Authors: Dongbo Wang, , Harindra Kumar Kannojia, Pierre Jouy, Etienne Giraud, Kaspar Suter, Richard Maulini, David Gachet, Léo Hetier, Geert Van Steenberge and Bart Kuyken For the first time, we demonstrate the hybrid integration of dual distributed feedback (DFB) quantum cascade lasers (QCLs) on a silicon photonics platform using an innovative 3D self-aligned flip-chip assembly process....Read More
This report describes the work, objectives, and results that were part of the HYDROPTICS project, followed by the list of project’s objectives, work packages and a detailed description of the individual results stemming from said work packages. Link to PDFRead More
This document explains how the data was generated, used, saved, and shared between the Partners or published as open access. Data management plan is an important aspect of the project, hence a careful analysis of the data content and flow has been done. In particular, it has been identified which type of data were generated,...Read More
This document constitutes Deliverable D2.4 of the HYDROPTICS project, funded by the European Union’s Horizon Europe research and innovation programme under grant agreement No.871529. An initial version of this deliverable is available as Deliverable D2.1 (M24). The purpose of this document is to demonstrate the completion of a structured and methodological Ethical Impact Assessment (EIA),...Read More
The document is the final version of the common legal framework for HYDROPTICS’s consortium to take into consideration during research and realization phases of the project. Following the framework that was set with the first version of this deliverable on Month 24, it provides additional guidance on compliance with the privacy and data protection legislation,...Read More
This deliverable is an update of D2.3 and D2.6, which discussed the possible standards and regulations relevant for the Hydroptics platform. Many of the identified regulations were intended to guarantee a safe operation of the device, meaning that neither other devices are affected, nor persons get injured. The measures taken to ensure safe operation of...Read More
A new prototype needed to be designed, built, and assembled. Here, a modular approach was chosen to design 3 prototypes tailored to the requirements. The 3 assembled prototypes are listed below: TUW prototype SAL prototype TUPRAS prototype The TUW prototype includes the system for extracting oil from the process water stream and the separation of...Read More
This deliverable describes the work done within Task 8.3 “Pilot II – TUPRAS Pilot (Turkey)”. The capability of an IR- based at-line analyzer to give information on the source of oil leaks in a refinery was demonstrated at TUPRAS R&D Center facilities. The samples gathered from different refinery plants and streams are analyzed in the...Read More
This deliverable describes the work done within Task 8.2 “Pilot I – OMV Pilot (Austria)”. Based on the D 8.1, the Hydroptics Sensing Platform (“Prototype”) was transported to the assigned test side at OMV premises. After passing all test concerning HSSE topics, the Prototype was connected to the process stream at the OMV Water Treatment...Read More
This deliverable describes the communication activities carried out in the frame of the HYDROPTICS project as per November 30, 2023 (M48). We focus more specifically on the communication kit that was developed, the press releases that were published, as well as the final online Workshop that took place at the end of the project. Link...Read More