GasEye HydroC — prototype for a laser multi-gas analyser for the global oil and gas market and petrochemical (Q78294): Difference between revisions
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(Removed claim: summary (P836): Reference_reference_programme_aids:SA.41471 (2015/X) _public:Article 25 of Commission Regulation (EC) No 651/2014 of 17 June 2014 declaring certain categories of aid compatible with the internal market in the application of Article 107 and 108 of the Treaty (OJ(OJ LEU L 187/1, 26.06.2014).The main objective of the project is to produce a laser multi-gas analyser (working name GasEye HydroC) with a growing demand for a global gas and gas market...) |
(Created claim: summary (P836): Reference number of the aid programme: SA.41471(2015/X) Purpose of public aid: Article 25 of EC Regulation No 651/2014 of 17 June 2014 declaring certain types of aid compatible with the internal market in the application of Articles 107 and 108 of the Treaty (OJ L. I'm sorry. EU L 187/1 of 26.06.2014). The main objective of the project is to create a prototype of a laser gas multianalyser (the working name GasEye HydroC) aimed at the growing dem...) |
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Reference number of the aid programme: SA.41471(2015/X) Purpose of public aid: Article 25 of EC Regulation No 651/2014 of 17 June 2014 declaring certain types of aid compatible with the internal market in the application of Articles 107 and 108 of the Treaty (OJ L. I'm sorry. EU L 187/1 of 26.06.2014). The main objective of the project is to create a prototype of a laser gas multianalyser (the working name GasEye HydroC) aimed at the growing demand of the global oil, gas and petrochemical market for high-speed, maintenance-free and precise TDLS (from Tunable diode laser spectroscopy). The key feature of Gas Eye HydroC compared to competition will be the ability to analyse gases in a single stream, so far only instruments measuring one gas exist on the market To achieve the intended objective, industrial research has been divided into three stages. In the first stage spectroscopic works will be performed to develop requirements for laser sources. In the second stage, a prototype of the multianalyst spectrometer will be created, which requires mainly workload with optoeletronics and signal processing methods. A multisensor autocalibration method will also be developed. In parallel, in this stage, a prototype calibration station for the multianalyst will be created, among others, paired in a system of calibration of laser parameters and generation of calibrated gas mixtures. The milestone is a prototype analyser that achieves the assumed measurement values for CO2/H2S/H2O in nitrogen. In the third stage, methods of multiplexing of absorption signals and methods of elimination of spectral hydrocarbon background and sesnsor protection will be developed for work in potentially explosive environments. The milestone is a prototype analyser that achieves the target detection limit values for CO2/H2S/H2O in close to real conditions, i.e. in natural gas and in an explosive environment. (English) | |||||||||||||||
| Property / summary: Reference number of the aid programme: SA.41471(2015/X) Purpose of public aid: Article 25 of EC Regulation No 651/2014 of 17 June 2014 declaring certain types of aid compatible with the internal market in the application of Articles 107 and 108 of the Treaty (OJ L. I'm sorry. EU L 187/1 of 26.06.2014). The main objective of the project is to create a prototype of a laser gas multianalyser (the working name GasEye HydroC) aimed at the growing demand of the global oil, gas and petrochemical market for high-speed, maintenance-free and precise TDLS (from Tunable diode laser spectroscopy). The key feature of Gas Eye HydroC compared to competition will be the ability to analyse gases in a single stream, so far only instruments measuring one gas exist on the market To achieve the intended objective, industrial research has been divided into three stages. In the first stage spectroscopic works will be performed to develop requirements for laser sources. In the second stage, a prototype of the multianalyst spectrometer will be created, which requires mainly workload with optoeletronics and signal processing methods. A multisensor autocalibration method will also be developed. In parallel, in this stage, a prototype calibration station for the multianalyst will be created, among others, paired in a system of calibration of laser parameters and generation of calibrated gas mixtures. The milestone is a prototype analyser that achieves the assumed measurement values for CO2/H2S/H2O in nitrogen. In the third stage, methods of multiplexing of absorption signals and methods of elimination of spectral hydrocarbon background and sesnsor protection will be developed for work in potentially explosive environments. The milestone is a prototype analyser that achieves the target detection limit values for CO2/H2S/H2O in close to real conditions, i.e. in natural gas and in an explosive environment. (English) / rank | |||||||||||||||
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| Property / summary: Reference number of the aid programme: SA.41471(2015/X) Purpose of public aid: Article 25 of EC Regulation No 651/2014 of 17 June 2014 declaring certain types of aid compatible with the internal market in the application of Articles 107 and 108 of the Treaty (OJ L. I'm sorry. EU L 187/1 of 26.06.2014). The main objective of the project is to create a prototype of a laser gas multianalyser (the working name GasEye HydroC) aimed at the growing demand of the global oil, gas and petrochemical market for high-speed, maintenance-free and precise TDLS (from Tunable diode laser spectroscopy). The key feature of Gas Eye HydroC compared to competition will be the ability to analyse gases in a single stream, so far only instruments measuring one gas exist on the market To achieve the intended objective, industrial research has been divided into three stages. In the first stage spectroscopic works will be performed to develop requirements for laser sources. In the second stage, a prototype of the multianalyst spectrometer will be created, which requires mainly workload with optoeletronics and signal processing methods. A multisensor autocalibration method will also be developed. In parallel, in this stage, a prototype calibration station for the multianalyst will be created, among others, paired in a system of calibration of laser parameters and generation of calibrated gas mixtures. The milestone is a prototype analyser that achieves the assumed measurement values for CO2/H2S/H2O in nitrogen. In the third stage, methods of multiplexing of absorption signals and methods of elimination of spectral hydrocarbon background and sesnsor protection will be developed for work in potentially explosive environments. The milestone is a prototype analyser that achieves the target detection limit values for CO2/H2S/H2O in close to real conditions, i.e. in natural gas and in an explosive environment. (English) / qualifier | |||||||||||||||
point in time: 14 October 2020
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Revision as of 12:03, 14 October 2020
Project in Poland financed by DG Regio
| Language | Label | Description | Also known as |
|---|---|---|---|
| English | GasEye HydroC — prototype for a laser multi-gas analyser for the global oil and gas market and petrochemical |
Project in Poland financed by DG Regio |
Statements
2,441,062.15 zloty
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3,074,380.73 zloty
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79.4 percent
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1 September 2015
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31 August 2019
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AIROPTIC SP. Z O.O.
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52°24'2.2"N, 16°55'11.3"E
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Numer_referencyjny_programu_pomocowego: SA.41471(2015/X) Przeznaczenie_pomocy_publicznej: art. 25 rozporządzenia KE nr 651/2014 z dnia 17 czerwca 2014 r. uznające niektóre rodzaje pomocy za zgodne z rynkiem wewnętrznym w stosowaniu art. 107 i 108 Traktatu (Dz. Urz. UE L 187/1 z 26.06.2014). Głównym celem Projektu jest stworzenie prototypu laserowego multianalizatora gazowego (robocza nazwa GasEye HydroC) celującego w rosnące zapotrzebowanie globalnego rynku naftowo-gazowniczego i petrochemicznego na szybkie, bezobsługowe i precyzyjne urządzenia typu TDLS (z. ang tunable diode laser spectroscopy). Kluczową cechą Gas Eye HydroC w porównaniu do konkurencji będzie zdolność analizy gazów w jednym strumieniu, do tej pory na rynku istnieją tylko instrumenty mierzące jeden gaz jednocześnie Aby osiągnąć zamierzony cel, badania przemysłowe zostały podzielone na trzy etapy. W etapie pierwszym wykonane zostaną prace spektroskopowe w celu opracowania wymagań dla źródeł laserowych. W etapie drugim stworzony zostanie prototyp spektrometru multianalizatora, co wymaga głównie nakładu prac z optoeletroniką i metodami obróbki sygnałów. Opracowana zostanie także metoda autokalibracji multisensora. Równolegle w tym etapie zostanie stworzone prototypowe stanowisko kalibracyjne dla multianalizatora, m.in. zaoparzone w system kalibracji parametrow laserowych i generację skalibrowanych miesznin gazowych. Kamieniem milowym jest prototyp analizatora, który osiągnie założone wartości pomiarowe dla CO2/H2S/H2O w azocie. W etapie trzecim zostaną opracowane metody multipleksowania sygnałów absorpcyjnych oraz metody eliminacji tła spektralnego węglowodorów oraz metoda zapezpieczenia sesnsora do prac w środowisku zagrożonym wybuchem. Kamieniem milowym jest prototyp analizatora, który osiągnnie docelowe wartości limitu detekcji dla CO2/H2S/H2O w warunkach zbliżonych do rzeczywistych, tzn. w gazie ziemnym i w środowisku zagrożonym wybuchem. (Polish)
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Reference number of the aid programme: SA.41471(2015/X) Purpose of public aid: Article 25 of EC Regulation No 651/2014 of 17 June 2014 declaring certain types of aid compatible with the internal market in the application of Articles 107 and 108 of the Treaty (OJ L. I'm sorry. EU L 187/1 of 26.06.2014). The main objective of the project is to create a prototype of a laser gas multianalyser (the working name GasEye HydroC) aimed at the growing demand of the global oil, gas and petrochemical market for high-speed, maintenance-free and precise TDLS (from Tunable diode laser spectroscopy). The key feature of Gas Eye HydroC compared to competition will be the ability to analyse gases in a single stream, so far only instruments measuring one gas exist on the market To achieve the intended objective, industrial research has been divided into three stages. In the first stage spectroscopic works will be performed to develop requirements for laser sources. In the second stage, a prototype of the multianalyst spectrometer will be created, which requires mainly workload with optoeletronics and signal processing methods. A multisensor autocalibration method will also be developed. In parallel, in this stage, a prototype calibration station for the multianalyst will be created, among others, paired in a system of calibration of laser parameters and generation of calibrated gas mixtures. The milestone is a prototype analyser that achieves the assumed measurement values for CO2/H2S/H2O in nitrogen. In the third stage, methods of multiplexing of absorption signals and methods of elimination of spectral hydrocarbon background and sesnsor protection will be developed for work in potentially explosive environments. The milestone is a prototype analyser that achieves the target detection limit values for CO2/H2S/H2O in close to real conditions, i.e. in natural gas and in an explosive environment. (English)
14 October 2020
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Identifiers
POIR.01.01.01-00-0761/15
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