Mechanical Enginneer (FEI, 1995), Doctors and Masters degree in Aeronautical and Mechanical Sciences (ITA, 2007) and Post-doctoral in Thermal and Fluid Science (UNICAMP, 2016).Associate professor at UFGD, at Mechanical and Energy Engineering undergraduation courses. Has experience in Mechanical Engineering, focusing on Fluid Mechanics, Heat Transfer and Thermodynamics.In industry and companies.
ECo - Energy Conversion for Thermo-Fluid-Mechanics, Biomass & Renewables: dgp.cnpq.br/dgp/espelhogrupo/4210400692723028 Leader of CNPq research group CNPq, ECo - Energy Conversion for Thermo-Fluid-Mechanics, Biomass, and Renewables (ANP accredited in 2013).Together with scientific and academic entities: ABCM Senior Member (since 1997), Member of the ABCM/Energy and Thermal Systems Committee (2013-2017) and the RNC Scientific Committee - National Combustion Network (2013-2017); Ad-hoc consultant of Educational Institutions and FAPs (FUNDECT, FAPDF, FAPES, FAPEMIG, etc.); It integrates inep/MEC evaluator bank (BASIs / SINAES), ENADE /BNI and ARCUSUL /BIPE+RANA. Reviewer of scientific journals (Energy, IJHMT Experimental Thermal and Fluid Science / Elsevier; JBSMSE Energy Efficiency / Springer, among others). I have experience and works in the area of Mechanical Engineering, with emphasis on Energy, Thermal and Fluid Engineering (Fluid Mechanics, Heat Transfer and Thermodynamics); Machines, Engines and Equipment; Experimental engineering, Renewable energy and biomass.
Topic 1. Enhancement of water circularity in industries
Topic 2. Urban water circularity
Topic 3. Resource recovery and valorization
Topic 4. Economic, environmental and social implications of water reuse and recovered products
Topic 1: Zero liquid discharge and resource recovery; minimization of water consumption, wastewater treatment for reuse; nnovative monitoring procedures for process control and development of operating concepts and metrics for efficient water cycle management.
Topic 2: Integration with industrial sector, harvesting and reuse of rainwater and runoff; Novel monitoring and control methodologies
Topic 3: Recovering valuable resources from wastewater, sludges, brines, and reservoir sediments; resource recovery and water reuse in both industrial and urban contexts to maximize efficiency and sustainability; applicability of recovered materials for various uses, considering emerging standards and regulations for resource recovery.
Topic 4: Incorporate circularity measurement and assessment with emerging standardized indicators for circularity and sustainability; Compliance with the emerging regulations and standards, monitoring and modelling approaches and potential interventions to minimize the environmental impact;
renewable energy, water recovery, water sources, water turbidity and sediments, rivers of cristal clear water, siltation of rivers, rain meter stations, water quality monitoring, engineering instrumentation and data acquisition, flow measurement
ENCIT 2024, 10-14/Nov/2024, Foz do IguaƧu-PR (https://eventos.abcm.org.br/encit2024/)