ISBN13: | 9783031619557 |
ISBN10: | 3031619552 |
Binding: | Hardback |
No. of pages: | 247 pages |
Size: | 235x155 mm |
Language: | English |
Illustrations: | 17 Illustrations, black & white; 116 Illustrations, color |
700 |
Research and Innovation in Renewable Energy and Environment
EUR 235.39
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Renewable energies reduce dependence on fossil fuels and minimize the carbon footprint. Solar panels and wind turbines decrease emissions and costs in the industry. Socially, they benefit disconnected communities, improving quality of life and providing opportunities. Sustainable development seeks equity and social inclusion, driving sustainable energy solutions. Renewable energies promote a prosperous and equitable future, addressing environmental and economic challenges. The energy transition is everyone's responsibility to ensure a greener and brighter tomorrow.
On the other hand, environmental biotechnology and marine biology are fundamental to address environmental challenges. Research on treating effluents from the dairy, textile, and mining sectors seeks solutions to reduce water pollution. Industrial waste valorization through biotechnology aims to decrease pollution and resource depletion. The production of bio-products, biomaterials, bioplastics, and biofuels offers sustainable alternatives with a lower carbon footprint. Marine biology focuses on understanding and conserving aquatic ecosystems in the face of climate change and human influence. Biotechnology also contributes to the sustainable use of national biodiversity, with applications in pharmaceutical, cosmetic, and agricultural industries. These multidisciplinary fields are advancing towards a more sustainable and environmentally friendly future. The conference proceedings will consist of original research articles, reviews, and short communications covering several types of renewable energies: Solar including photovoltaic cells or solar thermal systems, Wind, Hydropower, Biomass-based energy, Geothermal, Waves Energy, Hydrogen, Bioenergy, or energy from biological processes, and fuel cell systems. In addition, studies focused on Environmental Biotechnology, including Bioremediation, Bioenergy Production, Microbial Fuel Cells, Waste Valorization, Microplastic Biodegradation, Biodegradable Materials and Phytoremediation, as well as focused on Marine Biology, including Marine Biodiversity and Conservation, Marine Genomics, Ocean Acidification, Marine Ecotoxicology, and Marine Biotechnology and Microbiology. Other environmental areas of research can be also included such as industrial wastewater systems or the development of sustainable solutions for a healthier and more resilient environment.
Renewable energies reduce dependence on fossil fuels and minimize the carbon footprint. Solar panels and wind turbines decrease emissions and costs in the industry. Socially, they benefit disconnected communities, improving quality of life and providing opportunities. Sustainable development seeks equity and social inclusion, driving sustainable energy solutions. Renewable energies promote a prosperous and equitable future, addressing environmental and economic challenges. The energy transition is everyone's responsibility to ensure a greener and brighter tomorrow.
On the other hand, environmental biotechnology and marine biology are fundamental to address environmental challenges. Research on treating effluents from the dairy, textile, and mining sectors seeks solutions to reduce water pollution. Industrial waste valorization through biotechnology aims to decrease pollution and resource depletion. The production of bio-products, biomaterials, bioplastics, and biofuels offerssustainable alternatives with a lower carbon footprint. Marine biology focuses on understanding and conserving aquatic ecosystems in the face of climate change and human influence. Biotechnology also contributes to the sustainable use of national biodiversity, with applications in pharmaceutical, cosmetic, and agricultural industries. These multidisciplinary fields are advancing towards a more sustainable and environmentally friendly future. The conference proceedings will consist of original research articles, reviews, and short communications covering several types of renewable energies: Solar including photovoltaic cells or solar thermal systems, Wind, Hydropower, Biomass-based energy, Geothermal, Waves Energy, Hydrogen, Bioenergy, or energy from biological processes, and fuel cell systems. In addition, studies focused on Environmental Biotechnology, including Bioremediation, Bioenergy Production, Microbial Fuel Cells, Waste Valorization, Microplastic Biodegradation, Biodegradable Materials and Phytoremediation, as well as focused on Marine Biology, including Marine Biodiversity and Conservation, Marine Genomics, Ocean Acidification, Marine Ecotoxicology, and Marine Biotechnology and Microbiology. Other environmental areas of research can be also included such as industrial wastewater systems or the development of sustainable solutions for a healthier and more resilient environment.
Chapter 1. Assessment of extreme environments at different altitudinal gradients in Arequipa with astrobiological and biotechnological potential. - Chapter 2. Integrated Projection of the Development of Solar Farms in the Puno Altiplano of Peru.- Chapter 3. The influence of composition and preparation temperature of mixed metal oxide anodes on the removal of color and COD from textile effluent.- Chapter 4. Growth evaluation of the microalgae Chlorella isolated from an industrial effluent.- Chapter 5. RELIABILITY CALCULATION OF A NEURAL NETWORK FOR VOLTAGE PREDICTION IN SOLAR PANELS BASED ON TEMPERATURE, HUMIDITY, UV, CURRENT, AND ILLUMINANCE.- Chapter 7. Molecular evidence of Dactylis glomerata (orchard grass) as an alternate host of yellow rust (Puccinia striiformis) of barley (Hordeum vulgare).- Chapter 8. SEM characterization of ASTM A36 and A615 powder metallurgical steel processed from waste from a steel plant.- Chapter 9. IoT-Based Control Technology for Rice Seedling Cultivation in Greenhouses with a Focus on Water Resource Optimization and Crop Resilience under Thermal Stress Conditions. - Chapter 10. Multidimensional Evaluation of Agrivoltaic Systems to Enhance Crop Resilience in Arid Climates of Souther Arequipa Peru.- Chapter 11. Social Footprint of a Water Supply and Sanitation Project in the isolated rural region of Chalhuanca Caylloma Arequipa.- Chapter 12. The microplastic exposure influence in aquatic macroinvertebrate diversity in Camana river basin. - Chapter 13. Design and simulation of a prototype for the evaluation of bifacial photovoltaic solar panels under environmental conditions of the city of Arequipa-Peru.- Chapter 14. Hydro chemical patterns analysis to determine the controlling factors in Camana river.- Chapter 15. Antimicrobial effect of biofilm from chitosan obtained from shrimp shell (Cryphiops caementarius) and Mu?a oil (Minthostachys mollis).- Chapter 16. Detection of micro polymers of physical chemical and biological degradation processes by ?FTIR spectroscopy.- Chapter 17. Validation of mangiferin quantification in mango leaves criollo variety using ultrasound extraction assisted by HPLCRP.- Chapter 18. Organic biofertilizer trough foliar supplementation produced with Hermetia illucens frass in Phaseolus vulgaris performance.- Chapter 19. Evaluation of non-Newtonian Flows for Flood Simulation in Los Incas Creek in the City of Arequipa Perú.