References of "Dumont, Olivier"
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See detailPerformance of a reversible heat pump/organic Rankine cycle unit coupled with a passive house to get a positive energy building
Dumont, Olivier ULiege; Carmo, Carolina; Fontaine, Valentin et al

in Journal of Building Performance Simulation (2016)

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See detailEconomic assessment of electric energy storage for load shifting in positive energy building
Dumont, Olivier ULiege; Carmo, Carolina; Georges, Emeline ULiege et al

in International Journal of Energy and Environmental Engineering (2016)

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See detailEXPERIMENTAL INVESTIGATIONS OF THE VALORIZATION OF THE EXHAUST WASTE HEAT OF A GASOLINE ENGINE BASED ON A RANKINE CYCLE
Dumont, Olivier ULiege; Legros, Arnaud; Diny, Mouad et al

Conference (2016)

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See detailPerformance Evaluation of a HP/ORC (Heat Pump/Organic Rankine Cycle) System with Optimal Control of Sensible Thermal Storage
Carmo, Carolina; Nielsen, MAds; Elmegaard, Brian et al

Conference (2016)

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See detailHot water tanks : how to select the optimal modelling approach?
Dumont, Olivier ULiege; Carmo, Carolina; Dickes, Rémi ULiege et al

Conference (2016)

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See detailAssessment of Emerging Renewable Energy-based Cogeneration Systems for nZEB Residential Buildings
Carmo, Carolina; Dumont, Olivier ULiege; Nielsen, Mads Pagh et al

Conference (2016)

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See detailPerformance Evaluation of a HP/ORC System with Optimal Control of Sensible Thermal Storage
Carmo, Carolina; Dumont, Olivier ULiege; Nielsen, Mads Pagh et al

Conference (2016)

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See detailEconomic assessment of energy storage for load shifting in Positive Energy Building
Dumont, Olivier ULiege; Carmo, carolina; Georges, Emeline ULiege et al

Conference (2016)

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See detailAnalysis and comparison of different modeling approaches for the simulation of a micro-scale organic Rankine cycle power plant
Dickes, Rémi ULiege; Dumont, Olivier ULiege; Legros, Arnaud ULiege et al

in Proceedings of the 3rd International Seminar on ORC Power Systems (2015, October 12)

When simulating a system based on the organic Rankine cycle (ORC), different modeling methods can be used to predict its performance. Each method is characterized by advantages, limitations and a level of ... [more ▼]

When simulating a system based on the organic Rankine cycle (ORC), different modeling methods can be used to predict its performance. Each method is characterized by advantages, limitations and a level of complexity. This contribution aims to assess the impact of the modeling approach on the performance prediction of ORC systems. To this end, a 2.8 kWe ORC unit is investigated as case study. In this paper, the components of the test bench are modeled using different approaches of increasing complexity and each model is calibrated using experimental data from the test rig. The goodness of fit as well as the benefits and limitations of each modeling methods are analyzed and discussed. [less ▲]

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See detailDesign, Modeling, and Performance Optimization of a Reversible Heat Pump/Organic Rankine Cycle System for Domestic Application
Quoilin, Sylvain ULiege; Dumont, Olivier ULiege; Harley Hansen, Kristian et al

in Journal of Engineering for Gas Turbines and Power (2015)

In this paper, an innovative system combining a heat pump (HP) and an organic Rankine cycle (ORC) process is proposed. This system is integrated with a solar roof, which is used as a thermal source to ... [more ▼]

In this paper, an innovative system combining a heat pump (HP) and an organic Rankine cycle (ORC) process is proposed. This system is integrated with a solar roof, which is used as a thermal source to provide heat in winter months (HP mode) and electricity in summer months (ORC mode) when an excess irradiation is available on the solar roof. The main advantage of the proposed unit is its similarity with a traditional HP: the HP/ORC unit only requires the addition of a pump and four-way valves compared to a simple HP, which can be achieved at a low cost. A methodology for the optimal sizing and design of the system is proposed, based on the optimization of both continuous parameters such as heat exchanger size or discrete variables such as working fluid. The methodology is based on yearly simulations, aimed at optimizing the system performance (the net yearly power generation) over its whole operating range instead of just nominal sizing operating conditions. The simulations allow evaluating the amount of thermal energy and electricity generated throughout the year, yielding a net electric power output of 3496 kWh throughout the year. [less ▲]

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See detailImportance of the reconciliation method to handle experimental data: application to a reversible heat pump / organic Rankine cycle unit integrated in a positive energy building
Dumont, Olivier ULiege; Quoilin, Sylvain ULiege; Lemort, Vincent ULiege

Conference (2015, June)

Experimental data is often the result of long and costly experimentations. Many times, measurements are used directly without (or with few) analysis and treatment. This paper therefore presents a detailed ... [more ▼]

Experimental data is often the result of long and costly experimentations. Many times, measurements are used directly without (or with few) analysis and treatment. This paper therefore presents a detailed methodology to use steady-state measurements efficiently in the analysis of a thermodynamic cycle. The reconciliation method allows to correct each measurement as little as possible, taking its accuracy into account, in order to satisfy all constraints and to evaluate the most probable physical state. The reconciliation method should be used for multiple reasons. First, this method allows to close energy and mass balances exactly, which is needed for predictive models. Also, it allows determining some unknowns that are not or that cannot be measured precisely. Furthermore, it fully exploits the collected measurements with redundancy and it allows to know which sensor should be checked or replaced if necessary. An application of this method is presented in the case of a reversible HP/ORC unit. This unit is a modified heat pump which is able to work as an organic Rankine cycle by reversing its cycle. Combined with a passive house comprising a solar roof and a ground heat exchanger, it allows to get a plus energy house. In this study case, the oil mass fraction is not measured despite of its strong influence on the results. The reconciliation method allows to evaluate it. The efficiency of this method is proven by comparing the error on the outputs of steady-state models of compressor and exchangers. An example is given with the prediction of the pinch-point of an evaporator. In this case, the normalized root mean square deviation (NRMSD) is decreased from 14.3 % to 4.1 % when using the reconciliation method. This paper proves the efficiency of the method and also that the method should be considered more often when dealing with experimentation. [less ▲]

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See detailExperimental investigation of a reversible heat pump / organic Rankine cycle unit designed to be coupled with a passive house (Net Zero Energy Building)
Dumont, Olivier ULiege; Quoilin, Sylvain ULiege; Lemort, Vincent ULiege

in International Journal of Refrigeration (2015), 54

This paper presents an innovative reversible Heat Pump/Organic Rankine Cycle (HP/ORC) experimental unit designed to be coupled to a Net Zero Energy Building (connected to a 120 m2 thermal solar roof and a ... [more ▼]

This paper presents an innovative reversible Heat Pump/Organic Rankine Cycle (HP/ORC) experimental unit designed to be coupled to a Net Zero Energy Building (connected to a 120 m2 thermal solar roof and a ground heat exchanger). The system can operate in three different modes: an ORC mode to produce electricity when a large amount of heat is collected by the solar roof, a direct heating mode using exclusively the solar roof, and a HP mode for space heating during cold weather conditions. This paper describes a comprehensive experimental campaign carried out on a prototype unit using a modified HVAC scroll compressor (4 kWe). From the results, the technical feasibility of the system is demonstrated. A cycle efficiency of 4.2% is achieved in ORC mode (with condensation and evaporation temperature respectively of 25 C and 88 C) and a COP of 3.1 is obtained in HP mode (with condensation and evaporation temperature respectively of 61 C and 21 C). [less ▲]

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See detailExperimental Validation of a Domestic Stratified Hot Water Tank Model in Modelica for Annual Performance Assessment.
Carmo, Carolina; Dumont, Olivier ULiege; Nielsen, Mads Pagh et al

Poster (2015)

Detailed reference viewed: 22 (3 ULiège)