Skip to main content
The Global Community for Sustainable Energy Professionals
Search form
E-learning
Log in
Request an account
About Us
Find Resources
Energy blog
Community
Projects
Contact us
AquaBuOY prototype animation
By:
Hans De Keulenaer
13/04/2007
Linkedin
Twitter
RSS
email
print
Rating:
0
No votes yet
Select rating
Give it 1/5
Give it 2/5
Give it 3/5
Give it 4/5
Give it 5/5
Your rating:
None
Quick navigation
-- Energy Technology
---- The Power of the Oceans - an eBook
------ AquaBuOY
-------- AquaBuOY prototype animation
------ Pico plant
-------- Turbine exhaust (“Bellmouth”) at rear of plant
-------- Exhaust of the relief valve in heavy sea
-------- Wave splashing over plant on an autumn day
-------- Front view
-------- Major components
-------- Interior of plant
------ Seawave Slot-Cone generator (SSG)
------ Wave Dragon
---- Underground High Voltage Cables: Wiring Europe for the Future
------ 1. Environmental Module
-------- 1.1. Electromagnetic Fields (EMFs)
-------- 1.2. Land issues
-------- 1.3. Recyclability
------ 2. Regulation
-------- 2.1. Basic mechanisms
-------- 2.2. Regulatory drivers
---------- EU Regulatory Environments for Power Transmission
---------- Financial Risks for Investors in Regulated Transmission Systems
---------- Overview of EU Transmission Regulation
---------- Regulatory regimes
---------- The Trans-European Energy Networks Programme
---------- Transmission Costs Across Europe
-------- 2.3. Investment Behaviour and the Cost of Project Delays
------ 3. Underground Cable Case Studies
-------- Case Study 1: Use of Cables in Areas of Outstanding Natural Beauty
-------- Case Study 2: Cables Enable Development of Valuable Project at Madrid Airport
-------- Case Study 3: How Protests Can Delay Overhead Line Projects
-------- Case Study 4: Cables Enable Reinforcement of the Grid in a Built-Up Area
-------- Case Study 5: Building a Business Case for Power Projects in Sweden
---------- How Transmission Systems Deal with Failures
------ 4. System Reliability
-------- 4.1. Reliability of Cables and Lines
---------- How Transmission Systems Deal with Failures
---------- The N-1 criterion for power transmission
-------- 4.2. Failure Case Studies and Correction
---------- Case Studies and Impacts
---------- Failure Statistics for Overhead Lines and Underground Cables
---------- Storm, Weather Damage and Accidents
-------- 4.3. Technical Improvement
---------- Detecting faults
---------- Installation
---------- Maintenance
-------- 4.4. Testing and Development
---------- Pictures of Testing Facilities
---------- Testing Standards
------ 5. Life Cycle Module
-------- 5.1. Installation Costs
---------- Relative Cost Figures
---------- Relative Costs When Life Cycle Issues are Included
-------- 5.2. Transmission Losses
-------- 5.3. Planning Delays
---------- Delaying Wind Power in the UK
-------- 5.4. Replacement Cycles
Previous chapter
AquaBuOY
Next chapter
Pico plant
Back to resources
Log in
to post comments
About us
Presentation
How to use this site?
Partners
Become a partner
Find resources
Energy blog
Projects
E-learning
Community
Log in
Request an account
Contact us
Follow us
Subscribe to our mailing list and stay up-to-date
*
