Cookie Settings – Manage Cookies and Privacy Preferences

Recommendation: Set your cookie preferences today by choosing only strictly necessary cookies and turning off third-party tracking in the settings panel.

Cookies store tiny data that helps a site remember your choices a oldalon keresztül every visit. The result is faster load times and a smoother experience, while banners clearly explain what data is collected and why. This approach increased transparency and trust in your browsing.

Open the Cookie Settings, then adjust categories: Functional cookies that keep you signed in and remember language; Analytics cookies to measure visits; Marketing cookies to tailor ads. Save your preferences; the choice is written to a Persze, ide a szöveget! cookie and applies on the next page load. You can update these anytime in the same panel, and the setting remains available across pages and devices.

For commercial sites and logistics platforms, cookie controls support legal compliance and reduce risk. Data collected by analytics helps optimize routes, driving schedules, and transportation activities without exposing sensitive details. A oldalon keresztül consent choices, you limit how data appears in documents and reports, while still enabling operational insights for vessel movements and overall logistics workflows. If you withdraw consent, data collection may not occur. Privacy protections increase accordingly.

A available settings panel stays accessible across devices, and you can review activity logs and consent documents at any time. By configuring cookies with care, you gain növekedett control over your data and preserve site functionality without compromising privacy while exploring technological and transportation features.

Cookie Settings, Sustainability Highlights, and Shipping Digitalisation: Practical Topics

Start by presenting a granular cookie menu with three actionable categories: essential, performance analytics, and marketing. This approach támogatja a transparent consent and directly ties data processing to sustainability metrics for operations across the world. Regular updates provide támogatás for regulatory alignment and responsibility in data use.

Give managers in logistics and shipping teams a dedicated settings view. There, they can tailor data collection for shipments and tracking, aligning with legal and trade requirements. It started as a lightweight analytics tag and continues to expand server-side controls to reduce client-side load and improve reliability. Settings can be adjusted manually by role to ensure appropriate data access. The invented tagging method evolved into a more robust policy for this part of the chain, enabling better control across the world.

In sustainability terms, minimize data processed per shipment by default, cutting server load and energy use by up to 20-30% in typical logistics platforms. Track metrics across logistics, including shipments and railroad and transportation lines, to show efficiency gains. Use visitors’ consent choices to drive data minimization; there are various ways to measure success, including opt-out rates and average data retained per session. This technological shift reduces wrong data handling and supports chain-wide performance improvements for many partners.

For shipping digitalisation, set clear cookie scopes for carriers and customers. Use first-party cookies for tracking shipments and transportation updates; later, shift to server-side analytics to increase data control. This supports many partners and avoids wrong data collection while keeping the trade ecosystem compliant. If there is a policy change, there is a link to visit the privacy settings and update consent accordingly. The earlier approach relied on third-party trackers; this transition improves privacy and performance for companies and trade networks.

Practical topics to implement now: First, configure consent banners to require explicit opt-in for tracking related to shipments. Second, offer manual controls for data collection by role and ensure that cookies cover every part of the chain. Third, enable server-side tagging for critical shipments data and maintain transparent reporting. Fourth, publish a concise legal/privacy notice for partners and ensure periodic audits. Fifth, review cookies quarterly to align with sustainability goals, and adjust settings as needed.

Privacy, Sustainability, and Digital Transformation in Maritime

Implement a unified digital documents system across international routes to enable improved privacy and data integrity; this could deliver improved data sharing amongst vessels, reduce time for transfers, and support environmentally sustainable operations.

Automate processes to increase environmental efficiency by digitizing records and enabling real-time updates available to the workforce across multiple vessels, with data made accessible to authorized partners as needed.

Protect privacy with role-based access and encrypted communications; this whilst maintaining compliance with international standards, enabling trusted collaboration across partners and documents handled responsibly.

Please coordinate governance with sustainability targets by making non-sensitive data available to researchers and regulators worldwide, while keeping sensitive documents protected and transfers traceable across routes and traffic networks.

Track the evolution of digital ecosystems with KPIs such as time-to-decision, energy use per voyage, routes optimization, and environmentally conscious fuel choices, to continually improve vessels’ efficiency across the world.

Core vs analytics cookies and the consent flow

Enable core cookies by default and present analytics consent after the user first action, providing visibility and control over data sharing. This approach reduces risks, supports digitalization, and keeps access straightforward for ports and suppliers that rely on digital services.

1. Core cookies (necessary for access): Core cookies handle login state, language and regional preferences, and security checks. They ensure a vessel of site navigation and welfare by keeping essential functions live while never enabling analytics or cross-site advertising. Data stays within the site context and is not used for profiling.
2. Analytics cookies (measurement and improvement): Analytics cookies collect data on visits, page load times, error rates, and user flows. They operate in aggregate, with individual identities protected, and require explicit consent. A granular flow lets users choose categories (e.g., usage analytics, performance metrics) and, later, adjust preferences. This setup is driving improvements and, for those wanting more detail, increased transparency.
3. Consent flow design: Present a banner that defaults core cookies on and analytics off, with a clear option to review preferences. Show a vendor list to provide visibility into suppliers, and let users access legal information and revoke consent anytime. Include a later option for those who are unsure, and allow changes without friction for the right to withdraw.
4. Governance and implementation: Maintain a live catalogue of vendors and data practices, with mobilisations across teams to keep the consent flow aligned with policy. Ensure access controls for data sharing and provide a transparent path from the ports to the data centre. Regular audits catch unexpected access and reduce risks; ensure that users receive a clear message about data handling, including welfare considerations.

Please review these steps if you are targeting a user-friendly model for seekers wanting more control. For teams that want to empower field users, the vessel metaphor helps keep the flow intuitive, even for those on motorboats or on remote locations, and supports visibility across a digital ecosystem. The legal right to withdraw is built into the flow, ensuring ongoing welfare for users and trust in your service.

Jotun sustainability: Gold rating and related articles

Visit the official Jotun sustainability hub to verify the Gold rating and access related articles that explain criteria and outcomes.

Jotun maintains a Gold sustainability rating that reflects environmental performance with governance and ethics across international operations. Over decades, the program tracks the evolution of efficiency, lower emissions, and broader supplier compliance.

Configure Cookie Settings to control data transfers and analytics used for sustainability reporting; the choices you make affect which transactions and data are shared with partners.

Digitally explore results through available dashboards and arvr demonstrations that are helping customers understand coating performance, energy use, and waste reductions; these tools increase transparency.

To support greater change, Jotun started services that publish decades of environmental data and supplier information; be mindful of scams and verify claims against official reports, since data transfers or misreports can occur.

Jotun Vietnam’s 100% renewable energy: implications for operations

Recommendation: lock in a plan to reach 100% renewable energy for Jotun Vietnam within 24 months by integrating on-site solar with a green PPA and a phased rollout across the site. Start with a 2.5–3.5 MW rooftop and carport solar array to cover daytime loads, then evaluate off-site wind or biomass options to fill night demand. A practical financial model places CAPEX at roughly USD 1.6–2.4 million for 2.5–3.5 MW, with a simple payback of 4–6 years depending on incentives and electricity prices. This planning phase defines milestones and metrics.

There will be tangible safety and health gains: fewer diesel genset runs, cleaner air for workers, and steadier temperature control in critical process areas. Planning for these improvements begins with a risk assessment of current backup systems and a timeline for decommissioning idle units.

Most operations will see improved reliability and planning flexibility, as the energy mix becomes less exposed to grid outages, boosting services across the value chain. The change also reduces disruptions on high-demand shifts and supports continuous production.

Digitalisation and digitalization enable real-time visibility: a unified energy management system links site meters, production lines, and service utilities; digitalisation includes dashboards, alerts, and predictive maintenance modules. Integrating these data flows supports international reporting standards and transparent stakeholder communication. The innovations cover data analytics, demand forecasting, and supplier collaboration.

Impact on costs: energy costs become more predictable, with expected reductions of 15–25% over five years; the remaining exposure to price spikes can be hedged through PPAs; the learning from pilots informs further rolling out across other sites. This also lowers maintenance and fuel costs for backup systems, contributing to a steady cost profile for operations. Learning from pilots made the business case stronger. Past pilots gave hands-on experience and validated the approach.

Planning steps: 1) inventory energy demand by process line; 2) map roof and yard for solar; 3) engage legal and tax advisors for incentives; 4) sign PPA and interconnection agreements; 5) run a 6–12 month pilot; 6) integrate results and scale; 7) train staff with a learning program to ensure smooth operation. This plan should include a governance model that links site leadership with international teams, and a clear schedule for integrating legacy systems. Should align with legal requirements and corporate sustainability targets.

Railroad and transport: The site relies on regional trucking and railroad shipments; switching to renewables lowers scope 2 and 3 emissions, stabilizes energy supply for inbound materials, and supports on-time deliveries while reducing fuel costs across the chain. Strong partnerships with local utility and logistics providers maximize site uptime.

International collaboration: share best practices with peers in regional operations; align procurement with international suppliers, and maintain compliant reporting across markets. This approach strengthens resilience, accelerates learning, and makes it easier to scale innovations across the network.

DNV verification: 111 Mt CO2 avoided on Jotun-coated vessels

Adopt Jotun-coated hulls across the fleet to sustain the 111 Mt CO2 avoided, as verified by DNV. This result stems from reduced drag and lower fuel burn when coatings are applied during planned dry-dock cycles.

The verification covers a representative mix of hulls and operating profiles, confirming that annual fuel consumption drops after coating renewals and that the savings scale with voyage length and engine load. Operators can track gains by comparing fuel indicators before and after coating events, using onboard sensors and port data.

Scale up by scheduling coating work during routine maintenance windows, coordinating with yards and coating partners, and updating maintenance plans to keep the coating schedule aligned with dry-dock cycles. Document the changes in maintenance logs and vessel performance reports to support ongoing optimization.

For fleet managers, include this performance in procurement decisions when selecting hull protection options and coating cycles, and reflect the improved cost efficiency in voyage planning and cargo allocation. Share the findings with crews and shore staff to support safe operations during conversions and returns to service.