Titlebook: Energy and Thermal Management, Air-Conditioning, and Waste Heat Utilization; 2nd ETA Conference, Christine Junior,Oliver Dingel Conference

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Approach for the Transient Thermal Modeling of a Vehicle Cabinng the fluid dynamics explicitly. From the results of transient thermal 3D CFD simulations of the load case ‘Cooldown’ a model for the respective parameters is derived by means of a Linear Time-Invariant System (LTI) approach. These parameters then serve as transient boundary conditions in an indepe

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Waste Heat Recovery Potential on Heavy Duty Long Haul Trucks – A Comparisonal vs mechanical coupling)..Results are showing that Cyclopentane shows the best overall net fuel economy performance using indirect condensation via a low temperature loop whereas Ethanol offers the best potential using direct condensation using forced air flow.

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Combining Low- and High-Temperature Heat Sources in a Heavy Duty Diesel Engine for Maximum Waste Hea5–7 kW for the ORC and TRC, 3–5 kW for the TFC, and 0.5–4 kW for the OFC. The use of a recuperator increased the net power output by 15 to 25% for . and helped reduce the condenser load for .. For the dominant engine operating points of long haul cycle, the best performance was achieved for .. With

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Simulative Investigation of the Influence of a Rankine Cycle Based Waste Heat Utilization System on operating point to a lower engine torque level and the changed engine operating conditions by applying the WHR system have a strong influence on the benefit of the fuel efficiency and on the engine emission as well..This paper aims to evaluate the impacts of the varied engine applications considerin

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Design of a Thermoelectric Generator for Heavy-Duty Vehicles: Approach Based on WHVC and Real Drivinnd a competitive cost-benefit ratio. Recent research has focused on passenger cars but the potential for heavy-duty vehicles is high as well. Therefore, in this paper, the system development from potential analysis over design to experimental results, is presented for modern Euro VI heavy-duty vehic

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Energy and Thermal Management, Air-Conditioning, and Waste Heat Utilization2nd ETA Conference,

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Energy and Thermal Management, Air-Conditioning, and Waste Heat Utilization978-3-030-00819-2

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