About my research
Rosenberg J. Romero holds a degree in Chemical Engineering from the Autonomous University of Puebla, as well as a Master's degree in Photothermal Sciences, and a Ph.D. in Energy from the National Autonomous University of Mexico. He is a professor and full-time researcher at the Engineering and Applied Sciences Research Center (CIICAp) of the Autonomous University of the State of Morelos (UAEM). He has served as the leader of the absorption heat pumps project since 1996 and has written and indexed international articles on renewable energy and energy sustainability. His research topics mainly include energy recovery, absorption heat pumps, heat recovery systems, non-conventional cycles, and artificial intelligence.
All Stories
- Luffa cylindrica as a Sustainable Adsorbent for Scalable Wastewater Treatment
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- Waste Heat Recovery with AI: Optimizing a Double-Stage Heat Transformer
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- Alternative freeze melting desalination process.
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- Probable CO2 emissions calculation for Mexico at 2050 using LEAP.
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- Luffa cylindrica may be used as a natural adsorbent to remove dye mixture from water
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- Advancing Sustainability: Innovative Solutions for Energy and Environmental Challenges
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- Artificial Intelligence-Based Optimization for Thermal Energy Recovery.
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- Turning Waste Heat into Energy: The Role of Absorption Heat Transformers
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- Mexico's Path to a Sustainable Future: Cutting Emissions and Embracing Clean Energy by 2050
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- Optimizing Ground-to-Air Heat Exchangers for Efficient Thermal Performance
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- Energy-Efficient Desalination via Freezing: A Diffusion-Based Modeling Approach
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- Photovoltaic-Powered Low-Pressure Reverse Osmosis for Freshwater Production
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- Improving Solar Cooling Systems with Two-Stage Absorption Design
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- Membrane Desorber for Efficient Absorption Cooling
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- Efficient Solar Cooling: Comparing Storage Tank Designs for Energy Savings
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- Cleaning Wastewater: The Power of Adsorption
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- Solar-Powered Cooling with Membrane Desorber Technology
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- High-Efficiency Solar Thermal Collector for Industrial Heat Application
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- Sustainable air conditioning for the future.
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- Evaluating CO₂ Corrosion in Steel Using Rotating Cage and CFD Modeling
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- Modeling NaOH Solutions for Efficient Absorption Cooling
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- Optimizing Mexico’s Power Grid for a Sustainable Future.
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- Feasibility of Half-Effect Absorption Cooling Using Low-Enthalpy Geothermal Energy
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- Effective Wastewater Decontamination: The Role of Adsorption Technology
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- Solar collectors of 38.43 m2 area: thermal efficiency assessment
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- Mexico's convenience in promoting investment in solar thermal energy.
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- Renewable air conditioning by ammonia reactor operation
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- Hybrid solar geothermal air conditioning proposal
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- A membrane is used for sustainable future air cooling systems.
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- Material and methodological innovation with artificial intelligence.
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- Making Waste Heat Useful: Testing a Double-Absorption Heat Transformer with Water–Lithium Bromide
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- Using Solar Energy for Cooling: Testing Different Fluid Mixtures in Absorption Systems
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- Freezing Saltwater to Remove Salt: A Model for Efficient Desalination
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- Testing Stainless Steel Corrosion in Sodium Hydroxide Solutions for Air-Conditioning Systems
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- Boosting Eco-Friendly Coolers: Mixers in Ammonia Absorbers
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- Improving Heat Systems: Testing a New Membrane Device to Boost Absorption Cooling
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- Predicting and Testing Heat Recovery Systems to Save Industrial Energy
Article
- Can Solar Heat Power Cooling? A Feasibility Study for Solar Absorption Systems
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- Geothermal Power's Full-Life Eco-Impacts: A Tech Review
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- Membrane Device for Heat Upgrades: Testing Water-Carrol Separation
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- Solar-Driven Hydroxide Air Conditioners for Low Emissions
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- Upgrading Waste Heat: Review of Absorption Transformers
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- Heat Upgrading Prototype: Water-Carrol Absorption Heat Transformer Tests
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- Monitoring Heat Upgraders: Stats for Better Control
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- Testing a Waste Heat Booster Made with Standard Heat Exchangers
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- Heat and Salt Changes in Waste Heat Upgrader's Generator
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- Absorber Designs in Heat Pumps: A Review
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- Fiber Optic Tech for Measuring Salt in Heat Pumps
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- Heat Recovery Booster: Testing Plate Exchanger Efficiency in Waste Heat Upgrader
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- Fuel Cell Waste Heat for Power and Pure Water
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- Saving Energy with Smart Heat Pumps Using Object-Oriented Programming
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- Using Artificial Intelligence and Electronics to Improve Optical Applications
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- Defining Key Parameters to Improve Double Absorption Heat Transformers
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- Bubble Absorbers in Plate Exchangers: Testing Ammonia Mixtures for Better Cooling
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- Fiber Optic Sensor for Salt-Water Mix in Waste Heat Recovery
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- Energy Basics and Efficient Power Generation
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- Latest Advances in Heat-Powered Cooling Systems
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- Fuel Cell Thermodynamics Basics
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- Energy and Cogeneration
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- Sorption Refrigeration Systems
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- Cogeneration Fuel Cells – Air Conditioning Systems
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- Potential Applications in Demonstration Projects
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- Profitability Assessment of the Cogeneration System
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- Flow-Controlled Double-Stage Heat Pumps
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- Measuring Heat Transfer in Plate Heat Exchangers for Cleaner Energy Systems
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- Using Artificial Intelligence (AI) and Heat Recovery to Make Water Purification More Efficient
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- Measuring Heat Transfer in Steam Generators for Cleaner Industrial Energy
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- Efficient Water Cleaning with Factory Waste Heat
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- Fuel Cell Waste Heat for Eco-Friendly Cooling
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- Boosting Waste Heat Water Purifier Efficiency
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- Advanced Boosting Waste Heat Water Purifier Efficiency
- Measuring Lithium Bromide Levels in Solar Cooling Systems More Accurately
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- Smart Control Design for Absorption Heat Pumps Using Water/Carrol Mixture
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- Measuring Salt Levels in Solar Air Conditioning with Light.
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- Earlier proposal for the detection of lithium bromide in aqueous solutions
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- Stable Light Waves in Layered Nonlinear Materials
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- Efficient Cooling with Methylamine-Water Mix
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- Optical Temp Sensing in Solar Cooling Systems
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- A Tiny Optical Sensor for Measuring Pressure with High Sensitivity
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- Portable Water Purifier Powered by Waste Heat
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- Turning Low-Grade Heat into Fresh Water: Efficient Seawater Desalination
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- Solar-Powered Cooling System for Storing Milk in Rural Farms
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- Comparing Mixtures for Upgrading Waste Heat in Energy-Saving Devices
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- Solar-Driven Chemical Ice Maker Using Barium Chloride and Ammonia
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- Comparing Two Solar Systems for Cooling and Heating Buildings
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- Boosting Solar Pond Energy with Advanced Heat Transformers
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- Solar Cooling Using a New Monomethylamine–Water System
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- Comparing Mixtures for Efficient Cooling and Heating in Energy Cycles
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- Comparing Solar Air Conditioning Systems Using Two Cooling Fluids
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- Raising Solar Pond Heat to Higher Temperatures with a Heat Transformer
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- Improving Heat Recovery with a New Water–Carrol Mixture
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- Efficient Heat Recycling Using a Special Three-Hydroxide Fluid
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- Modeling Advanced Heat Recovery Systems Using a Water–Carrol Mixture
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- Modeling Steam Generation in Heat Exchangers for Energy Recovery
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- Smart Control of Fluids in Lab Heat Pumps for Recycling Waste Energy
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