EOLOS Floating Lidar Solutions
Mariana Aguirre is a professional with diverse experience in entrepreneurship, compliance, and academia. Currently, Mariana serves as the Propietario of AMAR - Productos Orgánicos, overseeing an online store dedicated to organic body care and environmental sustainability since August 2020. Additionally, Mariana has worked as an Asistente de Oficial de Cumplimiento at La Alhondiga Centro Cambiario S.A de C.V. since January 2016, and previously operated Barbería El Galgo Negro from November 2017 to November 2019. Mariana has also provided nutritional guidance as a Nutrióloga in a private consulting practice from February 2016 to 2019 and taught applied mathematics in nutrition and history of food as a Catedrático universitario between August 2016 and August 2017. Mariana's educational background includes a Diplomatura in Administración y gestión de empresas from Universidad Anahuac Online (2019-2020) and a Licenciatura in Alimentación, nutrición y bienestar from Universidad del Centro de México (2011-2015).
This person is not in any offices
EOLOS Floating Lidar Solutions
EOLOS Floating Lidar Solutions offers a cost-effective, accurate and highly reliable integrated wind measuring system for offshore applications. Offshore wind farm investments need reliable wind assessments in order to estimate the wind energy potential of the site where the wind turbines will be installed. Performing wind assessments with no high quality on-site data increases the uncertainty, hindering the project’s bankability and increasing the financial risks of the project. EOLOS can help offshore wind developers to significantly reduce capital costs during the development phase, when the final investment decision (FID) has not yet been reached, thus reducing a significant risk since at this stage only a portfolio approach hedges against failure. The EOLOS LiDAR Buoy is a fully-equipped and autonomous wind, wave and current measuring system based on LIDAR technology and provided with oceanographic instrumentation, which allows to perform measurements at heights of more than 200m over the sea level at much lower costs than conventional bottom-fixed offshore met masts.