Energy System and Sustainability
RESEARCH FOCUS
We advance energy systems and sustainability through nanofluids for geothermal and oil recovery, and innovations in fuel cells and photocatalytic hydrogen. Our work also includes pollutant degradation, biomass energy,
and solar conversion for a
cleaner energy future.
Energy System and Sustainability
RESEARCH FOCUS
Our research is dedicated to advancing energy systems and sustainability through innovative technologies. We explore nanofluids for enhancing geothermal energy extraction and oil recovery, optimizing efficiency in renewable energy sources. Our work in proton exchange membrane fuel cells and photocatalytic hydrogen generation pushes the boundaries of clean energy production, while our efforts in pollutant degradation contribute to environmental protection. Additionally, we develop biomass energy solutions and solar energy conversion systems, driving the transition to sustainable energy future.
On-Going Research
Energy System
Nanofluidic Energy Extraction
Emission Reduction and Climate Risk Mitigation
Modelling and experimental validation of fouling mechanism in nanofluids
Multi-criteria decision model for renewable energy system development and renewable energy system modelling - simulation
Photocatalytic System
Development of 3D generation sustainable aviation biofuel synthetic system
Control system in open cathode Proton Exchange Membrane (PEM) Fuel Cell [in collaboration with Prof. Dr. Katherin Indriawati]
Multi-parameter and -objective optimization of nanofluids for enhanced oil recovery (base fluid, nanoparticles, and surfactant)
Development of a stable dispersion of nanoparticles in water and water/ethylene glycol-based nanofluids for geothermal energy extraction
Development of green house gas emission calculation worksheet for energy, mining, and environmental industry
Photocatalytic and/or photoelectrochemical reactor design for simultaneous hydrogen generation and pollutant degradation
Design, synthesis, and characterization of metal oxide photocatalyst
Modelling and simulation of carbon capture, utilization, and storage technology
Artificial intelligence-driven synthetic design of photocatalyst
Rumah Indonesia Expedition: Development of a revised standard for Indonesia tropical building energy conservation
Graphical Abstracts
Smartphone-based electrochemical sensing of propyl gallate in food samples by employing NiFe-Oxide decorated flexible laser-induced graphene electrode
Sustainable Technology Innovations: Optimizing Inverter Selection for Solar PV and Wind Turbine Systems Using Fuzzy MCDM
Electrochemical sensors based on the composite of reduced graphene oxide and a multiwalled carbon nanotube-modified glassy carbon electrode for simultaneous detection of hydroquinone, dopamine, and uric acid
Luminol Electrochemiluminescence and Electrocatalysis by Prussian Blue in Comparison for the Detection of Hydrogen Peroxide
Publications
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