Pakistan’s Maritime Affairs minister said Islamabad would sign a $2 billion investment deal with European shipping this year. The deal, resulted from growing global interest in Pakistani ports, is expected to be realized in October.
The statement came weeks after AP Moller–Maersk (Maersk) Chief Executive Officer Keith Svendsen’s visit to Pakistan, where he met top officials to explore opportunities in Pakistan’s maritime sector.
Maritime Affairs Minister Qaiser Ahmed Sheikh said in a statement that the European company would invest in logistics and infrastructure at the Karachi Port Trust (KPT).
“A well-known European company has shown interest in investing $2 billion in Karachi Port Trust,” Sheikh said, without naming the firm. The company is expected to sign the memorandum of understanding by October.”
Sheikh said the European firm also intended to set up a shipbreaking project in Pakistan.
“The company plans to break 750 ships in Pakistan,” he said. “The company has also decided to train the youth in Pakistan.”
Sheikh told the media this month that Danish shipping giant Maersk was interested in investing in a terminal and port as well as allied infrastructure, including connecting bridges, in Pakistan.
“We had very good discussions with them and they had shown eagerness and told us that they will submit proposal in a few days,” he said on May 7. “They want to take a terminal. There is some area where there is depth in the sea, where big ships can be anchored.”
Maersk has grown into a leading provider of logistics and supply-chain services across Pakistan. It has around 20 percent market share in Pakistan’s containerized import-export activities, according to Pakistan’s information ministry.
In January, the Danish shipping firm announced new smart logistics and warehouse facilities in China, Norway and Pakistan.
“With a vast network of warehousing and depot facilities across the country, including our flagship logistics hub in Port Qasim, Karachi — a sprawling 27-acre complex encompassing over 650,000 square feet of warehouse space — we ensure unparalleled support to Pakistani exporters and importers,” the shipping company said in a written response to Arab News.
“In total, Maersk now operates over a 1.5 million square feet footprint across 7 cities in Pakistan.”
The South Asian nation has already signed an agreement with Abu Dhabi (AD) Ports Group which is investing about $395 million for the development of a container and cargo terminal under a government-to-government (G2G) agreement between the United Arab Emirates and Pakistan.
New Reactor System Converts Carbon Dioxide Into Usable Fuel
A novel reactor design transforms CO2 emissions from small boilers into methane fuel, providing a promising strategy for addressing climate change.
Cutting carbon emissions from small-scale combustion systems, like boilers and other industrial devices, is essential for achieving a sustainable, carbon-neutral future. Boilers, which are prevalent in numerous industries for critical functions such as heating, steam generation, and power production, play a major role in greenhouse gas emissions.
Boilers are generally quite efficient. As a result, it is difficult to reduce CO2 emissions simply by improving the combustion efficiency. Therefore, researchers are exploring alternative approaches to mitigating the environmental impact of CO2 emissions from boilers. One promising strategy to this end is to capture the CO2 emitted from these systems and convert it into a useful product, such as methane.
Technological Innovations With Membrane Reactors
To implement this strategy, a specific type of membrane reactor, called the distributor-type membrane reactor (DMR), is needed that can facilitate chemical reactions as well as separate gases. While DMRs are used in certain industries, their application for converting CO2 into methane, especially in small-scale systems like boilers, has remained relatively unexplored.
This research gap was addressed by a group of researchers from Japan and Poland, who were led by Professor Mikihiro Nomura from Shibaura Institute of Technology in Japan and Prof. Grzegorz Brus from AGH University of Science and Technology in Poland. Their findings were recently published in the Journal of CO2 Utilization.
The scientists conducted a two-pronged approach to the problem through numerical simulations and experimental studies to optimize the reactor designs for efficient conversion of CO2 from small boilers into methane. In their simulation, the team modeled how gases flow and react under different conditions. In turn, this enabled them to minimize the temperature variations, ensuring that energy consumption is optimized while methane production remains dependable.
Design Innovations and Efficiency Enhancements
The research team further found that, unlike traditional methods that channel gases into a single location, a distributed feed design could spread the gases out into the reactor instead of sending them in from one place. This, in turn, results in a better distribution of CO2 throughout the membrane, preventing any location from overheating. “This DMR design helped us reduce temperature increments by about 300 degrees compared to the traditional packed bed reactor,” explains Prof. Nomura.
Beyond the distributed feed design, the researchers also explored other factors influencing the reactors’ efficiency and discovered that one key variable was the CO2 concentration in the mixture. Changing the amount of CO2 in the mixture affected how well the reaction worked. “When the CO2 concentration was around 15%, similar to what comes out of the boilers, the reactor was much better at producing methane. In fact, it could produce about 1.5 times more methane compared to a regular reactor that only had pure CO2 to work with,” highlights Prof. Nomura.
Additionally, the researchers investigated the impact of reactor size, finding that increasing the size of the reactor facilitated the availability of hydrogen for the reaction. There was, however, a tradeoff to be considered as the benefit of higher hydrogen availability required careful temperature management to avoid overheating.
The study thus presents a promising solution to the problem of tackling a major source of greenhouse gas emissions. By utilizing a DMR, low-concentration CO2 emissions can be successfully converted into usable methane fuel. The benefits gained thereof are not limited to methanation alone but can also be applied to other reactions, making this method a versatile tool for efficient CO2 utilization even for households and small factories.
ICT Applications for Sustainable Environmental Protection (ACTIVE) Project Grand Consortium Summit at NUtech: A Leap Towards Sustainable Environmental Protection
The National University of Technology (NUTECH), Islamabad, organized a three-day Grand Consortium Summit & Erasmus+ ACTIVE Curriculum Review Meeting. This pivotal event is part of the ACTIVE Project, a significant initiative funded by the European Union to address Pakistan’s environmental challenges. With a total funding of 0.717 Million Euros, this collaborative effort is fully supported by the European Union ERASMUS+ CBHE-2022 program.
The ACTIVE Project consortium comprises four higher education institutions (HEIs) from Pakistan, including NUTECH Islamabad, SSUET Karachi, MUET Jamshoro, Sindh, and BUITEMS Quetta, Balochistan. It also includes the Pakistan Engineering Council (PEC), Alfoze Technologies, and three European institutions from Ireland, Spain, and Romania. This diverse partnership underscores a collective commitment to leveraging technology and innovation for sustainable environmental protection.
The summit was a dynamic event, featuring a range of activities and insightful speeches. It kicked off with a warm welcome from DG Skills NUTECH, Engr. Mr. Raza Ali Khan setting a collaborative tone. This was followed by an introduction to Project ACTIVE by Dr. Pablo Otero Roth, UMA Spain and Dr. Marium Jalal, NUTECH, and a recap of project activities by Prof. Dr. Bhawani Shankar Chowdhry from MUET. Vice Chancellor of SSUET, Prof. Vali Uddin, also addressed the attendees, emphasizing the project’s significance for Pakistan’s educational and environmental landscape. Prof. Dr. Tauha Hussain, Vice Chancellor of MUET, highlighted the collaborative efforts and the expected impact of the project on the region. H.E. Mr. Philipp Oliver Gross from the EU Delegation to Pakistan delivered a keynote address, underscoring the project’s importance. Prof. Dr. Mohammad Aamir from SSUET updated on Capacity Building activities, focusing on Work Package 4.
The inaugural event was a momentous occasion, symbolizing the tangible achievements of the ACTIVE Project. H.E. Mr. Philipp Oliver Gross, H.E. Mr. Eduard Robert Preda, Ambassador of Romania to Pakistan, and the Spanish Embassy representative, Mr. Carlos, came together to inaugurate the first Center of Excellence dedicated to using ICT applications for environmental problem-solving. This marked a significant milestone in collaboration and knowledge exchange, demonstrating the project’s commitment to practical solutions.
The center aims to cultivate skilled ICT engineers with expertise in environmental science through capacity-building activities and specialized courses on advanced technologies. The project will establish four research centers focusing on local environmental challenges, providing practical training, and contributing to mitigation efforts.
On the second day, the Sri Lankan Ambassador to Pakistan, H.E. Admiral Ravindra C Wijegunaratne, visited the European Union Center of Excellence at NUTECH. The day also saw the signing of a Letter of Understanding between NUTECH and PMD under the ACTIVE Project, aiming for enhanced collaboration. Mahr Sahibzad Khan, Director General, and Dr. Muhammad Afzaal, Chief Meteorologist at PMD Pakistan, delivered a guest lecture on climate change in Pakistan.
The final day of the program marked a significant milestone with visits from ACTIVE Consortium members to the National Agricultural Research Centre (NARC). These visits facilitated in-depth discussions on various aspects of agricultural research, including emerging technologies, sustainable practices, and collaborative opportunities.
This summit serves as a platform for dialogue and strategic planning to address Pakistan’s educational and environmental challenges. The project’s progress underscores a collaborative effort to bridge technology and environmental sciences for a sustainable future.
Pakistan Cables completes commissioning of 2MW on-grid solar power plant at Nooriabad
Pakistan Cables, the nation’s pioneer wires and cables manufacturer, has completed commissioning of its 2MW captive solar power plant located at its new manufacturing facility in Nooriabad, Sindh.
The project was executed by Atlas Energy Limited for Pakistan Cables within stipulated timelines and has commenced operations as of April 23, 2024.
The installed capacity of solar power plants is an investment in renewable energy initiatives by the Company. “We are committed to pursuing environmentally friendly initiatives in the future at our state-of-the-art manufacturing facility at Nooriabad, Sindh. We actively advocate use of renewable energy sources that save cost and contribute to the circular economy”, said Fahd K. Chinoy, Chief Executive Officer – Pakistan Cables Ltd.
Pakistan Cables is the first and only building material Company in Pakistan to have science-based emission reduction targets validated by SBTi. The Company’s new state of the art manufacturing facility spread across 42 acres of land in Pakistan, is equipped with cutting edge technology and equipment, set to transform the industry.
Earlier the Company also announced installation of Pakistan’s first 69kV CCV line also at its manufacturing facility in Nooriabad, Sindh.
Prime Minister dissolves Pak PWD for its poor performance
Prime Minister Shehbaz Sharif has dissolved the Pakistan Public Works Department known as Pak PWD for its poor performance.
Pakistan Public Works Department (Pak PWD) owes its origin to pre-partition days and the system of government. After the independence, a gigantic task of rehabilitation of refugees and establishment of offices/ residences was entrusted to it which was successfully copied with the office accommodation in AM Area Karachi and Central Government Residences in Martin Clayton Jahangir Road and Pakistan Quarters are still in service and reminds the job accomplishment in most tiring conditions.
Pak PWD has also played a vital role in the construction of Roads, Bridges, and Airports, few examples include the re-modeling of Jacobabad Airport, Dhok Matcal Bridge Priwadhai and carriageway from Zero Point to Faizabad Islamabad, the renovation of Flag Staff House Karachi, Renovation of GPO Lahore, Construction of Custom House Karachi, etc.
Prime Minister Muhammad Shehbaz Sharif, said communication directed for the immediate dissolution of the Pakistan Public Works Department (Pak PWD) due to years’ long poor performance and corruption.
The prime minister issued a directive during a high-level meeting held on reducing the government expenditures and the size of its infrastructure, PM Office Media Wing said in a press release.
During the meeting, the prime minister observed that Pak PWD as a department had failed to achieve its objectives and asked for alternate mechanisms for the development projects which were tasked to Pak PWD.
The meeting was attended by Deputy Prime Minister and Foreign Minister Mohammad Ishaq Dar, Minister for Planning Ahsan Iqbal, Minister for Finance and Revenue Muhammad Aurangzeb, Minister for Economic Affairs Ahad Khan Cheema, PM’s Adviser on Political Affairs Rana Sanaullah, Minister of State for Finance and Revenue, Deputy Chairman Planning Commission Jehanzeb Khan and other relevant senior officials.
For the reduction of government expenditures, the prime minister was apprised of a report compiled by a committee headed by Chairman Deputy Planning Commission Jehanzeb Khan.
The committee had recommended for abolishment of certain government entities and merger of others.
The prime minister directed the committee for finalization of further recommendations.