Your search keyword '"Xavier Watremez"' showing total 10 results

1. Validation of Innovative Systems of Remote Gas Leaks Detection and Quantification Reducing Emissions and Increasing Safety.

Author

Xavier Watremez, Thierry Baron, André Marblé, Véronique Miegebielle, Xavier Marcarian, Pierre-Yves Foucher, Nicolas Cézard, and Myriam Raybaut

Published

2020

2. Test of SIMAGAZ: a LWIR cryogenic multispectral infrared camera for methane gas leak detection and quantification

Author

Pierre-Yves Foucher, Sophie Jourdan, Emmanuel Vanneau, Hadrien Pinot, Stéphanie Doz, Guillaume Druart, Xavier Watremez, DOTA, ONERA, Université Paris Saclay [Palaiseau], ONERA-Université Paris-Saclay, ONERA / DOTA, Université de Toulouse [Toulouse], ONERA-PRES Université de Toulouse, TOTAL S.A., TOTAL FINA ELF, LYNRED, NOXANT, and Bertin Technologies

Subjects

[PHYS]Physics [physics], Leak, Multispectral, Multispectral image, Detector, 7. Clean energy, Methane, Cryogenic camera, Gas leak, Footprint, chemistry.chemical_compound, Detection, Infared, [SPI]Engineering Sciences [physics], chemistry, 13. Climate action, Quantification, Environmental science, Anomaly detection, Remote sensing, Safety monitoring

Abstract

International audience; Cryogenic cameras are an innovative alternative in the design of miniaturized infrared cameras using cryogenic detectors. In this presentation, we will apply this technology to design a snapshot multispectral camera for gas leak detection. A UAV compatible demonstrator in a commercial Detector Dewar Cooler Assembly (DDCA), called SIMAGAZ, has been made and tested in the TOTAL Anomaly Detection Initiatives (TADI) platform and the Esperse site of ONERA. The TADI infrastructure manages monitored gas leaks at flowrates from 0.1 g/s to 300 g/s and hosts remote sensors to test them in three scenarios: crisis-management, safety monitoring, and environmental monitoring. In Esperse site, first UAV flights with SIMAGAZ were performed. We demonstrate the ability to detect and quantify in real time the origin of methane gas leak, the flowrate and the volume of the plume with SIMAGAZ on ground or from a UAV. The core camera weights around 1kg, for around 1L footprint and a power consumption of 10W at the cooling steady state. Results from TADI and Esperse campaigns will be presented.

Published

2021

3. NAOMI GAZL: A Multispecies DIAL Tested on the TADI Gas Leak Simulation Facility

Author

Stéphanie Doz, Jean-Michel Melkonian, Jean-Baptiste Dherbecourt, Dominique Dubucq, Nicolas Tanguy, Xavier Watremez, Vincent Lebat, Pierre-Yves Foucher, Cédric Blanchard, Antoine Godard, Thierry Huet, Myriam Raybaut, DPHY, ONERA, Université Paris Saclay [Palaiseau], ONERA-Université Paris-Saclay, ONERA / DOTA, Université de Toulouse [Toulouse], ONERA-PRES Université de Toulouse, TOTAL S.A., and TOTAL FINA ELF

Subjects

Remote detection, [PHYS]Physics [physics], Lidar, 010308 nuclear & particles physics, Amplifier, Physics, QC1-999, Gas release, 01 natural sciences, Gas leak, Dial, [SPI]Engineering Sciences [physics], 0103 physical sciences, Optical parametric oscillator, Differential absorption lidar, 010306 general physics, Remote sensing

Abstract

We report on a direct detection differential absorption lidar (DIAL), designed for remote detection of CH4 and CO2. The system is based on a single-frequency optical parametric oscillator/amplifier system, tunable in the 1.57-1.65 µm range. The DIAL system, called NAOMI GAZL, was tested on a controlled gas release facility in October 2018.

Published

2020

4. The NAOMI GAZL multispecies differential absorption lidar: realization and testing on the TADI gas leak simulation facility

Author

Jean-Baptiste Dherbecourt, Jean-Michel Melkonian, Antoine Godard, Vincent Lebat, Nicolas Tanguy, Cédric Blanchard, Xavier Watremez, Dominique Dubucq, Stéphanie Doz, Pierre-Yves Foucher, Myriam Raybaut, DPHY, ONERA, Université Paris Saclay (COmUE) [Palaiseau], ONERA-Université Paris Saclay (COmUE), DPHY, ONERA, Université Paris Saclay (COmUE) [Châtillon], Total E&P, ONERA / DOTA, Université de Toulouse [Toulouse], and ONERA-PRES Université de Toulouse

Subjects

010309 optics, [PHYS]Physics [physics], DIFFERENTIAL ABSORPTION LIDAR, [SPI]Engineering Sciences [physics], 0103 physical sciences, PARAMETRIC OSCILLATORS AND AMPLIFIERS, 02 engineering and technology, DIAL, 021001 nanoscience & nanotechnology, 0210 nano-technology, 01 natural sciences, OSCILLATEUR PARAMETRIQUE OPTIQUE, LIDAR GAZ

Abstract

International audience; We report on a differential absorption lidar, designed for remote detection of CH 4 and CO 2 , based on a single-frequency 1.57-1.65 µm parametric oscillator/amplifier system. The lidar is tested on a controlled gas release facility.

Published

2019

5. All-fibered coherent-differential absorption lidar at 1.645 μm for simultaneous methane and wind-speed measurements

Author

Agnès Dolfi-Bouteyre, Simon Le Méhauté, Nicolas Cézard, Didier Goular, Philippe Benoit, Matthieu Valla, Christophe Planchat, Xavier Watremez, Hervé Delbarre, DOTA, ONERA, Université Paris Saclay (COmUE) [Palaiseau], ONERA-Université Paris Saclay (COmUE), Total E&P, Laboratoire de Physico-Chimie de l'Atmosphère (LPCA), and Université du Littoral Côte d'Opale (ULCO)

Subjects

Materials science, FIBER LASER, 02 engineering and technology, 7. Clean energy, 01 natural sciences, Wind speed, Methane, 010309 optics, LIDAR, chemistry.chemical_compound, symbols.namesake, [SPI]Engineering Sciences [physics], Optics, METHANE, Fiber laser, 0103 physical sciences, Mixing ratio, [PHYS]Physics [physics], business.industry, Atmospheric methane, WIND, 021001 nanoscience & nanotechnology, Lidar, chemistry, 13. Climate action, symbols, 0210 nano-technology, business, Doppler effect, Water vapor, RAMAN AMPLIFIER

Abstract

International audience; Here we report on the development of a new coherent-DIAL system as well as first quantitative measurements of simultaneous gas mixing ratio and radial wind-speed with the instrument. Integrated measurement of atmospheric methane (CH4) mixing ratio between the instrument and a hard-target located at 2:25 km has been conducted with a relative precision of nearly 20% in 17 s. The measurement procedure also gives information on integrated water vapor (H2O) mixing ratio.

Published

2018

6. Remote Sensing Technologies for Detecting, Visualizing and Quantifying Gas Leaks

Author

Xavier Watremez, André Marblé, Thierry Baron, Xavier Marcarian, Dominique Dubucq, Ludovic Donnat, Laurent Cazes, Pierre-Yves Foucher, Ronan Danno, Damien Elie, Martin Chamberland, Jean-Philippe Gagnon, Le Brun Gay, Jeremy Dobler, Ruben Østrem, Andres Russu, Matthew Schmidt, Olivier Zaouak, Total E&P, ONERA / DOTA, Université de Toulouse [Toulouse], ONERA-PRES Université de Toulouse, Société ADCIS (ADCIS), Société ADCIS, Telops, Bertin Technologies (Bertin Technologies), Bertin Technologies, Harris Geospatial Solutions, Gas Optics, Sensia, Fluke, and MODIS

Subjects

INFRARED IMAGING, HYPERSPECTRAL IMAGING, [PHYS]Physics [physics], Leak, 010504 meteorology & atmospheric sciences, Multispectral image, 0211 other engineering and technologies, Hyperspectral imaging, CAMOUFLAGE, 02 engineering and technology, 7. Clean energy, 01 natural sciences, Data processing system, REMOTE SENSING, Gas leak, [SPI]Engineering Sciences [physics], Lidar, 13. Climate action, Environmental monitoring, Environmental science, 021101 geological & geomatics engineering, 0105 earth and related environmental sciences, Safety monitoring, Remote sensing

Abstract

Remote sensing technologies can be applied for a wide range of gas leak flowrates and in three main cases: (1) major leaks in crisis management; (2) medium size leaks in safety monitoring; (3) small leaks in environmental monitoring.A gas test campaign, conducted by Total, the ONERA – the French Aerospace Lab – and ADCIS in September 2015 using three hyperspectral infrared cameras from Telops, confirmed our capacity to visualize in 3D and quantify in real time plumes of methane in the range of 1 g/s to 50g/s. The R&D project on gas remote quantification continued with a second gas test campaign in 2017.The second gas test campaign was organized on Total's Lacq Pilot Platform in France and involved several gas spectral imaging systems: (1) mobile hyperspectral cameras in the Long-Wavelength InfraRed (LWIR) band (7.7-12μm); (2) a multispectral camera in the LWIR band (7-9μm); (3) a multigas lidar (LIght Detection And Ranging) system coupled with a wind lidar system; (4) five other international teams (US, Spain, Norway and France) were also invited to assess the capacity of their remote-sensing systems to quantify methane and carbon dioxide releases.The two-week test demonstrated that methane leak emissions ranging from 0.7 g/s to 140 g/s could be visualized and quantified in real time using a mobile Telops Hyper-Cam. This campaign also served to validate the performance of several remote sensing technologies.Total's Lacq Pilot Platform is a test area for qualifying cost-effective systems designed to complement the gas detection system of a plant and provide valuable information should a gas leak incident occur. New methodologies for the early detection of anomalies using remote observation systems including drones, robots and artificial intelligence data processing systems are currently being investigated there.

Published

2018

7. Remote Detection and Flow rates Quantification of Methane Releases Using Infrared Camera Technology and 3D Reconstruction Algorithm

Author

Dominique Dubucq, Martin Chamberland, André Marblé, Bertrand Lejay, Grégoire Audouin, Pierre-Yves Foucher, Ronan Danno, Xavier Watremez, Damien Elie, Xavier Marcarian, Nadège Labat, and Laurent Poutier

Subjects

Remote detection, Gas leak, chemistry.chemical_compound, chemistry, Infrared, 3D reconstruction, Environmental science, Tomography, Methane, Remote sensing, Volumetric flow rate

Abstract

Hydrocarbon leaks in oil and gas installations present Health, Safety and Environmental risks. History of crisis management in oil and gas upstream has shown the value of efficient and accurate tools for quantifying the gas-leak rate and determining the perimeter of the hazardous areas. In this context, Total initiated a multi-year R&D collaborative project designed to develop remote sensing technologies and architectures for remote detection, identification, quantification and visualization of gas leaks in the event of a crisis. Total, the ONERA – The French Aerospace Lab – and ADCIS have developed a set of algorithms and software to measure, compute and visualize a methane plume using infrared optical imagers. Results are obtained in 3D and in real time. The following steps are involved: (1) Spectral images in the Long-Wavelength InfraRed (LWIR) region are captured by three hyper-spectral cameras located around a methane release point; (2) Concentrations of methane are measured linearly in ppm.m by comparing spectral images of the scene in the presence of gas and reference images acquired before the release; (3) An algorithm, drawing on tomography techniques, computes concentrations of methane in ppm from the linear concentrations; (4) Mass balance type equations finally help estimate the methane flowrates based on the set of concentrations and local wind data information. A one-week test campaign was organized in September 2015 and consisted of performing twenty-six methane gas releases of 1 g/s to 50 g/s. Three Telops Hyper-Cam cameras were connected as part of a network to a main server which ran the tomography and flowrate estimation code. The real-time remote detection and quantification worked fully. During the campaign, good accuracy was obtained at the low flowrates of 1 g/s and 10 g/s of methane. At the higher flowrate of 50 g/s, quantifications were underestimated due to an oversaturation phenomenon. Further works, the aim of which is to adapt the instrument sensing ranges to the maximum concentrations encountered, should help improve the accuracy of these quantifications. The innovation lies in the fact that a 3D visualization of the methane plume can be computed and created in real time and that flowrates and concentrations can be quantified, also in real time. This technology could be applied in environmental monitoring and crisis management.

Published

2016

8. How Culture And Practice Workshops Can Help Developing The Safety Accountability Of Operational Staff

Author

Emmanuel Pradié, Xavier Watremez, Vincent Kiehl, Christophe Amadeï, Marie Sibout, and Claude Boj

Subjects

business.industry, Political science, Accountability, Safety culture, Public relations, business

Abstract

TOTAL has conducted a global safety culture assessment in its Exploration & Production Affiliates. Further to this assessment, Culture and Practice workshops were organised in selected business units (currently in Total EP Angola) to develop the safety accountability of employees and to promote cooperation of teams. On each selected site, one-hour sessions were organized each day over a two week period and were repeated three times. They were proposed to all employees, from the Production Operator up to the Site Manager. Each group had a maximum of eight people and ensured that all levels of site personnel were represented. Two facilitators with multidisciplinary competencies led the workshops: an Occupational and Industrial Psychologist and a former Operational Manager. They gave a common basis to work on the safety culture. They encouraged interactive discussions to bring sense, when required, to the existing safety corporate messages, rules and procedures. The workshops progressed in five successive stages: (1) Introduction; (2) Teams' request; (3) Highlights; (4) Taking ownership and accountability; (5) Debriefing. The workshops focused on the meaning and the consistency of existing practices on safety rules and initiatives. Based on open discussions, the participants mentioned the topics on the safety culture important to them. The three main topics were: (1) Risk assessment and management; (2) Exemplarity of management; (3) Accountability of individuals. The groups debated and proposed to change some working practices to improve the safety culture. At the end of the workshops, they debriefed their work to the Site Management and to Operational Directors, as to commit all the personnel on the proposed changes in practice. These workshops held both onshore and offshore demonstrated a strong mobilisation towards safety. The dynamics created had a very positive impact on the all personnel behaviour. As a consequence, the Company is using this new and effective approach towards safer operations in Other Business Units.

Published

2015

9. Remote Sensing Technologies for Gas Leak Detection, Visualisation and Quantification Using Infrared Imagers

Author

Xavier, Watremez, additional, Labat, Nadège, additional, Audouin, Grégoire, additional, Lejay, Bertrand, additional, Xavier, Marcarian, additional, Dubucq, Dominique, additional, Marblé, André, additional, Foucher, Pierre-Yves, additional, Poutier, Laurent, additional, Danno, Ronan, additional, and Elie, Damien, additional

Published

2016

10. Remote Sensing Technologies For Detecting, Visualizing and Quantifying Gas Leaks

Author

'Xavier Watremez, André Marblé, Thierry Baron, Xavier Marcarian, Dominique Dubucq, Ludovic Donnat, Laurent Cazes, TOTAL