Dutch Power Event 5. Dirk Rabelink - ULC energy.pdfDutch Power
This document discusses the role of small modular reactors (SMRs) in the Dutch energy landscape. It notes that ULC-Energy has exclusive agreements with Rolls-Royce SMR in the UK for SMR deployment in the Netherlands. SMRs can provide flexible energy output for electricity, heat, and hydrogen. They offer a 24/7 available clean energy source to power industry and benefit the public. SMRs can also provide backup grid services and reduce infrastructure investment needs.
Dutch Power Event 6. Sophie Macfarlane-Smith - Rolls Royce SMRDutch Power
Rolls-Royce SMR Ltd is introducing their small modular reactor (SMR) technology. They are a technology vendor offering a complete SMR power plant on a turnkey basis, with their development program fully funded through commercial equity and UK government grants totaling €580 million. Their SMR design is based on over 60 years of nuclear design and manufacturing experience at Rolls-Royce and is meant to provide clean, affordable energy through a factory-built, standardized approach to reduce risk.
Dutch Power Event 7. Titus Tielens - Thorizon.pdfDutch Power
1) Thorizon is developing a molten salt reactor to provide stable, affordable carbon-free nuclear energy as part of addressing challenges in the energy transition such as limited grid capacity and unstable prices.
2) Thorizon's patented cartridge concept contains all the nuclear fuel and complexity, making the molten salt reactor intrinsically safe, and allowing the fuel to be continuously transported out of the reactor core.
3) The Thorizon reactor can turn existing nuclear waste into clean energy, extracting over 95% of the energy content and producing waste that is only radioactive for hundreds of years rather than tens of thousands of years.
Presentatie Dutch Power 8. Beata Tyburska-Pueschel - DIFFERDutch Power
DICE (DIFFER's Irradiation-Corrosion Experiment) is a project that aims to test materials for molten salt reactors through a unique approach that allows for simultaneous irradiation and corrosion of thin metal samples in thorium salt at temperatures up to 1000°C. The design of DICE includes a small cell that holds hair-thin samples and thorium salt, shielding to protect from fast particles, and the ability to heat samples and take accurate temperature measurements over a period representing 1 year of MSR operation in only 5 days. DICE is the only facility of its kind in Europe for testing molten salt reactor materials under conditions that closely mimic actual reactor environments.
1. Pieter Cobelens Generaal-majoor b.d. strategisch adviseurDutch Power
This document discusses cybersecurity threats facing the Netherlands and strategies to address them. It notes that wars result from failed deterrence and that both old and new threats depend on data and the internet. It advocates strengthening Dutch cyber defenses through deterrence, including defensive and offensive cyber capabilities. It also stresses the importance of leadership, teamwork, and considering multiple information sources to avoid manipulation.
Dutch Power Event 5. Dirk Rabelink - ULC energy.pdfDutch Power
This document discusses the role of small modular reactors (SMRs) in the Dutch energy landscape. It notes that ULC-Energy has exclusive agreements with Rolls-Royce SMR in the UK for SMR deployment in the Netherlands. SMRs can provide flexible energy output for electricity, heat, and hydrogen. They offer a 24/7 available clean energy source to power industry and benefit the public. SMRs can also provide backup grid services and reduce infrastructure investment needs.
Dutch Power Event 6. Sophie Macfarlane-Smith - Rolls Royce SMRDutch Power
Rolls-Royce SMR Ltd is introducing their small modular reactor (SMR) technology. They are a technology vendor offering a complete SMR power plant on a turnkey basis, with their development program fully funded through commercial equity and UK government grants totaling €580 million. Their SMR design is based on over 60 years of nuclear design and manufacturing experience at Rolls-Royce and is meant to provide clean, affordable energy through a factory-built, standardized approach to reduce risk.
Dutch Power Event 7. Titus Tielens - Thorizon.pdfDutch Power
1) Thorizon is developing a molten salt reactor to provide stable, affordable carbon-free nuclear energy as part of addressing challenges in the energy transition such as limited grid capacity and unstable prices.
2) Thorizon's patented cartridge concept contains all the nuclear fuel and complexity, making the molten salt reactor intrinsically safe, and allowing the fuel to be continuously transported out of the reactor core.
3) The Thorizon reactor can turn existing nuclear waste into clean energy, extracting over 95% of the energy content and producing waste that is only radioactive for hundreds of years rather than tens of thousands of years.
Presentatie Dutch Power 8. Beata Tyburska-Pueschel - DIFFERDutch Power
DICE (DIFFER's Irradiation-Corrosion Experiment) is a project that aims to test materials for molten salt reactors through a unique approach that allows for simultaneous irradiation and corrosion of thin metal samples in thorium salt at temperatures up to 1000°C. The design of DICE includes a small cell that holds hair-thin samples and thorium salt, shielding to protect from fast particles, and the ability to heat samples and take accurate temperature measurements over a period representing 1 year of MSR operation in only 5 days. DICE is the only facility of its kind in Europe for testing molten salt reactor materials under conditions that closely mimic actual reactor environments.
1. Pieter Cobelens Generaal-majoor b.d. strategisch adviseurDutch Power
This document discusses cybersecurity threats facing the Netherlands and strategies to address them. It notes that wars result from failed deterrence and that both old and new threats depend on data and the internet. It advocates strengthening Dutch cyber defenses through deterrence, including defensive and offensive cyber capabilities. It also stresses the importance of leadership, teamwork, and considering multiple information sources to avoid manipulation.
1. De eerste stappen van
robots voor netbeheer
Luc Nies l Research Center for Digital Technologies l 19-01-2023
2. • Luc Nies
• Principal Researcher
• Alliander Research Center for Digital Tech.
• Supporting Technologies in the Field & Office
• AI, AR, Robotics
• Tech Enthusiast
Wie ben ik?
2
8. • Gebruik neemt toe
• Prijs neemt af
• Sneller & preciezer
• Eenvoudiger in gebruik
• Ontwikkelingen Kunstmatige
Intelligentie
8
Trends Robotica
9.
10. • Agile Robot
• Op afstand bestuurbaar
• Programmeerbaar
• Autonoom
• Verschillende add ons
Wat is Spot?
10
"Het is gewoon een IoT
sensor op poten"
- Yuri
11. • 6 weken gehuurd
• 360° ptz camera
• 30x zoom
• Hittecamera
• Oplaad station
• Computer rugzakje
• Mission control
• Data upload naar cloud
"Onze" Spot
11
12. Robotica op een onderstation
Automatiseren inspectiewerk
• Autonome inspectie
• Langdurige (1 maand) autonomie
• Zonder menselijk ingrijpen
• Verzamelen hittebeelden
• Verzamelen foto's
• Automatische analyse
13. • Route over het onderstation geprogrammeerd
• Foto's van verschillende componenten
• Start op gezette tijden
• Data upload
• Laadsessie bij lage batterij
Missies
13
15. • Heeft 30+ autonome inspectie routes uitgevoerd
• Maar één keer gevallen!
• Zeer consistente data verzameling
• 90% van de genomen foto's hebben vrijwel
identieke positie
• Nooit zonder batterij gezeten
Resultaten – Wat ging goed?
15
16. • Toch één keer gevallen
• Navigatie
• Veel fiducials nodig
• Schaduwen zorgen voor problemen
• Raakte te vaak de weg kwijt bij grote route
• 4 van de 10 keer de weg kwijt geraakt
• Op te lossen met LiDAR (waarschijnlijk)
• Kortere route werkte perfect
• Missies maken duurt lang!
• Hoog gras
• Moesten de missies daarna opnieuw inleren…
Resultaten – Wat ging minder goed?
16
17. Verbetering in data verzameling
• Zelf verkennende robot
• Andere data bronnen?
Verbetering in data verwerking
• Automatische herkennen van hotspots
• Welke andere defecten kunnen we vinden?
Hoe nu verder?
Plaats hier uw voettekst
17
18. Hoe verbeteren we hiermee ons onderhoud?
• Predictive Maintenance
Hoe in te zetten?
• Eén robot per onderstation?
• Rondreisrobot?
Hoe nu verder?
18