Theresa Weith scite author profile

Abstract:The application of the Organic Rankine Cycle to high temperature heat sources is investigated on the case study of waste heat recovery from a selected biogas plant. Two different modes of operation are distinguished: pure electric power and combined heat and power generation. The siloxanes hexamethyldisiloxane (MM) and octamethyltrisiloxane (MDM) are chosen as working fluids. Moreover, the effect of using mixtures of these components is analysed. Regarding pure electricity generation, process simulations using the simulation tool Aspen Plus show an increase in second law efficiency of 1.3% in case of 97/03 wt % MM/MDM-mixture, whereas for the combined heat and power mode a 60/40 wt % MM/MDM-mixture yields the highest efficiency with an increase of nearly 3% compared to most efficient pure fluid. Next to thermodynamic analysis, measurements of heat transfer coefficients of these siloxanes as well as their mixtures are conducted and Kandlikar's correlation is chosen to describe the results. Based on that, heat exchanger areas for preheater and evaporator are calculated in order to check whether the poorer heat transfer characteristics of mixtures devalue their efficiency benefit due to increased heat transfer areas. Results show higher heat transfer areas of 0.9% and 14%, respectively, compared to MM. OPEN ACCESSEnergies 2014, 7 5549

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Experimental short-term investigation of model predictive heat pump control in residential buildings

Kuboth

Heberle

Weith

et al. 2019

Energy and Buildings

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Density and Viscosity of Linear Siloxanes and Their Mixtures

et al. 2023

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Density and viscosity measurements are performed for ethanol, water, hexamethyldisiloxane (MM), octamethyltrisiloxane (MDM), decamethyltetrasiloxane (MD2M), and their mixtures (ethanol/water, MM/MDM, MM/MD2M, MDM/MD2M) at 100 kPa at different temperatures (293–423 K) and mixture compositions. To measure the density and viscosity, an IMETER measuring system with a combined dynamic and static force measurement method, a density meter with an oscillating U-tube measuring method, and a rheometer with a double-gap measuring system were used. The experimentally determined data for the pure substances show a very good agreement with literature data. However, there is a strong deviation of the mixture viscosity between max 7% for MM/MDM and 31% for MM/MD2M compared to Refprop v.10.0. In order to enable an improvement in the calculation of the density and viscosity for the mixtures, specific parameters for the Jouyban–Acree model are developed for all mixtures and thereby, a better description of the density and viscosity for the mixtures could be achieved.

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Isobaric vapor-liquid equilibrium for ethanol/water and binary linear siloxane mixtures at 100 kPa

Arnautovic

Weith

Heberle

et al. 2022

Fluid Phase Equilibria

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Techno-economic feasibility analysis of zeotropic mixtures and pure fluids for organic Rankine cycle systems

Andreasen

Baldasso

Kærn

et al. 2021

Applied Thermal Engineering

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Theresa Weith

Performance of Siloxane Mixtures in a High-Temperature Organic Rankine Cycle Considering the Heat Transfer Characteristics during Evaporation

Experimental short-term investigation of model predictive heat pump control in residential buildings

Density and Viscosity of Linear Siloxanes and Their Mixtures

Isobaric vapor-liquid equilibrium for ethanol/water and binary linear siloxane mixtures at 100 kPa

Techno-economic feasibility analysis of zeotropic mixtures and pure fluids for organic Rankine cycle systems

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