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Am 1. September 2024 erfolgte eine Namensänderung der DW-ShipConsult GmbH zur JASCO Applied Sciences (Europe) GmbH. Zeitgleich wurde eine schiffsakustische Abteilung innerhalb JASCOs gebildet, welche auf die Kontrolle von Schiffslärm und -vibrationen spezialisiert ist: JASCO ShipConsult.
JASCO ShipConsult continues the work of DW-ShipConsult with the same team of naval engineers. The renaming highlights the company's affiliation with the internationally operating and Canada-based JASCO Applied Sciences group. The group's existing expertise in capturing, analyzing, and interpreting underwater sound data is now perfectly complemented by ShipConsult's capabilities in noise reduction.
We offer specialized services in ship acoustics, focusing on reducing noise and vibrations on board, as well as measuring underwater noise. We support shipyards in all phases of shipbuilding and assist in meeting acoustic specifications through consulting, measurements, and the development of countermeasures. Our services also include certified measurements according to international standards, root cause analyses, and the optimization of existing ships.
Our underwater acoustics services cover the planning, execution, and evaluation of underwater noise measurements in European waters. We analyze how human-generated noise, such as from ships or offshore wind farms, affects marine life. In close cooperation with biological institutes, we create noise propagation forecasts, assess noise mitigation measures, and thus minimize the impact on marine mammals like whales and dolphins.
To meet acoustic requirements, we support manufacturers of equipment such as engines, gearboxes, and pumps through noise and vibration measurements, as well as the development of emission reduction measures. During the development phase, we offer acoustic analyses and forecasts, and for existing equipment, we conduct certified measurements, root cause analyses, and provide recommendations for noise reduction. Additionally, we collaborate with manufacturers to design elastic mountings to minimize structure-borne noise emissions.
