Manuel Gräber scite author profile

Manuel Gräber

5Publications

54Citation Statements Received

22Citation Statements Given

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Affiliations

Klinik und Poliklinik für Hals-, Nasen-, Ohrenheilkunde, Technische Universität Braunschweig

Publications

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Modelling of heat pumps with an object-oriented model library for thermodynamic systems

Gräber

Kosowski

Richter

et al. 2010

Mathematical and Computer Modelling of Dynamical Systems

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Novel CO 2 heat pump systems for domestic hot water supply are modelled using an object-oriented thermodynamic model library written in Modelica. Due to the variety of mathematical structures of thermodynamic models and the possibilities of objectoriented modelling languages, powerful libraries are often very complex and hard to understand. The scope of the presented library lies on good readability and usability for both users and model designers. The basic structure and design concepts of the library are outlined and also the most important model concepts are explained. The heat pump system is modelled and simulation results are compared with test stand measurements. Simulation results are used to analyse the design of the system and to get information about possible further improvements. IntroductionCompression heat pump systems have the potential to decrease the primary energy consumption of domestic heating and hot water supply. Different studies [1] have shown that heat pump systems using the natural, environmentally friendly refrigerant CO 2 are able to achieve higher efficiencies than systems using conventional refrigerants when warming up heating water or potable hot water at a high temperature level (55-60 C). Thereby, new concepts of heat supply systems for low-energy buildings have resulted. Low-energy buildings are characterized by a high level of heat insulation, which leads to a reduced energy demand for heating water. However, the amount of heat required to warm up potable hot water rises compared with the overall energy demand of the building. The heating system as a whole has to supply less heat, but considered relatively, it has to deliver heat more frequently at higher temperature demands. To come close to the theoretical maximal efficiency in real systems, an accurate design is mandatory. To really lower the primary energy consumption, it is important to not only look at certain operating points but on the overall performance over long-term periods. For both aspects, simulation of heat pump systems is very useful and can support the design of heat pump systems significantly. Due to high variability of different concepts, a library with ready-to-use component models is a great advantage.There have been many research activities about simulation of thermodynamic systems during the last decades. A variety of different programming and modelling languages are used. Richter [2] gives an overview of what is state of the art in this area. The latest activities

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Optimization of an Unconventional Environmental Control System Architecture

Sielemann

Giese

Oehler

et al. 2011

SAE Int. J. Aerosp.

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Determining the optimum cyclic operation of adsorption chillers by a direct method for periodic optimal control

Gräber

Kirches

Bock

et al. 2011

International Journal of Refrigeration

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A Limiter for Preventing Singularity in Simplified Finite Volume Methods

Schulze

Gräber

Tegethoff

2012

IFAC Proceedings Volumes

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Adsorption energy systems library - Modeling adsorption based chillers, heat pumps, thermal storages and desiccant systems

Bau

Lanzerath

Gräber

et al. 2014

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A library for dynamic modeling adsorption based thermal systems like chillers, heat pumps, thermal storages or desiccant units is presented. Adsorption devices can serve a wide range of applications but usually consist of the same basic components. By modeling these basic components, the presented model library allows to investigate any interesting topology. Thereby this adsorption library gives the user the opportunity to design and optimize adsorption systems quickly and efficiently. To demonstrate the flexibility of the library and the accuracy of the simulations, three validated examples are presented: A desiccant unit; a thermal storage; and an adsorption chiller.

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Manuel Gräber

Modelling of heat pumps with an object-oriented model library for thermodynamic systems

Optimization of an Unconventional Environmental Control System Architecture

Determining the optimum cyclic operation of adsorption chillers by a direct method for periodic optimal control

A Limiter for Preventing Singularity in Simplified Finite Volume Methods

Adsorption energy systems library - Modeling adsorption based chillers, heat pumps, thermal storages and desiccant systems

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