Dynamic Modeling and Simulation of a Facade Integrated Adsorption System for Solar Cooling of Lightweight Buildings. MPDI-Energies, 2024. [PUMA: Adsorption Buildings Cooling Dynamic Facade Integrated Lightweight Modeling Simulation Solar System a and for of]
Systematic screening and evaluation for an optimal adsorbent in a facade-integrated adsorption-based solar cooling system for high-rise buildings. Elservier-Energy, 2024. [PUMA: Systematic a adsorbent adsorption-based an and buildings cooling evaluation facade for high in integrated optimal rise screening solar system]
Facade-integrated adsorption system for solar cooling of lightweight buildings. 2021. [PUMA: Facade-integrated adsorption buildings cooling for lightweight of solar system]
Low Order Hybrid Model for Control Design of an Adsorption Facade System for Solar Cooling. 2022. [PUMA: Adsorption Control Cooling Design Facade Hybrid Low Model Order Solar System an for of]
Modeling and simulation of a facade-integrated adsorption system for solar cooling of lightweight buildings. 2022. [PUMA: Modeling a adsorption and buildings cooling facade-integrated for lightweight of simulation solar system]
Material Study for a Facade-Integrated Adsorption System for Solar Cooling of Buildings. 2023. [PUMA: Adsorption Buildings Cooling Facade-Integrated Material Solar Study System a for of]
Simulation-based determination of system size and energy savings for a life cycle assessment of a facade-integrated adsorption system for solar cooling of buildings. 2021. [PUMA: Simulation-based a adsorption and assessment buildings cooling cycle determination energy facade-integrated for life of savings size solar system]
Operation Optimization of a Facade Integrated Adsorption Based Solar Cooling System for Lightweight High-rise Buildings. 2024. [PUMA: Adsorption Based Buildings Cooling Facade High-rise Integrated Lightweight Operation Optimization Solar System a for of]
Modeling and simulation of a facade-integrated thermochemical energy storage system for solar cooling of buildings. 2024. [PUMA: Modeling a and buildings cooling energy facade-integrated for of simulation solar storage system thermochemical]
First experimental investigations of a facade-integrated adsorption system for solar cooling. 2024. [PUMA: First a adsorption cooling experimental facade-integrated for investigations of solar system]
Low Order Hybrid Model for Control Design of an Adsorption Facade System for Solar Cooling. 2022. [PUMA: Adsorption Control Cooling Design Facade Hybrid Low Model Order Solar System an for of]
Material Study for a Facade-Integrated Adsorption System for Solar Cooling of Buildings. 2023. [PUMA: Adsorption Buildings Cooling Facade-Integrated Material Solar Study System a for of]
First experimental investigations of a facade-integrated adsorption system for solar cooling. 2024. [PUMA: First a adsorption cooling experimental facade-integrated for investigations of solar system]
Modeling and simulation of a facade-integrated thermochemical energy storage system for solar cooling of buildings. 2024. [PUMA: Modeling a and buildings cooling energy facade-integrated for of simulation solar storage system thermochemical]
Simulation-based determination of system size and energy savings for a life cycle assessment of a facade-integrated adsorption system for solar cooling of buildings. 2024. [PUMA: Simulation-based a adsorption and assessment buildings cooling cycle determination energy facade-integrated for life of savings size solar system]
Dynamic Modeling and Simulation of a Facade-Integrated Adsorption System for Solar Cooling of Lightweight Buildings. Energies, MPDI, 2024. [PUMA: Adsorption Buildings Cooling Dynamic Facade-Integrated Lightweight Modeling Simulation Solar System a and for of]
Systematic screening and evaluation for an optimal adsorbent in a facade-integrated adsorption-based solar cooling system for high-rise buildings. Energy, Elsevier, 2024. [PUMA: Systematic a adsorbent adsorption-based an and buildings cooling evaluation facade-integrated for high-rise in optimal screening solar system]
Measurement System for Surface Potentials in Realistic HVDC-GIS Environments. 658-662, August 2023. [PUMA: Environments HVDC-GIS Measurement Potentials Realistic Surface System for in]
Validation of a PD-Monitoring System for Power Cables by Evaluating Joints with Defined Assembly Defects. August 2022. [PUMA: Assembly Cables Defects Defined Evaluating Joints PD-Monitoring Power System Validation a by for of with]
Multi-Agent Based Strategy for Controlled Islanding and System Restoration Employing Dispersed Generation. 2020. [PUMA: Based Controlled Dispersed Employing Generationsend:unibiblio Islanding Multi-Agent Restoration Strategy System and for]