TY - THES U1 - Abschlussarbeit (Master) A1 - Pourramedani, Kousha T1 - Simulation of a Hybrid Solar- Adsorption Cooling System with Integrated Reversible Heat Pump N2 - This thesis explores the feasibility and optimization of a solar-thermal sorption system mainly designed to provide cooling but also capable of heating functionalities. Through the development of a black-box model using Python programming, the study delves into the system's performance under various operation modes. Simulation results reveal the effectiveness of adaptive control strategies and pre-heating stages in optimizing efficiency, particularly in cooling modes. In heating assessments, superior performance is observed when utilizing the outdoor coil as the heat source for the heat pump. Challenges related to operational temperature bands are addressed, proposing parallel connections of the heat pump and outdoor coil to enhance performance. Future research directions include refining regression models and incorporating real-time measurement data for improved accuracy, as well as extending simulation duration for comprehensive evaluations. This study contributes valuable insights into the system’s capabilities and applications, laying the groundwork for advancements in heat-driven integrated sustainable energy systems. KW - Adsorption chiller KW - Evacuated tube solar collector KW - Reversible heat pump KW - Python simulation KW - Black-box modeling KW - Regression model KW - Energiesystem KW - Wärmepumpe KW - Simulation KW - Sorption Y2 - 2024 U6 - https://nbn-resolving.org/urn:nbn:de:bsz:ofb1-opus4-86887 UN - https://nbn-resolving.org/urn:nbn:de:bsz:ofb1-opus4-86887 SP - III, 57 S1 - III, 57 PB - Hochschule Offenburg CY - Offenburg ER -