Clean Shipping Act of 2023 Aims to Safeguard the Environment

The US Congress introduced a legislation known as the Clean Shipping Act of 2023, which sets out to tackle greenhouse gas (GHG) emissions from ocean shipping companies operating within the United States. This bill, led by Congressman Robert Garcia and Senator Alex Padilla, aims to address the environmental impact of the shipping industry, protect the health of port communities, and combat climate change.

 

Protecting Our Oceans, Combatting Climate Change

 

Ocean vessels have long been contributors to greenhouse gas emissions, accounting for approximately 3% of the world’s total annually. But the Clean Shipping Act of 2023 empowers the Environmental Protection Agency (EPA) to establish and enforce carbon intensity standards for maritime fuel, signaling a new era of environmental responsibility. Therefore, this legislation not only protects our precious oceans but also sparks a race for sustainable innovation.

 

A Call for Forward Thinking and Ambition

 

The bill also acknowledges the urgent need to protect coastal communities and reduce emissions, particularly in California, which has borne the brunt of shipping pollution. According to this note on Port Technology, Senator Padilla remarked “The health of our communities and the health of our planet requires us to be forward thinking and ambitious—we owe it to future generations.” This legislation reflects the collective responsibility to leave a cleaner and healthier world, urging us to think beyond the present and embrace ambitious environmental solutions.

 

Industry Support and Corporate Responsibility

 

The Clean Shipping Act has gained support from various environmental organizations and major players in the shipping industry. Maersk North America, a leading shipping company committed to decarbonizing operations by 2040, expressed its support for the legislation. Lee Kindberg, Head of Environment & Sustainability at Maersk North America, affirmed the company’s commitment to cleaner practices. Such endorsements demonstrate the growing recognition within the industry of the need for sustainable shipping practices and environmental responsibility.

 

Looking Ahead

 

Moreover, the introduction of the Clean Shipping Act of 2023 marks a significant milestone in promoting cleaner and more sustainable shipping practices while safeguarding the well-being of port communities. Also, the bill’s focus on regulating emissions and establishing environmental standards highlights the collective determination to address climate change and protect our oceans.

As discussions and deliberations progress, this legislation could be a model for other nations to go towards a greener and more ecologically balanced future for the shipping industry.

Navigating the Challenges of Seaport Technology Adoption

The maritime industry is evolving rapidly, and seaports worldwide are increasingly leveraging technology to optimize their operations, improve efficiency, and enhance sustainability. However, the adoption of new technologies in seaports comes with its fair share of challenges. From cost considerations to interoperability issues, change management, and cybersecurity concerns, seaports face several hurdles when it comes to implementing technology solutions.

Let’s explore the best practices and lessons learned from successful seaports in navigating these challenges and achieving successful technology adoption in their daily operations.

Conducting Comprehensive Cost-Benefit Analysis

Cost is a significant consideration in seaport technology adoption. It is essential to conduct a thorough cost-benefit analysis before embarking on any technology adoption initiative. This includes evaluating the upfront costs of technology acquisition, installation, and integration, as well as ongoing operational costs, maintenance, and potential return on investment (ROI).

Ensuring Interoperability and Compatibility

Interoperability and compatibility among different technologies and systems are critical for successful technology adoption in seaports. Seaports rely on a wide range of technologies, such as terminal operating systems, cargo tracking systems, security solutions, and communication networks. Check out our Suite AIMS as an example of how you can integrate different systems with each other to operate in a more efficient way.

Managing Change and Stakeholder Engagement

Change management and stakeholder engagement are vital aspects of successful technology adoption in seaports. Technology adoption often involves changes in processes, workflows, and job roles, which can be difficult to assimilate for employees and stakeholders. It’s important to make sure that technology, more than a challenge, is a tool beneficial for everyone.

Prioritizing Cybersecurity

Technology is a wonderful tool, but the more we use it, the more vulnerable we are to cyber attacks. With increasing reliance on technology, seaports are also exposed to cybersecurity risks. Cyber threats can compromise critical systems and data, leading to operational disruptions and financial losses. Seaports, as any other place that works with technology, should prioritize cybersecurity in their technology adoption initiatives by implementing robust cybersecurity measures, such as firewalls, intrusion detection systems, encryption, and employee awareness training.

Singapore’s Maritime and Port Authority (MPA) started 2022 with a plan to establish a maritime cybersecurity roundtable to improve cybersecurity partnerships, access to digital maritime tools and skills, as well as boosting research and development of new maritime technologies. It also contemplated expanding the Sea Transport Industry Digital Plan to allow 3,000 small and medium-sized businesses to apply for co-funding assistance to receive support for adopting digital tools.

There’s plenty of seaports around the world that have implemented new technologies with success, and we can learn from their experiences to find new solutions and overcome challenges. Besides the ports mentioned above, we can also take as an example the Port of Barcelona in Spain, which successfully implemented a digital platform that provides real-time visibility and transparency in port operations, enabling better coordination and resource allocation. Recently, they have increased their computing capacity, faster processing speed, and enhanced security measures for delivering services via PORTIC, the Port of Barcelona’s Port Community System (PCS).

Embracing digital transformation and technology innovation will help you to stay competitive in the global shipping industry. Which of the challenges described above would you address first? Let us know in the comments below.

“New technologies that are transforming the management of container and cargo ports”

Containers and cargo ports are key infrastructures for international trade. The rapid growth of global commerce has led to an increase in the volume of goods moving through these infrastructures, generating the need to improve efficiency and control in their management. But what is currently being done to achieve this? Here is a summary of the most important technologies in port management:

Terminal Operating Systems (TOS). 

These systems allow container port operators to control and supervise port operations, from the arrival and departure of ships to the loading and unloading of containers on land. TOS is a comprehensive solution that provides a complete view of the port and enables operators to make more informed and efficient decisions.

Among the benefits of using TOS are reduced waiting times, improved efficiency in planning container loading and unloading, and increased port capacity. A successful example of TOS implementation is the Port of Rotterdam, the largest port in Europe. The implementation of TOS in Rotterdam has reduced waiting times for ships and increased port capacity to handle more containers.

Another technology that is increasingly being used in the shipping industry is the Internet of Things (IoT). 

IoT allows port operators and customers to track and monitor the location of goods in real time. This helps improve transparency and visibility in the supply chain, which in turn helps prevent theft and loss of cargo or containers.

In addition, IoT is also used for predictive maintenance. IoT sensors can monitor equipment conditions and detect problems before they become serious faults. This allows port operators to schedule preventive maintenance instead of having to perform expensive repairs on damaged equipment. A successful example of IoT implementation is the Port of Hamburg, where IoT is used to monitor the temperature of perishable goods containers.

Image recognition technology and data analysis This is another technology being used in the shipping industry to improve efficiency in loading and unloading containers. This includes the use of surveillance cameras and image analysis software to monitor container movement and detect problems in real time. For example, the Port of Singapore uses surveillance cameras to monitor container movement and prevent collisions.

Robotics 

The implementation of robotics has also been part of the digital transformation of ports, as robots can assist in loading and unloading containers, reducing the need for labor and increasing efficiency in the loading and unloading process. For example, the Port of Qingdao in China uses robots for container loading and unloading in an automated terminal, which has significantly improved productivity and efficiency.

In conclusion, the adoption of new technologies such as TOS, IoT, image recognition and data analysis, and robotics are allowing container and cargo ports to improve efficiency and control in their management. These technologies enable better supervision of operations, process optimization, reduced waiting times, and prevention of cargo losses, while optimizing resources and increasing net income.

 

Sustainable technology in the maritime sector

The world is transforming, and technology has become a sustainable resource at all levels.

New technological tools have contributed to taking not only the infrastructure, but also the development of optimal environmental solutions to the next level.

We know that maritime transport is considerably one of the most important means of transportation. However, over the years, it has been one of the most polluting.

Despite this, thanks to technological development, it is allowing maritime transport to become more sustainable.

Many corporations over the world are already working on significant contributions to make maritime transport sustainable and minimize environmental impact.

Green energy… 

Renewable energy is one of the most effective ways to reduce emissions. Nowadays, wind turbines and solar panels are already being implemented to generate energy. 

Some even use energy storage technology to ensure a constant supply of energy. Technology also allows real-time monitoring of ship emissions, which is why with the management of a monitoring system, important decisions can be made to improve the efficiency of maritime transport. 

Sustainable and efficient design…

Aerodynamic design allows for energy optimization, which is why corporations are working on sustainable designs for ships to reduce fuel consumption and emissions.

At the same time, some ships are equipped with hybrid propulsion systems that combine diesel and electric motors to achieve greater energy efficiency.

With this comes the planning of routes and navigation speed if this is achieved travel time is reduced, and fuel is optimized.

If one thing is clear, the fight for a green world is growing, and little by little, technology becomes a sustainable tool to improve CO2 impact on the environment.

 

Find out more news about the maritime and aeronautical world on our blog.

What can be expected for shipping in 2023?

In the last three years, international trade has been affected by the decline in the shipping sector. Which is the main means of transporting cargo that has been affected throughout the supply chain, causing a rise in prices and triggering the so-called container crisis in different regions of the world.

 By 2023, this trend is expected to continue due to economic uncertainty and the different geopolitical conflicts, together with the reduction in the demand for Chinese manufacturing by the United States, which has caused China to cancel the departure of its ships to the USA and Europe. 

This also has a direct impact on Latin America, which has been affected by delivery times and container price increases.

 The shipping industry has been affected since around 2008 when the global economic crisis put its financial viability at risk. However, there have been other variables that have gradually had negative effects on the functioning of the supply chain; such as the increase in fuel and increased competition from both maritime and non-maritime companies with air and rail transport and the Covid-19 pandemic that came to aggravate the situation.

 This crisis has affected the financial position of shipping companies, which have been forced to adapt their operations to new scenarios that allow them to lower their costs, renew their services and become more autonomous. To this end, efforts are underway to revolutionize the industry with technological tools for digital transformation to help create smart ports that continue to operate even when there is a pandemic or the development of green fuels to help reduce the environmental impact of the industry.

 Efforts are aimed at investing in supply chains to make ports, maritime fleets, and connections more prepared for future crises. Improve their service offerings and stay in the game, making strategic changes and transforming a very traditional industry into opportunities for improvements with more efficient processes and full utilization of all its resources.

 

Port of Singapore a world leader

At the end of the year, the Asian Freight, Logistics, and Supply Chain (Aflas) awards were held to recognize the best seaports in the world. 

The AFLAS annually brings together the most important companies in the logistics, supply chain, and cargo sectors. The best ports worldwide are awarded, taking into consideration innovation, service, quality, and consistency, as well as reliability. 

This year, those in charge of selecting the best suppliers awarded the Port of Singapore as the winner of “Best Global Seaport”, due to its efficiency in the sector for complying in efficiency with the supply chain and being cataloged as a leader in maritime transformation. In addition, the Port of Singapore was also ranked as the Best Port in Asia for the 34th time. 

Worldwide recognition 

As mentioned above, this award, held annually, also recognizes the work of ports worldwide, such as the Port of Hamburg, which won “Best Seaport – Europe” for the third consecutive year. 

On the other hand, other ports were awarded by region and different categories, among which the following stand out: 

  • Best seaport in the Middle East: Port of Jebel Ali.
  • The best seaport in North America, the East, and the Gulf Coast region is the Port of Houston.
  • Best seaport in Oceania: is the Port of Auckland.
  • Best global shipping line: CMA CGM.
  • Best Logistics Service Provider – Sea: CEVA Logistics.
  • Best green seaport: HAROPA, Port of Le Havre.

 Port of Singapore, the leader at sea

 The Port of Singapore is known worldwide in the maritime sector in areas such as competitiveness, reliability, and efficiency. 

 In addition, it has a privileged geographical location that facilitates communication with routes all over the world. Also, it has managed to position itself as one of the ports that use Artificial Intelligence and other technologies to manage its port services. 

 This is just a glimpse of the broad spectrum of the maritime world and the efforts to carry forward the technological transformation in the sector. 

 

These and other news about the maritime and aviation world at GP NAUTICALS. 

 

The digital transformation reaches new frontiers

Digital transformation is increasingly reaching new frontiers. Some sectors have taken it from the beginning, while others have only waited a little longer to study the behavior of a world that, as difficult as it may seem, has come to solve many problems. 

The Internet is not new, and neither is machine learning or big data, but recognizing its effectiveness and behavior has taken us a few years. However, many industries use technological developments to leverage the new, transform themselves and break paradigms that years ago they would not have taken into account. 

The aviation sector has been one of those that have been able to take advantage of the new technologies coming to the market to optimize, reduce costs and improve data security.

This has not only served to clarify and improve the industry after the pandemic but also to face new challenges that in the medium term will be favorable. Not only at the industrial level, but also at the administrative level.

Technology is already part of everyday life… 

Most companies today are technological and it is not only about applying technology within the company but also about transforming the business model to sustain, optimize and ensure the effectiveness of the changes that are made within the industry. 

Always hand in hand with clear and specific objectives to implement an action plan aligned to the industry. 

Likewise, it has been demonstrated that automated processes reduce human error and are more optimal when it comes to minimizing manual work times. For this reason, the leap to technology is imminent and now covers a large part of sectors that had remained solely in manual work.

A new agenda for the maritime sector

The maritime sector is not left aside in terms of optimizing its operations, because the environment that develops within the maritime world is already talking about a new moment to optimize the industry, not only at the level of infrastructure but also at the level of operability. 

Worldwide, maritime transportation has been of vital importance to connect new routes, of great affluence that have awakened in the globalization that is currently being experienced. So, although it seemed to have been left aside, it faces a new challenge to continue growing and evolving more and more. 

If you want to know more, keep navigating in our blog.

Resilient ports

Nowadays, airport planning must be viewed as an ecosystem in permanent transformation, which does not work in isolation but is an integral part of its immediate environment. As well as other sectors that directly influence its daily development such as tourism, foreign trade, defense, territorial integration, and social connectivity, but above all, its planning must be aligned with the objectives and policies of the State.

 

Evaluating the above, the planning of the air system should be focused not only on aircraft, infrastructure, and services but also on sustainability (social, environmental, and economic) and should not lose its articulation with the urban planning where they are located.

 

The current situation must be taken into account in airport planning, while analyzing the past and how things were done to foresee the future and improve processes, building different scenarios, considering all possible variables, and dimensioning their influence.

 

The truth is that we are in constant evolution, and situations change overnight, but today, keeping airport development at the forefront of technology is vital to lay the foundations. This allows a sector in constant development to grow and meet the demand of travelers for more efficient services and transform their travel experience.

 

Airport development management has a responsibility to take advantage of the buildings, facilities, and infrastructure available to them and evaluate their full capacity to adapt and create resilient infrastructures that promote the sustainability of the industry, but above all foster innovation.

 

Using technological platforms makes it possible to optimize resources without the need for large investments in infrastructure. Additionally, they facilitate the daily work of airport employees, while benefiting travelers who obtain high-quality services with state-of-the-art technology that offers them: greater data security, more efficient waiting times, and, obviously, greater convenience when using systems such as self-check-in. Also, biometric systems for passenger control or zero-contact technologies have become so popular in recent times.

 

Undoubtedly, the airport sector has had a rapid capacity to adapt and has weathered one of the worst crises in history, but if anything is clear, it is that airport planning must be very resilient and mutate step by step, to adapt to the needs.  Above all, they must be open to learning, take advantage of every innovative technology that facilitates data collection and analysis, and be very dynamic in decision-making, which will allow them to cushion the impact of any situation that may arise.

 

Ports digitization: Application of digital twins in the maritime industry

The maritime industry has always been a sector considered traditional, however, new digital technologies open an opportunity for the modernization of the port sector that increasingly faces greater challenges in terms of resource management, infrastructure, management of meteorological events, and even changes in consumer habits.

 

To provide greater reliability in the services offered and to deal with any disagreement that could threaten to paralyze the sector, many ports worldwide have chosen to join the era of digitalization, investing a large part of their budgets in technological tools that allow them not only to streamline their processes. But rather to create smart ports that provide more and better services at each step of their logistics chain.

 

The creation of digital twins in the port context allows, among many other things, to generate impact study models in any area of the logistics chain or the community and thus predict the best alternatives for the development of a specific niche or new services. All this digitally tested in different scenarios and without real risks, which facilitates decision making, cost reduction and especially implementation times.

 

Nowadays, digital twins are one of the most used technologies in almost all sectors, due to their analysis potential to improve the behavior of systems, processes, services, and simulations of any type of assets of any company. 

 

The crisis generated by the Covid-19 pandemic helped accelerate the implementation of this type of information technologies since they ensure the permanence of companies in the market, but above all, because many sectors evidenced the importance of data analysis, remote monitoring of activities, and prediction of future scenarios.

 

Most of the implementations of digital twins are based on Big Data and are combined with artificial intelligence methods since it enables the dynamic and updated representation in real time of a real and/or physical system, but being itself a controlled and safe environment for experimentation, which allows to detect failures, plan maintenance tasks, avoid delays or unexpected stops and best of all is that you can build and test new scenarios, more efficient and agile; without risking new investments.

 

The implementation of a digital twin in the port sector, not only allows a significant improvement in the decision-making of shipping companies, port operators, and other ecosystem players but also facilitates the creation of regulations that encourage the integration of transport supply chain operations and collaborative work.

 

Having a digital twin model in the maritime sector influences 3 main areas such as fleet, port, and terminal optimization. Ecosystem stakeholder analysis and end-to-end supply chain optimization.

 

Digital transformation brings with it a disruption of business strategies, plans for a cultural change, how things are done, and how the new processes will be to compete in a new digital environment, which leads us to understand that we are facing the technological revolution of the maritime industry.

 

The use of biometrics in the aeronautical sector

The future is already here and thanks to the technological advances we are living today, we can use biometrics as a control and access system. Analyzing our facial features or body measurements that make each person a unique human being with specific characteristics.

But what does this process consist of? 

To identify a subject, all that is needed is to compare an incoming image with an image in the database. However, in the aeronautical field, this is a process that must be carried out in real-time and supported by software and a database that provides sufficient security to airport facilities.

 

For this reason, airports that have already implemented technologies like this support it with government databases that support their security personnel while streamlining their passenger check-in processes.

 

Using a passenger access control system with biometrics brings many advantages to the aviation industry, such as speeding up the entry process, making it faster and more efficient, and reducing the probability of identity fraud, since the system will identify the passenger’s features by comparing them with certified databases. 

 

Software without human manipulation, this type of technology and devices used to provide access cannot be manipulated, so the information handled here is secure and reliable. And last but not least hygiene, as the type of devices used for biometric identification or facial recognition, does not require any kind of contact, so it is ideal in these times of pandemic.

 

According to Annet Steenbergen, chair of the passenger facilitation working group at IATA, “The use of the human body as an authentication system will be the salvation to speed up the movement of people in air terminals”. Especially when it is expected that by 2037, more than 8 million passengers will be using airplanes for their transfers, more than twice as many as today.

 

Identification solutions using biometrics or facial recognition not only eliminate manual processes, offer a more satisfactory service for passengers, and reduce their waiting times at the airport but also help airlines and air terminals to comply with government and border agency regulations.

 

So far, the main use of facial recognition technology has been in the check-in areas of airports. However, within the same air terminals, it can also be used to provide privileged access to VIP lounges for frequent travelers, access to restricted areas for airport workers, or to offer specific premium services for those passengers who wish to pay for a more pleasant trip. 

 

At the moment, the implementation of facial recognition in the aviation industry is in its early stages, but we are sure that it will revolutionize the sector and replace many processes that are not so friendly so far.