Your search keyword '"Antoine Dalibard"' showing total 13 results

1. Superheated Steam Torrefaction of Biomass Residues with Valorisation of Platform Chemicals—Part 1: Ecological Assessment

Author

Baharam Roy, Peter Kleine-Möllhoff, Antoine Dalibard, and Publica

Subjects

biorefinery, platform chemicals, volatile recovery, superheated steam torrefaction, Environmental effects of industries and plants, Renewable Energy, Sustainability and the Environment, Geography, Planning and Development, TJ807-830, environmental assessment, Management, Monitoring, Policy and Law, TD194-195, Renewable energy sources, Environmental sciences, GE1-350

Abstract

Within the last decade, research on torrefaction has gained increasing attention due to its ability to improve the physical properties and chemical composition of biomass residues for further energetic utilisation. While most of the research works focused on improving the energy density of the solid fraction to offer an ecological alternative to coal for energy applications, little attention was paid to the valorisation of the condensable gases as platform chemicals and its ecological relevance when compared to conventional production processes. Therefore, the present study focuses on the ecological evaluation of an innovative biorefinery concept that includes superheated steam drying and the torrefaction of biomass residues at ambient pressure, the recovery of volatiles and the valorisation/separation of several valuable platform chemicals. For a reference case and an alternative system design scenario, the ecological footprint was assessed, considering the use of different biomass residues. The results show that the newly developed process can compete with established bio-based and conventional production processes for furfural, 5-HMF and acetic acid in terms of the assessed environmental performance indicators. The requirements for further research on the synthesis of other promising platform chemicals and the necessary economic evaluation of the process were elaborated.

Published

2022

2. Performance improvement of a large chilled-water plant by using simple heat rejection control strategies

Author

Ursula Eicker, Ute Bartels, Andreas Trinkle, Antoine Dalibard, Mariela Cotrado, and Andreas Biesinger

Subjects

Chiller, business.industry, Wet-bulb temperature, 020209 energy, Mechanical Engineering, 0211 other engineering and technologies, 02 engineering and technology, Building and Construction, Cooling capacity, Water chiller, Greenhouse gas, Chilled water, 021105 building & construction, 0202 electrical engineering, electronic engineering, information engineering, Water cooling, Environmental science, Process engineering, business, Efficient energy use

Abstract

Energy efficient cooling systems are urgently required in order to face the increasing cooling demand of the building and industry sectors and comply with the ambitious EU target of greenhouse gas emission reductions. The present work aims to show that simple heat rejection control strategies can lead to significant energy savings. Different approaches of sequencing the operation of several cooling towers and a method to adapt the cooling water temperature set-point to the actual ambient conditions are proposed. These strategies are first investigated theoretically for an existing chilled-water plant of 13.7 MW installed cooling capacity. Up to 20% energy savings are theoretically possible depending on the used control strategy and the weather conditions. A variable cooling water set-point as a function of the wet bulb temperature allows for the most significant savings. After implementation of this measure in the existing cooling plant, 2 years monitoring results show that the overall system efficiency of the chilled water plant could be increased by 15% compared to the initial status confirming the results of the theoretical study.

Published

2018

3. Characteristics of Hydrochar and Liquid Products Obtained by Hydrothermal Carbonization and Wet Torrefaction of Poultry Litter in Mixture with Wood Sawdust

Author

Mathieu Brulé, Olayinka Ahmed Ibitowa, D. V. Klimov, S. N. Kuz’min, Bernd Rogge, N. S. Muratova, Manuel Nowotny, Oleg Milovanov, R. L. Is’emin, Antoine Dalibard, Alexander Mikhalev, Fouzi Tabet, Vadim Kokh-Tatarenko, and Publica

Subjects

Bioengineering, TP1-1185, hydrothermal carbonization, fluidized bed, Hydrothermal carbonization, medicine, Chemical Engineering (miscellaneous), activated carbon, QD1-999, Poultry litter, biomass, Chemistry, Chemical technology, Process Chemistry and Technology, Superheated steam, Torrefaction, Pulp and paper industry, Waste treatment, Fluidized bed, visual_art, visual_art.visual_art_medium, steam torrefaction, Sawdust, waste treatment, Activated carbon, medicine.drug

Abstract

Poultry farms with floor-standing poultry generate large amounts of poultry litter waste. The direct application of this waste as an organic fertilizer does not ensure sustainable and cost-efficient utilization of all waste fractions, and can also be linked to environmental hazards. Therefore, the development of new technologies is required for processing poultry litter into a safe product with higher added value. In this work, the characteristics of activated carbon derived from hydrochar, along with the liquid products obtained from hydrothermal carbonization (HTC) and the wet torrefaction (WT) of poultry litter, were investigated. Poultry litter (PL) was applied in a mixture with sawdust (SD) in the following ratios: 1:0 (PL/SD 1:0), 1:1 (PL/SD 1:1), 1:2 (PL/SD 1:2), and 2:1 (PL/SD 2:1). WT processing took place in an innovative fluidized bed system in a superheated steam medium with low overpressure (less than 0.07 MPa) at 300 °C and 350 °C for 30–45 min. Conventional HTC processing was performed in a water medium at 220 °C for 1–4 h. The hydrochar produced in the experiments was activated with steam for 1 h at 450–750 °C. The porosity characteristics of activated hydrochar were measured, including pore size, pore volume, and specific surface area, in view of potential industrial applications as an adsorbent. Additionally, the contents of 5-hydroxymethylfurfural (HMF), as high-value product, were determined in the liquid products obtained from HTC processing, as well as in the condensate obtained after WT processing. Specific surface areas of the activated hydrochars may still be too low for application as adsorbent material. Hence, its use as a biofertilizer and soil improver should be preferred. Interestingly, the liquid fraction obtained from the innovative WT process displayed a significantly higher 5-HMF content compared to the conventional HTC process.

Published

2021

4. Performance of a 5 kW hot water driven diffusion absorption chiller

Author

Ursula Eicker, Mohamed Lamine Yousfi, Mohamed Saighi, Antoine Dalibard, and Dieter Schneider

Subjects

Chiller, Engineering, Waste management, business.industry, 020209 energy, Nuclear engineering, Energy Engineering and Power Technology, 02 engineering and technology, Cooling capacity, Industrial and Manufacturing Engineering, law.invention, Water chiller, Chiller boiler system, 020401 chemical engineering, law, Chilled water, 0202 electrical engineering, electronic engineering, information engineering, Absorption refrigerator, Water cooling, 0204 chemical engineering, business, Solar thermal collector

Abstract

This paper presents experimental results of a 5 kW Diffusion-Absorption Chiller (DAC). The chiller has been tested at varying inlet generator temperatures, inlet cooling water temperatures and inlet chilled water temperatures. The lowest driving temperature to keep the bubble pump running was about 90 °C with 3.6 kW cooling capacity and chilled water inlet temperature being set at 18 °C. The maximum cooling capacity and COP reached for the DAC was about 4.52 kW and 0.45, respectively. The prototype has demonstrated a good potential for air-conditioning applications, while not requiring electricity internally for its operation and allowing coupling with waste heat or solar thermal collector systems.

Published

2017

5. Photovoltaic-thermal hybrid collector performance for direct trigeneration in a European building retrofit case study

Author

Daniel Gürlich, Antoine Dalibard, and Ursula Eicker

Subjects

Engineering, Radiative cooling, Waste management, business.industry, 020209 energy, Mechanical Engineering, Photovoltaic system, 02 engineering and technology, Building and Construction, 021001 nanoscience & nanotechnology, Renewable energy, Photovoltaic thermal hybrid solar collector, Thermal, 0202 electrical engineering, electronic engineering, information engineering, Price level, Electricity, Electrical and Electronic Engineering, 0210 nano-technology, business, Process engineering, Building envelope, Civil and Structural Engineering

Abstract

This article compares the annual energetic, exergetic and economic performance of a combined (hybrid) photovoltaic-thermal collector system (PVT) to that of a system with separate solar thermal and photovoltaic collectors. Furthermore, energy saving potentials through refurbishment of the building envelope are investigated. The analysis is based on simulations with an experimentally validated PVT model. The major novelty of the study is that the water based PVT collectors are also used for long wave radiative cooling. Three different residential case study buildings from Central to Southern European climate zones are investigated. Their heat, cooling and electricity demand, as well as their renewable supply, are determined along with savings through the envelope measures. In general, the performance of the PVT system varies strongly with the boundary conditions of the demand profile, climate situation and energy price levels. The results demonstrate that PVT collectors used for heat (primary DHW) and electricity offer approximately 6–7 percentage points higher exergetic efficiency than thermal and PV collectors equally sharing the available surface area. Raising the temperature level for cooling by 4 K increases the amount of renewable cooling by a factor 2–4. The analysis shows that the economic performance of the trigeneration PVT system is only better than separate generation if the additional electricity and cooling generate enough benefit to compensate the loss of heat gains. Especially in the Portuguese location of Almada, with high electricity price levels and high enough cooling demand, the application of PVT in a trigeneration system is recommendable from an exergetic and economic point of view.

Published

2017

6. Mobile HIL Test Bench for Low Cost Radiative Heating and Cooling Collectors

Author

Tobias Erhart, Eicker Ursula, Reiner Braun, Irina Mitina, and Antoine Dalibard

Subjects

Test bench, Materials science, Nuclear engineering, Radiant heat

Published

2017

7. Photovoltaic–thermal collectors for night radiative cooling of buildings

Author

Ursula Eicker and Antoine Dalibard

Subjects

Chiller, Zero-energy building, Meteorology, Radiative cooling, Renewable Energy, Sustainability and the Environment, business.industry, Electric potential energy, Photovoltaic system, Atmospheric sciences, Electricity generation, Storage tank, Environmental science, General Materials Science, Electricity, business

Abstract

A new photovoltaic–thermal (PVT) system has been developed to produce electricity and cooling energy. Experimental studies of uncovered PVT collectors were carried out in Stuttgart to validate a simulation model, which calculates the night radiative heat exchange with the sky. Larger PVT frameless modules with 2.8 m 2 surface area were then implemented in a residential zero energy building and tested under climatic conditions of Madrid. Measured cooling power levels were between 60 and 65 W m −2 , when the PVT collector was used to cool a warm storage tank and 40–45 W m −2 , when the energy was directly used to cool a ceiling. The ratio of cooling energy to electrical energy required for pumping water through the PVT collector at night was excellent with values between 17 and 30. The simulated summer cooling energy production per square meter of PVT collector in the Madrid/Spain climatic conditions is 51 kWh m −2 a −1 . In addition to the thermal cooling gain, 205 kWh m −2 a −1 of AC electricity is produced under Spanish conditions. A comparative analysis for the hot humid climate of Shanghai gave comparable results with 55 kWh m −2 a −1 total cooling energy production, mainly usable for heat rejection of a compression chiller and a lower electricity production of 142 kWh m −2 a −1 .

Published

2011

8. Energy supply concepts for zero energy residential buildings in humid and dry climate

Author

Ruzhu Wang, Shuai Deng, Ursula Eicker, Antoine Dalibard, M. Martin, and Yanjun Dai

Subjects

Schedule, Meteorology, Primary energy, Occupancy, Renewable Energy, Sustainability and the Environment, business.industry, Energy Engineering and Power Technology, Thermostat, Civil engineering, law.invention, Renewable energy, Fuel Technology, Nuclear Energy and Engineering, law, HVAC, Environmental science, Energy supply, business, Energy (signal processing)

Abstract

Energy supply concepts for zero energy residential building (ZERB) in Shanghai (humid) and Madrid (dry) are discussed in this paper. Simulation is employed as the main research method. Two typical housing models are designed according to the real occupancy condition, the life schedule, the thermostats settings, etc., for the two cities. An energy analysis considering the annual balance of input from the grid and output from renewable power systems is made. Indoor comfortable comparisons between the two models are presented to show optimal design strategies for HVAC under different weather conditions. Also performed is the analysis on the primary energy payback time and the CO 2 equivalent saving in order to evaluate the performance of novel energy systems to verify the feasibility.

Published

2011

9. IEA SHC Task48 - Activity B6 Final Report - Report for self-detection on monitoring procedure

Author

Dirk Pietruschka, Antoine Dalibard, Ilyes Ben Hassine, Hilbert Focke, Florian Judex, Anita Preisler, Martin Helm, Philip Ohnewein, and Antoine Frein

Published

2015

10. Chapter 11. Experiences from installed custom made systems

Author

Olivier Marc, Osama Ayadi, Jakub Wojciech Wewior, Daniel Mugnier, Franck Lucas, Antoine Dalibard, Paul Kohlenbach, Ebbe Münster, Tim Selke, Edo Wiemken, Clemens Pollenberg, Alexander Thür, Marcus Jones, Uwe Franzke, Hilbert Focke, Luis Angel Bujedo, Assunta Napolitano, Klaus Huber, and Wolfram Sparber

Subjects

Engineering drawing, Engineering, business.industry, business, Construction engineering

Published

2013

11. Models of Sub-Components and Validation for the IEA SHC Task 44 / HPP Annex 38

Author

Ralf Dott, Thomas Afjei, Andreas Genkinger, Antoine Dalibard, Dani Carbonell, Ricard Consul, Andreas Heinz, Michel Haller, Andreas Witzig, Jorge Facão, Fabian Ochs, and Peter Pärisch

Published

2013

12. Primary Energy Optimisation of a Solar Adsorption Cooling Plant Through Dynamic Simulations

Author

Ursula Eicker and Antoine Dalibard

Subjects

Chiller, Electronic speed control, Work (thermodynamics), Materials science, Primary energy, Hydraulics, business.industry, Nuclear engineering, Thermodynamics, Cooling capacity, law.invention, law, Storage tank, Electricity, business

Abstract

This paper studies the primary energy optimisation potential of an existing large solar adsorption cooling plant (Festo company). This plant consists of 1218 m2 (net area) vacuum tubes collectors, 2 hot storage tanks of 8.5 m3 each and 3 adsorption chillers of 350 kW cooling capacity each. Measurements and previous simulation studies show a good optimisation potential especially regarding the electricity consumption of the cooling towers [1]. The purpose of this paper is to quantify this potential in terms of primary energy savings by using dynamic simulations. The work focuses on the heat rejection loop which consists of the chillers and the cooling towers. Different control strategies of cooling towers fan speed are simulated. Additionally, different hydraulics configurations of the heat rejection loop with or without buffer storage tanks are studied in order to see the effect on the fan speed control of the cooling towers. The electrical COP of the global system can be increased up to 30-40% with such controls with a minor decrease in cooling capacity. The use of a buffer store between the chillers and the cooling towers is meaningful since it smoothes the temperature wave and makes the control easier and more stable. Specific primary energy savings up to 0.25 kWhPE/kWhcooling can be achieved with simple changes in the heat rejection loop.

Published

2010

13. Simulation Tools for Solar Cooling Systems – Comparison for a Virtual Chilled Water System

Author

Ignasi Gurruchaga, Panagiotis Tsekouras, Olivier Marc, Antoine Dalibard, Constanze Bongs, Paul Kohlenbach, Physique et Ingénierie Mathématique pour l'Énergie, l'environnemeNt et le bâtimenT (PIMENT), Université de La Réunion (UR), and Alarcon, Nicolas

Subjects

Engineering, 020209 energy, ComputingMilieux_LEGALASPECTSOFCOMPUTING, 02 engineering and technology, TRNSYS, 7. Clean energy, law.invention, Solar air conditioning, law, Margin (machine learning), Chilled water, Spark (mathematics), 0202 electrical engineering, electronic engineering, information engineering, ComputingMilieux_MISCELLANEOUS, Simulation, [SPI.MECA.THER] Engineering Sciences [physics]/Mechanics [physics.med-ph]/Thermics [physics.class-ph], [PHYS.MECA.THER] Physics [physics]/Mechanics [physics]/Thermics [physics.class-ph], business.industry, Load file, Refrigeration, 021001 nanoscience & nanotechnology, 13. Climate action, [SPI.MECA.THER]Engineering Sciences [physics]/Mechanics [physics.med-ph]/Thermics [physics.class-ph], [PHYS.MECA.THER]Physics [physics]/Mechanics [physics]/Thermics [physics.class-ph], Absorption refrigerator, 0210 nano-technology, business

Abstract

In the scope of the IEA Task 38 (Solar Air-Conditioning and Refrigeration) a comparative study of different simulation tools for solar cooling system pre-design was conducted. It aimed at identifying a range of uncertainties in simulation results which may be obtained by validated models from market available tools – and simulations performed by different experienced users. Tools applied in the simulation comparison comprise the fast pre-design tool EasyCool and the end-design tools TRNSYS, INSEL, SPARK and the TRNSYS-based TRANSOL. A model of a virtual office building in Palermo climate was used for the generation of a load file that was applied in all simulations. Further, a common system layout, component sizing and specifications, and a control strategy for the more advanced simulation tools were defined. The simulated solar cooling system is a chilled water system applying a 35kW absorption chiller by Yazaki (WFC 10). Results show that a margin of around 6 % deviation of the thermal performance parameters from their mean seems the best possible in the crosscomparison of the three closest baseline simulations – however the upper margin of around 20 % observed for all simulations may be more close to the real margin of variation. This reflects the high uncertainty in results of pre-design simulations and underlines the need of a good technical understanding by the user of simulation tools.

Published

2010