuels, biofertilizers, biopolymers, biomaterials, and chemical precursors of biological origin, among others.
To be an internationally recognized institute in research and development of alternative energy and materials, as well as in the optimization of resource and waste management; to provide advice and consultancy to private and public companies throughout America.
El objetivo en IDEMA es investigar nuevas fuentes de materia prima a partir de biomasa y residuos de todo tipo para desarrollar tecnologías para su utilización como fuentes alternativas de energía, biomateriales o precursores químicos para su posterior aplicación en procesos productivos.
Los objetivos específicos son:
Investigar procesos químicos, termoquímicos, físicos, mecánicos o biológicos de conversión de biomasa, residuos orgánicos y otros subproductos industriales, agroindustriales y municipales.
Aplicar conceptos de ingeniería y química verde para generar nuevas tecnologías a partir de biomasa y otros residuos industriales para la obtención de:
- Investigar procesos químicos, termoquímicos, físicos, mecánicos o biológicos de conversión de biomasa, residuos orgánicos y otros subproductos industriales, agro-industriales y municipales.
- Generar nuevas tecnologías de biomateriales para aplicaciones biomédicas y biotecnológicas.
- Investigar procesos de conversión de biomasa y residuos orgánicos en precursores químicos y materiales alternativos por procesos biológicos, químicos, termoquímicos o físicos.
- Desarrollar nuevas fuentes de energía alternativa a partir de biomasa residual y residuos industriales, agro-industriales, urbanos, y otros.
Historia y Antecedentes
El Laboratorio de Desarrollo de Energías Alternativas (LaDEA) se creó en el año 2008 con el objetivo de investigar y desarrollar nuevas tecnologías en el ámbito de gestión de desechos con la finalidad de obtener energías alternativas y renovables de segunda generación, o materias primas secundarias. En el 2016 se cambia el nombre a IDEMA para formalizar su existencia como instituto de investigación dentro de la USFQ.
Hasta la fecha se han realizado sobre 60 tesis de Ingeniería o trabajos de titulación, y sobre 10 consultorías y proyectos de investigación y desarrollo con fondos externos nacionales o internacionales.
En IDEMA se manejan actualmente tres líneas de investigación:
Senior researchers and professors:
- Dr.Ing. Daniela Almeida Streitwieser
- José Francisco Álvarez Barreto, Ph.D.
- Juan Diego Fonseca, Ph.D.
- Juan Sebastian Proaño, Ph.D.
- Alexis Hidrobo, Ph.D.
- José Ramón Mora, Ph.D.
- Dr.-Ing. Sebastián Ponce
- Ing. Diana Vargas, Laboratory of Chemical Technology, Ghent University, Belgium
- Ing. Alvaro Gallo Córdova, M.Sc. - Institute of Materials Science of Madrid, Spain
- Ing. Carolina Andino, M.Sc.
- Ing. Andrés Torres, M.Sc.
- Ing. Mishell Amores
- Ing. Melany Benalcazar
- Ing. José Noboa
- Ing. Daniela Oña
- Ing. Sebastián Salazar
- Ing. Daniela Viteri
See attached list
Three main research areas are followed currently at IDEMA, which are interrelated with each other from biomass or the use of residues of various kinds. The research areas are:
The Bioprocesses research line investigates the production of bioethanol, biogas, organic acids and biols (organic fertilizer) from residual biomass rich in cellulose, hemicellulose, lignin and starch. This is achieved through biological processes such as biodigestion and fermentation using specialized micro-organs and controlling operating conditions to obtain products with applications in agriculture and food, as well as renewable energy sources.
BioDO Project– USFQ
Description: The "Bio-digestion of organic waste" program focuses on the generation of biogas in an anaerobic bio-digester from organic waste from agriculture, livestock and food. Biogas is subsequently used for the generation of electrical and thermal energy. In addition, organic fertilizer with a high potential to replace chemical fertilizers is obtained as by-products.
Funding: Small Grants USFQ / Chancellor Grants USFQ.
Duration: January 2008 – undefined.
Description:The Bio-wastes to alcohol (BioW2OH) project studies the production of alcohols (eg ethanol and methanol), from alternative products, such as residual biomass. These wastes are rich in cellulose, hemicellulose, lignin and starch, which will be rescued as raw materials. By using biomass residues as secondary raw material, added value is generated to the waste, in addition to taking advantage of organic carbon, which is part of the Earth's natural carbon cycle, so its contribution to greenhouse gases is minimal.
Funding: Poligrant 2017.
Duration: January 2012 – undefined
Description: The BioOrgAc project investigates the fermentation of residual biomass for the production of primary and secondary metabolites such as citric acid and lactic acid. These products are of interest for various industries such as food, pharmaceutical, biomedical, among others, for applications such as vitamins and food preservatives. The residual biomass is rich in cellulose, hemicellulose, lignin, starch, pectin, among others, which will be rescued as raw materials and synthesized through biochemical processes.
Funding: Poligrant 2017.
Duration: January 2016 – undefined
The Biomaterials research line investigates novel formulations of polymeric biomaterials based on agro-industrial waste and by-products such as lignocellulosic material, polysaccharides, and animal-derived wastes. With these biomaterials it will be possible to develop products with biomedical, biotechnological and food applications.
Description: This project consists of the generation of hydrogels and biofunctional dressings through the use of chemically modified polysaccharides. These hydrogels are aimed at the controlled release of drugs and the engineering of different tissues such as skin, cartilage and bone, among others. Among the materials used are starches, pectins and chitosan, among others.
Funding: Poligrant 2018.
Duration: August 2016- Undefined.
Description: This project seeks the use of polysaccharides and fatty acids for the development of micro and nano-encapsulation systems for the controlled release of active agents. The elements to be encapsulated range from molecules, such as drugs and active compounds in cosmetics and biotechnological applications, to microorganisms that serve as biological control agents in agricultural biotechnology applications.
Funding: Poligrant 2017.
Duration: August 2016- Undefined.
Description: This project aims to generate films, based on natural polysaccharides such as modified starches, pectins and chitosan, that can be used as primary and secondary packaging in the food industry. Biopolymeric films for food packaging.
Funding: Poligrant 2017, Medicine 2017.
Duración: January 2017- undefined.
The Thermochemical Processes research line investigates thermal or catalytic cracking technologies, pyrolysis, gasification, and other thermal processes for the material and energy use of biomass, or hydrocarbon residues in order to obtain hydrocarbons from different chain lengths and a source of alternative energy such as synthesis gas, steam or directly heat.
CAPfuel – USFQ Project:
Description: The CAPfuel program focuses on the energy use of used plastics and oils by converting them into a liquid fuel through the CAPfuel-USFQ project (Conversion of Oils and Plastics into liquid fuels). The technologies to be studied are the following: cracking, pyrolysis and re-polymerization.
Funding: Chancellor Grants USFQ.
Duration: January 2008 - undefined.
Description: The SynFuel program seeks to use the organic waste gasification process to obtain synthesis gas (CO / H2) and use it as a chemical precursor for the generation of hydrocarbons through the Fischer-Tropsch process, using light hydrocarbons as precursors. chemicals in gaseous or liquid form, and solids in biochar form for agriculture. This mechanism to generate hydrocarbons has a high potential to replace oil as a chemical raw material.
Funding: VLIR-UOS, Belgium.
Duration: May 2015 - December 2018.
Strategic allies for research cooperation
Ghent University: research cooperation on alternative energy issues
University of Oklahoma, OU: Cooperation in the Biological Evaluation of Biomaterials
Tohoku University: cooperation in biomass pyrolysis research
Technische Universität Berlin: cooperation in the development of a comprehensive concept of waste management in the Galapagos
University of York: collaboration in the generation of new biomaterials
EAFIT University: cooperation in polysaccharide modification
National Polytechnic School, EPN: cooperation in the characterization of materials
Escuela Superior Politécnica del Litoral, ESPOL: collaboration on agricultural biotechnology issues
The Central University of Venezuela, UCV: collaboration in technological applications of starches
FWE GmBH Biogastiger: cooperation in development and implementation of anaerobic digestion plants
AF-Hydrotechnology: cooperation in the development of filters for the treatment of drilling waters
Institute of Materials Sciences of Madrid: cooperation in the magnetic nano-reactors project
Latinoamericana de Jugos S.A: cooperation in the operation of the anaerobic digestion plant for fruit waste.
Consulting and cooperation projects
Project: “Development of adsorbents of organic compounds for water purification”
Description: Development of a substitute organic compound adsorbent to the walnut shell from residual biomass for the purification of drilling waters of the oil industry.
Financing: AFH - USFQ.
Beneficiaries/study area: Water decontamination
Duration: July 2014 - April 2015.
Project: “Life Cycle Analysis of Biodegradable Plastic Covers"
Description: Carrying out the Life Cycle Analysis of the biodegradable plastic T-shirt covers delivered in shopping centers and their comparison with other options
Financing: La Favorita Corporation.
Beneficiaries/area of study: Climate Change
Duration: July 2014 - April 2015.
Project: “Preparation of the Basic Manual for the Energetic Use of Agricultural Residues (MB-AERA)”
Description: Preparation of the Basic Manual for the Energetic Use of Agricultural Residues Focused on Climate Change.
Financing: GENCAPER Project, Ministry of the Environment.
Beneficiaries/study area: Small and Medium farmers and ranchers in the country.
Duration: May 2014 - October 2014.
Project: “Development of an insecticide for ants and cockroaches (BALIN)”
Description: Development of the formulation of BALIN insecticides for ants and roaches.
Beneficiaries/area of study: development of the product for commercial use.
Duration: June 2013 - December 2013.
Project: “Assessment of Technological Needs for the Management of Solid and Liquid Wastes in the Livestock Sector”
Description: Evaluate the technology needs, identify the barriers and the enabling framework and prepare a technological action plan for the management of solid and liquid waste in the livestock sector in the Lloa, Quijos, Santo Domingo and Manabí areas.
Financing: UNEP - Risoe, Ministry of the Environment.
Beneficiaries: Interested areas Lloa, Quijos, Santo Domingo and Manabí.
Duration: December 2011 - June 2012.
InnovaEcuador Project: "Design, construction and commissioning of a high-tech anaerobic digestion semi-industrial plant for the comprehensive treatment of organic waste and its transformation into renewable energy (biogas) and organic fertilizer (biol)"
Description: Transfer the proven pilot plant technology on a semi-industrial scale by designing, building, commissioning and operating an anaerobic digestion plant from fruit waste.
Funding: Ministry of Coordination, Employment and Competitiveness (MCPEC).
Beneficiaries: Universidad San Francisco de Quito (USFQ) and La Jugosa S.A. (LAJSA).
Duration: August 2010 - December 2012.
Specialized Technical Consulting for the Project "Industrial and Community Biodigesters" of the MCPEC and Agrogana
Description: Achieve sufficient knowledge for the project "Industrial and Community Biodigesters" and be able to develop them in a context of competitiveness and productivity, for which it is necessary to hire a consultancy that breaks down all related concepts and restructures them into instruments that can get underway.
Duration: December 2010 - March 2011.
|List of Final Projects|
|Year||Last name||Name||Thesis||Advisor||Project||# Ref.|
|2019||Carrera Zuñiga||Jahel D.||Effect of Starch Oxidation Degree on the Properties of Dialdehyde Starch and Polyvinyl Alcohol Hydrogels||José Álvarez||µNPharm||72|
|2019||Moncayo Escobar||Luis F.||Edible Cassava Starch-Based Coatings on Green Banana Slices for Potential Development of New Products, Reduction of Enzymatic Packing and Fats Associated with Frying||José Álvarez||Biomaterials||75|
|2019||Oña Villamil||Daniela E.||Investigation of the Gaseous and Liquid Products Obtained from the Rapid Pyrolysis of 9 Ecuadorian Residual Biomass from Agroindustry||Daniela Almeida S.||SynFuel||77|
|2019||Paredes Pineda||Viviana||Study of the implementation of an MBBR process for the treatment of grey wastewater||Daniela Almeida S.||Water treatment||78|
|2019||Pupiales||Belén||Generation of porous scaffolds from cacao mesocarp for biomedical applications using surface response methodology||José Álvarez||µNPharm||71|
|2019||Quiña Fustillos||Viviana M.||Development of Nonwoven Biotextiles Based on Cassava Starch (Manihot Esculenta) and Plamito Fiber||José Álvarez||Biomaterials||79|
|2019||Salazar Arias||Andrés X.||Elaboration of Alginate and Gelatin Hydrogels for the Controlled Release of a Model Protein with Possible Biomedical Applications||José Álvarez||µNPharm||80|
|2019||Stacey Borja||Andrés||Preparation of Hydrogels based on the Crosslinking between Pectin Extracted from 3 fruits and chitosan for the controlled release of a model protein||José Álvarez||µNPharm||81|
|2019||Terán Armas||Aida E.||Development of Microparticles Based on Cocoa Buffer and Polivynil Alcohol for Ibuprofen Controlled Delivery||José Álvarez||µNPharm||82|
|2019||Valdivieso Mera||José R.||Prefeasibility Study for Wastewater Treatment Using a Moving Bed Biofilm Reactor System on the USFQ Campus||Daniela Almeida S.||Water treatment||83|
|2018||Acosta||Paula||Preparation of calcium and pectin based catalysts used for biodiesel synthesis||José Mora||Catalysis||69|
|2018||Arciniega Moscoso||Cristina||Study of the pyrolysis of cellulose in a tubular free-fall reactor||Daniela Almeida S.||SynFuel||62|
|2018||Bazante del Pozo||David Estuardo||Design of a Trichoderma reesei spore microencapsulation device for the mass production of biocontrol agents for pathogenic cocoa fungi||José Álvarez||µNPharm||65|
|2018||Benalcázar Bassante||José Carlos||Evaluation of different chemical pretreatments to the cocoa shell biomass for alcoholic fermentation processes||José Álvarez / Daniela Almeida S.||BioOH||64|
|2018||Benalcazar Tuga||Melany Mishell||Feasibility study of the use of potato cap peel residues as a renewable energy source||Daniela Almeida S.||BioDo||70|
|2018||Erazo Bastidas||Andrea Paola||Synthesis and characterization of hydrogels based on polyvinyl alcohol and modified starch as carriers for controlled frugs||José Álvarez||Hydropatch||60|
|2018||Espinoza Arias||Luis Moisés||Evaluation of the degradation of low-density polyethylene mediated by different species of fungi||José Álvarez / Daniela Almeida S.||NA||59|
|2018||Jaramillo Robayo||Esteban Javier||Preparation of a Laboratory Safety Plan, in the Chemical Engineering area of the San Francisco University of Quito||José Álvarez||NA||61|
|2018||Salazar Esparza||Sebastián Alexis||Study of the fast pyrolysis of ethyl acetate as a model molecule||Daniela Almeida S.||SynFuel||63|
|2018||Tapia||Andés||Study of the fast pyrolysis of ethyl acetate as a model molecule||Daniela Almeida S.||CAPfuel||67|
|2018||Viteri Narváez||Daniela Alejandra||Development of a film based on oxidized lpomed batatas l Starch with protein encapsulation for potential skin tissue engineering applications||José Álvarez||µNPharm||66|
|2017||Álvarez Santana||Jorge Sebastián||Evaluation of the citric acid production functionality using molecularly identified Aspergillus niger strains||Daniela Almeida S.||OrgAc||54|
|2017||Flor Blanco||Ricardo Daniel||Evaluation of the composition of the residual biomass of green plantain (Musa spp) and potato (Solarum Tuberosum) before and after the starch extraction process||Juan Diego Fonseca / Daniela Almeida S.||BioOH||57|
|2017||Garrido Gutierrez||Claudia Andrea||Extraction and modification of pectin for the formation of hydrogels with potential for controlled drug administration||José Álvarez||PolySFilms||52|
|2017||Ludwing Alexander||Carrera Navarrete||Encapsulation of Trichoderma asperellum in biopolymeric particles with chitosans in different molecular weights for the biological control of Maniliophthora roreri||José Álvarez||µNPharm||58|
|2017||Padilla Sarmiento||Jhoselyn Cristina||Construction and commissioning of a free fall tubular reactor for fast pyrolysis||Daniela Almeida S.||SynFuel||55|
|2017||Peñaherrera Guevara||Tomás Sebastián||Design of primary treatment for waste water from the production of latex concentrate||Daniela Almeida S.||NA||53|
|2017||Ponce Andrade||María Mercedes||Development of cocoa butter microparticles for encapsulation and controlled release of drugs||José Álvarez||µNPharm||56|
|2016||Cadena Cabezas||Inés Alexandra||Study of the dependence of temperature and organic load in the anaerobic digestion of fruit waste for the transition from the mesophilic to thermophilic range||Daniela Almeida S.||BioDO||46|
|2016||Cárdemas Jácome||Jessica Natazha||Preparation of the Quality Management Manual according to ISO / IEC 17025: 2005, for the accreditation of the Laboratory of the Department of Chemical Engineering||Daniela Almeida S.||NA||48|
|2016||Murillo Guerra||Sandra Estefanía||Determination of the thermal cracking reaction in new and used lubricating oils in a fixed bed reactor||Daniela Almeida S.||CAPfuel||47|
|2015||Andres Daniel||Apolo Yagual||Design, construction and commissioning of a low cost prototype anaerobic biodigester||Daniela Almeida S.||BioDO||34|
|2015||Armas Herrera||Bryan Jefferson||Design of a plant for the manufacture of iodized alcohol and surgical soap||Daniela Almeida S.||NA||42|
|2015||Atiaga Oleas||Galo||Synthesis and characterization of mesostructured materials with possible catalytic applications||Alexis Hidrobo||Catalysis||51|
|2015||Escobar Jaramillo||Daniel Esteban||Diseño de una planta para la fabricación de productos farmacéuticos a partir de la planta de tratamiento de aguas de la Unidad de Diálisis del Hospital de los Valles||Daniela Almeida S.||NA||43|
|2015||Garcia Fernandez||Marlon Esteban||Design of a plant for the manufacture of pharmaceutical products from the water treatment plant of the Dialysis Unit of the Hospital de los Valles||Daniela Almeida S.||BioDO||33|
|2015||Huang||Tzu Hsin||Study of the dependence of temperature on anaerobic digestion of fruit waste||Daniela Almeida S.||BioDO||41|
|2015||Molina Barrera||Cintia||Design, construction and commissioning of a stainless steel fixed bed reactor for the catalytic cracking of used lubricating oils||Daniela Almeida S.||CAPfuel||40|
|2015||Proano Herrera||Gabriel Abelardo||Optimizacion en la operacion de un biodigestor a escala piloto y caracterizacion de productos y materia prima||Daniela Almeida S.||BioDO||37|
|2014||Altamirano López||Javier Matías||Optimization of the fruit waste pretreatment system at the biogas plant in Latinoamericana de Jugos S.A||Daniela Almeida S.||BioDO||24|
|2014||Álvarez Cobo||María Belén||Thermal cracking of lubricating oil used in a fixed-bed reactor to obtain synthetic fuels||Daniela Almeida S.||CAPfuel||25|
|2014||Araujo Lascano||Ana Carolina||Start-up of the semi-industrial anaerobic digestion plant in Latinoamericana de Jugos S.A||Daniela Almeida S.||BioDO||26|
|2014||Cueva Sola||Ana Belén||Start-up of the operation of the semi-industrial anaerobic digestion plant in Latinoamericana de Jugos S.A||Daniela Almeida S.||BioDO||27|
|2014||Maldonado Rosero||Fernando Xavier||Comparative study of Paraquat adsorption in different adsorbing agents such as activated carbon and naturally occurring aluminosilicates||Alexis Hidrobo||31|
|2014||Revelo Rodríguez||David Alejandro||Study of hydrolysis and alcoholic fermentation of dry biomass residues from balsa wood, palm hearts and bagasse to obtain bioethanol||Daniela Almeida S.||BioOH||29|
|2014||Torres Miranda||Andrés Santiago||Evaluation and optimization of thermal cracking of used lubricating oil||Daniela Almeida S.||CAPfuel||30|
|2013||Campaña Gonzales||José Antonio||Prefeasibility study for the installation of a biodigestion system designed to produce biogas and biofertilizer from excreta, on livestock farms on the island of San Cristóbal in the province of Galapagos||Daniela Almeida S.||BioDO||21|
|2013||Játiva Guzman||Fernando Rafael||Design, construction and commissioning of a plant for the conversion of used oil into diesel # 2||Daniela Almeida S.||CAPfuel||22|
|2013||Rueda Salgado||Pablo David||Prefeasibility study for the management of organic waste from the Galapagos Science Center||Daniela Almeida S.||BioDO||23|
|2012||Estrella You||Ana Elizabeth||Study of the energy use of biogas by direct and indirect means||Daniela Almeida S.||BioDO||19|
|2012||Puente Alarcón||Pedro David||Study of anaerobic digestion of fruit waste in the pilot plant of the LaDEA alternative energy development laboratory||Daniela Almeida S.||BioDO||20|
|2011||Ampudia Moya||María José||Investigation of the optimal conditions and the kinetics of the anaerobic biodigester process of agro-industrial organic waste and cattle manure||Daniela Almeida S.||BioDO||12|
|2011||Benedik Buitron||Savina Estefanía||Study of different catalysts for obtaining synthetic diesel 2 from the catalytic cracking of used lubricating oil||Daniela Almeida S.||CAPfuel||13|
|2011||Proaño Herrera||Gabriel Abelardo||Optimization in the operation of a biodigester on a pilot scale and characterization of products and raw materials||Daniela Almeida S.||BioDO||15|
|2011||Ulloa Espinoza||Carolina Estefanía||Study of energy reuse options or orange peel matter||Daniela Almeida S.||W2R||16|
|2011||Vargas Solís||Diana Cristina||Kinetic study of the catalytic cracking reaction of lubricating oil used to obtain diesel # 2||Daniela Almeida S.||CAPfuel||17|
|2010||Aguirre Ortega||Brenda||Obtaining synthetic # 2 diesel from used lubricating oils||Daniela Almeida S.||CAPfuel||7|
|2010||Cabrera Orellana||Carla María||Kinetic study of anaerobic digestion of fruit waste mixtures||Daniela Almeida S.||BioDO||8|
|2010||Chiriboga Novillo||Guillermo||Development of the biogas and organic fertilizer production process from mixtures of fruit waste||Daniela Almeida S.||BioDO||9|
|2010||Fonseca Ashton||Juan Diego||Manufacture of fuel biomass briquettes from fruit waste||Daniela Almeida S.||W2R||10|
|2010||Paucar||Marco Favio||Study of the activity of circulating catalyst in the fluidized catalytic cracking unit (FCC)||Alexis Hidrobo / Daniela Almeida S.||CAPfuel||11|
|2009||Montesinos Maldonado||Juan José||Design and construction of a heat exchanger for the biodigester on a pilot scale and control of temperature conditions||Daniela Almeida S.||BioDO||5|
|2009||Regalado Yépez||Diego Andrés||Study of the generation of biogas and organic fertilizer using organic waste||Daniela Almeida S.||BioDO||6|
|2008||Celleri Calle||Diego Iván||Design and construction of a hot air generator with African palm waste||Daniela Almeida S.||BioDO||2|
|2008||Noboa Velasco||Estefanía||Design of an activated carbon filter to remove residual free chlorine from drinking water for use in the pharmaceutical industry||Daniela Almeida S.||NA||3|
- Preliminary Study of Biomethane Production of Organic Waste based on their Content of Sugar, Starch, Lipid, Protein and Fiber; Daniela Almeida Streitwieser, Ines A. Cadena; Chemical Engineering Transactions 65 (2018); pp. 661-666.
- Evaluation of Phenolic Compounds, Lignin, Amino Acids and Carbohydrates in Theobroma cacao L. from Three Different Climate Regions in Venezuela; Alvarez-Barreto JF, Quintero D, Rodriguez M, Rea R, Daynet S .; Emirates Journal of Food and Agriculture, 2018, Accepted for Publication.
- Mesenchymal Stem Cell Culture on Composite Hydrogels of Hydroxyapatite Nanoparticles and Photo-Crosslinking Chitosan; Alvarez-Barreto JF, Márquez M, Gallardo E, Moret J, Benítez N, Meyer M, Marsiccobetre S, Zujur D .; Mexican Journal of Biomedical Engineering, 2017, 38 (3): 524-536
- Comparison of the adsorption capacity of organic compounds present in produced water with commercially obtained walnut shell and residual biomass; Gallo-Cordova, Alvaro; Silva-Gordillo, María del Mar; Muñoz-Rivadeneira, Gustavo; Arboleda-Faini, Xavier; Almeida Streitwieser, Daniela; Journal of Environmental Chemical Engineering 5 (2017); pp. 4041-4050; 2017
- 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; 2017
- 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), pp 9712–9720; 2016
- 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, ISBN 978-90-9029-133-8; Pages 205-209, 2015; Belgium
- 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, ISBN 978-90-9029-133-8; Pages 166-170, 2015; Belgium
- Comparative study of the compostability of LDPE, oxo-biodegradable and paper-plastic covers distributed in the Metropolitan District of Quito; Daniela Almeida Streitwieser & Tsu Hsin Huang; Advances in Science and Engineering; USFQ; Vol. 7; Pages C20-C30, 2015; Ecuador
- 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; Ausgabe 08; Pages 379 - 382; 2010; Germany
- Study of anaerobic co-digestion of agro-industrial organic waste; Daniela Almeida, Diego A. Regalado, María J. Ampudia, Advances in Science and Engineering, USFQ; Vol. 2; Pages C11 - C16; 2010; Ecuador
- Macro-kinetic analysis of the chemical vapor infiltration of Si and Si / SiC layers in biomorphic carbon structures; Daniela Almeida S .; Advances in Science and Engineering, USFQ, Vol. 1; Pages 41-49; 2009; Ecuador