SCIENTISTS USE PHOTONICS TO MAKE WASTEWATER ECO-FRIENDLY Wastewater will soon become cleaner and less harmful to plants and animals thanks to a new, ultra-sensitive water sensor being developed by European scientists to detect tiny amounts of toxic substances with light. A new laser system to detect minute traces of toxic substances in wastewater is currently...Read More
Within HYDROPTICS a range of photonic technologies will be developed and combined for realizing advanced sensing strategies for on-line detection of relevant impurities in process water streams such as residual oil content and particles. HYDROPTICS also puts emphasize to relate the results provided by the on-line analyzer to available process data of the industrial cooperation...Read More
The present deliverable entitled “Communication activities: First” defines the main guidelines and means of the HYDROPTICS Dissemination and Communication strategy to be implemented in the course of the project. The purpose of this deliverable is thereby to: Present the HYDROPTICS identity Logos/Templates Present the HYDROPTICS first Communication kit Brochure Present the HYDROPTICS strategy: how the...Read More
This document explains how the data will be generated, utilized, saved, and shared between the Partners or published as an 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...Read More
The kick-off meeting took place on December 5th & 6th 2019 at Alpes Lasers premises Neuchâtel, Switzerland. All partners contributed to the meeting with interesting and informative presentations.Read More
Neuchâtel (Switzerland). EU funded project “Photonics sensing platform for process optimisation in the oil industry”, in short HYDROPTICS, had its official kick-off meeting on the 5th December 2019. The projects goal is to increase the competitiveness of the EU oil industry sector, by providing high-accuracy oil-in-water analyzer based on state of the art mid-IR light sources and spectroscopy...Read More