BEGIN:VCALENDAR VERSION:2.0 PRODID:-//DTU.dk//NONSGML DTU.dk//EN CALSCALE:GREGORIAN BEGIN:VEVENT DTSTART:20191011T130000Z DTEND:20191011T150000Z SUMMARY:Professortiltrædelsesforelæsning Nicolaos Cutululis DESCRIPTION:
As of February 1 2019, Nicolaos A. Cutululis was named MSO in Offshore Wind Power Integration at DTU Wind Energy.
\nDTU Wind Energy would like to invite you to attend Nicolaos A. Cutululis’ inaugural lecture Friday the 11th of October 2019 at 15.00. The lecture has the title: Integrating offshore wind.
\nThe venue is DTU Lyngby Campus, bld. 101A, meeting room
\nAfter the lecture, you are invited to participate in the reception
\nKind regards
\nPeter Hauge Madsen
\nHead of Department
\nDTU Wind Energy
Sign up in order to participate by sending an email to Camilla Schwartzbach
\n\nAbout the Inaugural Lecture
\nOffshore wind power has seen an almost 20-fold increase in the last decade; closing up to 20 GW at the end of 2018, and the general expectation is that this pace will only accelerate, with estimates ranging from doubling to tripling today’s installed capacity in North Sea alone by 2030. At the same time, offshore wind development is becoming global, with projects in North America and Asia.
Offshore wind power integration is a multi-disciplinary research area with the overall aim of improving the performance of offshore wind, both technically and economically. Reducing the cost of the electrical infrastructure requires new mathematical models and advanced optimization techniques, combining them with lifetime estimation and probabilistic approaches.
\nLarge offshore wind power plants connected via HVDC are complex dynamic systems that – with their 100% converter based generation – provide a glimpse on future full-renewable power systems dynamic performance and stability.
\nConnected to shore either via HVDC grids or hubs such as the North Sea Wind Power Hub, offshore wind power plants can become the cornerstone of the 100% renewable power systems, being able of not only providing abundant and clean energy, but also contributing to the dynamic stability of low (or even zero) inertia future power system. For that, advanced capabilities such as grid forming operation, black-start and islanding operation, enhanced ancillary services (and more) are required.
\nThe lecture will highlight the state-of-the art in offshore wind power integration and will present the challenges and research objectives in developing the offshore wind power plants of the future.
X-ALT-DESC;FMTTYPE=text/html:As of February 1 2019, Nicolaos A. Cutululis was named MSO in Offshore Wind Power Integration at DTU Wind Energy.
\nDTU Wind Energy would like to invite you to attend Nicolaos A. Cutululis’ inaugural lecture Friday the 11th of October 2019 at 15.00. The lecture has the title: Integrating offshore wind.
\nThe venue is DTU Lyngby Campus, bld. 101A, meeting room
\nAfter the lecture, you are invited to participate in the reception
\nKind regards
\nPeter Hauge Madsen
\nHead of Department
\nDTU Wind Energy
Sign up in order to participate by sending an email to Camilla Schwartzbach
\n\nAbout the Inaugural Lecture
\nOffshore wind power has seen an almost 20-fold increase in the last decade; closing up to 20 GW at the end of 2018, and the general expectation is that this pace will only accelerate, with estimates ranging from doubling to tripling today’s installed capacity in North Sea alone by 2030. At the same time, offshore wind development is becoming global, with projects in North America and Asia.
Offshore wind power integration is a multi-disciplinary research area with the overall aim of improving the performance of offshore wind, both technically and economically. Reducing the cost of the electrical infrastructure requires new mathematical models and advanced optimization techniques, combining them with lifetime estimation and probabilistic approaches.
\nLarge offshore wind power plants connected via HVDC are complex dynamic systems that – with their 100% converter based generation – provide a glimpse on future full-renewable power systems dynamic performance and stability.
\nConnected to shore either via HVDC grids or hubs such as the North Sea Wind Power Hub, offshore wind power plants can become the cornerstone of the 100% renewable power systems, being able of not only providing abundant and clean energy, but also contributing to the dynamic stability of low (or even zero) inertia future power system. For that, advanced capabilities such as grid forming operation, black-start and islanding operation, enhanced ancillary services (and more) are required.
\nThe lecture will highlight the state-of-the art in offshore wind power integration and will present the challenges and research objectives in developing the offshore wind power plants of the future.
URL:https://windenergy.dtu.dk/kalender/2019/10/professortiltraedelsesforelaesning-nicolaos-cutululis DTSTAMP:20240329T051900Z UID:{D8C55AF8-E345-453C-8A4F-568F8974C1F7}-20191011T130000Z-20191011T130000Z LOCATION: DTU Lyngby Campus, Bygning 101, mødelokale 1, 1. sal, Anker Engelunds Vej 1, 2800 Kgs. Lyngby. END:VEVENT END:VCALENDAR