Energy

NOWITECH Final Seminar

Offshore windmill
author
John Olav Giæver Tande
Research Manager / Chief Researcher
1 min. reading
Comments (0)

NOWITECH final seminar will take place 22 – 23 August 2017 at Radisson Blu Royal Garden hotel, Trondheim.

Highlights from NOWITECH will be presented.

Agenda

Tuesday 22 August

12:00  Registration
12:30  Offshore Wind in Future Sustainable European Power System
13:30  Break
14:00  Offshore Wind Substructures
15:05  Break
15:30  Operation and maintenance
16:35  Poster session & refreshments
18:30  NOWITECH Innovation Award 2017 and dinner

Wednesday 23 August

09:00  Grid connection and Control
10:05  Break
10:30  The way forward
11:30  Lunch
12:30  Adjourn

Detailed draft AGENDA 

NOWITECH Innovation Award

In connection with the final seminar, the winner of NOWITECH Innovation Award will be presented. More information and call for nomination at the NOWITECH website.

Registration

Maximum number of participants is 100, we reccomend that you register now.
The seminar is free for NOWITECH partners. Fee for other participants: 3000 NOK incl. dinner (ex VAT).

REGISTRATION  

Comments

No comments yet. Be the first to comment!

Leave a comment

Your email address will not be published. Required fields are marked *

More about Energy

How much can energy-efficient voyage planning save? Evidence from 11 months of North Atlantic data

Author Image
Author Image
2 forfattere
Infographic showing the flow of thermal energy storage (TES) from surplus heat or cold to end users. On the left, red and blue thermometer icons represent surplus heat and cooling, accompanied by the text “Surplus heat or cold – Captured and stored for when it’s needed.” In the centre, a large panel titled “Thermal Energy Storage (TES)” presents three storage technologies. The top section, “Sensible TES,” shows a container with a thermometer and the text “Stores heat in one single phase.” The middle section, “Latent TES,” shows a water droplet and snowflake connected by circular arrows, with the text “Stores heat through phase change.” The bottom section, “Thermochemical TES,” shows two connected coloured circles that separate and reconnect, illustrating a reversible reaction, with the text “Stores heat through reversible reactions.” A large pale arrow-shaped wedge points from the TES panel toward the right side of the figure. On the right, three application areas are shown in separate boxes with icons: industrial processes, buildings, and data centres. The layout conveys that surplus heat or cold can be stored using sensible, latent, or thermochemical TES technologies and later supplied to industrial facilities, buildings, and data centres.

Thermal energy storage is already commercial  

Jorge Salgado Beceiro
Jorge Salgado Beceiro
Research Manager

Burning ammonia cleanly: How timing changes everything 

Author Image
Author Image
2 forfattere