Italy’s Margen S.p.A. has completed a project in Angola to supply a total of more than 4.5 MVA of on-site power to underpin food security in the country

The project involved the shipment of two high-capacity power plants, each of 2,270 kVA, designed and tested in-house to meet a critical need: ensuring uninterrupted energy backup for the African country’s large cold storage facilities.

Powered by heavy-duty Perkins motors, the two high-capacity units are designed to ensure immediate response and continuous cooling, protecting temperature-sensitive products from any network instability.

“Reliability is essential when food safety is at stake,” a company statement noted.

“In contexts where the stability of the cold chain is directly related to the security of supply, the choice of heavy-duty Perkins engines is strategic, configured to ensure immediate response times and total operational resilience even in the presence of an unstable national electricity grid,” Margen S.p.A. reported in a recent social media post.

“This order is not only a logistical milestone, but also reaffirms the company's technological ability to customise MPS power plant solutions for complex global infrastructures, where the protection of temperature-sensitive goods leaves no margin for error,” it added.

“By exporting innovation from its headquarters to emerging markets, Margen confirms itself as a strategic partner for major international development projects, enhancing the technical rigour and reliability of ‘Made in Italy’ at every latitude.”

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The African Development Fund (ADF) has approved a US$59.8mn loan to support the rehabilitation of a key transborder road section linking Benin and Togo

The project forms part of efforts to boost regional trade and economic integration across West Africa.

The financing will fund the rehabilitation of 78.8 kilometres of road between Kara and Kabou along the Benin-Togo border as part of the first phase of the Transit Roads and Transport Facilitation Project on the CU18 corridor.

The project is co-financed by the ADF, the concessional lending arm of the African Development Bank (AfDB), the Islamic Development Bank (IsDB), the West African Economic and Monetary Union (WAEMU) and the governments of Togo and Benin.

“This vital corridor will help strengthen economic competitiveness, accelerate the opening up of the inland areas of Benin and Togo, and consolidate sub-regional integration,” said Lamin Barrow, director general for West Africa at the AfDB.

The project includes the upgrading of the corridor stretching from the Benin border at Ouaké through Kémérida, Soundjina, Kara, Djamdé and Kabou into a 3.5-metre dual carriageway, with a six-lane section through the city of Kara.

It will also support the construction and rehabilitation of socio-economic and educational infrastructure, strengthen transport services and logistics along the corridor and introduce measures to reduce trade barriers and improve traffic flow.

Of the total ADF funding, US$50.3mn has been allocated to the Togolese section of the corridor, while the Beninese section will receive US$9.5mn.

Capacity-building programmes for various project implementing agencies and other groups are also planned.

Poor road conditions and high transport costs have long constrained economic activity and mobility in the region, disproportionately affecting vulnerable populations, particularly women engaged in cross-border commerce and market gardening.

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Ivanhoe Energy is advancing its on-site power projects for the Kipushi and Kamoa-Kakula mine sites in the Democratic Republic of Congo (DRC)

Kipushi is set to become the world’s fourth-largest zinc producer in 2026, the Canadian mining group said in a 4 June statement.

It achieved a monthly production record of 25,677 tonnes of zinc in concentrate during May.

Year-to-date zinc production totals approximately 110,000 tonnes of zinc, it added.

Annualised, this is equivalent to around the mid-point of the company’s 2026 production guidance range of 240,000 to 290,000 tonnes.

Kipushi is now tendering for a dedicated solar project with up to 200 megawatt hours (MWh) of battery energy storage (BESS).

The facility would provide 10MW of baseload power, reducing reliance on the backup diesel generators that are used intermittently.

The facility is to be located on a 70-hectare site near the mine, and it is expected to be operational by the end of 2027.

Construction of Kipushi’s second tailings storage facility expansion is now nearing completion as the mine site expands.

Separately, Ivanhoe Energy recently posted an update on its other major DRC energy project to expand the Kamoa-Kakula copper complex.

Construction of Kamoa-Kakula’s on-site solar (PV) facility, with battery storage, is advancing on schedule, the company reported on 6 May.

The two facilities are expected to be operational, delivering a total baseload of 60MW to the site, from early Q3 2026.

The solar facility is already the largest solar project with battery storage on the African continent.

Kamoa-Kakula is further planning to increase the total on-site solar power generation capacity, with battery storage, to 120MW by the end of 2027.

A tender was awarded, and a power purchase agreement (PPA) was signed in late April for an initial 30MW expansion of the existing on-site solar facilities.

A further 30MW facility is being tendered and is expected to be awarded imminently.

Preparations have also been made across the group to secure on-site diesel supplies in the event of continued global supply chain disruptions.

This includes Kamoa-Kakula securing five months’ worth of diesel supply.

The company reported that its use of backup diesel generators is to be curtailed to rationalise diesel consumption, amid higher fuel prices and supply chain challenges.

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Spiro has announced a US$215mn investment to accelerate the deployment of its electric mobility and battery-swapping infrastructure across Africa

Building on the support of long-standing institutional partners such as FEDA, its latest equity round draws capital from Europe and Africa, with investors such as Impact Fund Denmark and Equitane.

In a statement, Spiro said it confirmed growing global confidence in scalable infrastructure-led business models in Africa and other emerging markets.

The company added that it is looking to execute its next chapter of pan-African expansion.

“This investment will support the expansion of Spiro’s battery-swapping network, strengthen its industrial and assembly footprint, accelerate technology development and support the company’s entry into new high-growth African markets,” it noted.

With operations across seven African markets — Kenya, Rwanda, Uganda, Togo, Benin, Nigeria, Cameroon — it now looking to further expand local production and enter new territories, including Ethiopia and the Democratic Republic of Congo (DRC).

“This past year marked a defining strategic milestone for Spiro,” said Gagan Gupta, founder of Spiro and chairman of Equitane, an investment platform committed to African long-term growth.

“Across seven active markets, our deployment of 100,000 electric vehicles and 2,500 smart-swap stations has turned sustainable mobility into an affordable, everyday reality.”

Gupta also noted that Spiro has become a major driver of local industrialisation, value creation and manufacturing across African markets with 6,000 sustainable direct and indirect jobs.

Its industrial footprint includes manufacturing plants in Kenya, Rwanda and Uganda, alongside a state-of-the-art battery recycling facility in Nigeria.

“Supported by our global pool of investors, we are entering our next growth chapter to deliver clean, cost-effective energy and transport alternatives to millions of riders across the continent.”

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Africa’s first privately-financed sustainable aviation fuel (SAF) plant has secured funding from the Emerging Africa & Asia Infrastructure Fund (EAAIF) and various Middle Eastern investors

The deal expands EAAIF’s footprint into the Middle East North Africa (MENA) region, following its ongoing expansion into Asia.

The US$212mn clean fuels project, located in Egypt’s Sokhna Special Economic Zone, will be owned and operated by Green Sky Capital Limited together with its local subsidiary, SAF Fly Egypt.

EAAIF, a Private Infrastructure Development Group (PIDG) company managed by Ninety One, supported a senior secured loan of US$40mn for the development of the plant.

The transaction marks the first project-financed SAF plant in the MENA region.

The facility is designed to produce 200,000 tonnes per annum of biofuels, including SAF, Hydrotreated Vegetable Oil (HVO), bio-propane and bio-naphtha and will utilise commercially proven Hydroprocessed Esters and Fatty Acids (HEFA) technology to convert waste-based feedstock into high-grade sustainable fuel.

To ensure long-term bankability, the transaction will be anchored by Shell who will purchase the facility’s products on a take-or-pay basis and act as its primary feedstock provider.

Martijn Proos, co-head of emerging market alternative credit, Ninety One, the fund manager of EAAIF, said the transaction arrives at a critical juncture for the global energy market.

“Amid heightened geopolitical volatility and energy market uncertainty, this first-of-its-kind facility provides a practical solution to advancing both decarbonisation and energy security,”he said.

“By acting as the global mandated leadarranger, Ninety One and EAAIF are demonstrating how institutional capital can be mobilised to support the decarbonisation of hard-to-abate sectors like aviation, which is projected to account for 5% of global emissions by 2050 without intervention.”

The project is being developed with the support of regional sponsors, including Al Mana Holding, a Qatari diversified conglomerate, and Vision Invest, a Saudi Arabian infrastructure investor and developer.

Ninety One acted as the global mandated lead arranger and coordinating lender, facilitating the mobilisation of a total debt package of US$142.9mn with a US$40 million commitment from EAAIF and Ninety One’s Emerging Markets Transition Debt (EMTD) Fund.

Ninety One has also mobilised the participation of Qatar National Bank (QNB) via its Egyptian subsidiary, QNB S.A.E, with a commitment of up to US$31.4mn.

The debt financing was completed by The Arab Energy Fund, which acted as co-MLA and global structuring lender committed US$71.4mn to the project.

SAF is estimated to offer up to an 80% reduction in CO₂ emissions, compared to conventional jet fuel, supporting the aviation industry’s target of reaching net-zero by 2050.

The project's strategic location near the Suez Canal offers a direct export route to key demand centres in the EU and UK, which are currently implementing strict SAF mandates.

The transaction also demonstrates strong appetite among regional and international lenders for renewable fuels infrastructure, supporting both energy security and price stability amid heightened global volatility.

“Emerging markets have been transitioning toward renewables and cleaner energy sources for some time, driven by rising energy costs and the need to strengthen energy security,” said Alper Kilic, head of alternative credit, Ninety One.

“This investment highlights the critical role long-term capital plays in scaling next-generation energy infrastructure in emerging markets.”

He added that sustainable aviation fuel is “one of the most compelling – and challenging – decarbonisation pathways” requiring proven technology and strong commercial structures to deliver at scale.

“This project demonstrates how institutional investors can pursue attractive risk-adjusted returns while supporting the real-economy transition, and underscores the growing opportunity for transition debt strategies to finance high-impact assets in hard-to-abate sectors.”

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Innovative technology for ‘shrinking’ catalytic converters - designed and built in South Africa by Jendamark Automation for the global market - relies on the precision of SEW-EURODRIVE’s highly dynamic servo-geared units and software

Based in Gqeberha in the Eastern Cape, Jendamark Automation is a specialist in advanced automated assembly systems for powertrains, catalytic converters, hydrogen technologies and other automotive components. Yanesh Naidoo, executive innovations director at Jendamark Automation, says that 95% of the locally produced machines are exported and are in operation in Europe, India and the USA.

"The shrinking machine - or ‘shrinker’ - is a core component within our catalytic converter assembly cell," commented Naidoo.

“This cell is a highly automated production environment in which multiple machines, robots and laser measurement systems operate in coordination.”

The process begins with the core of a catalytic converter - a ceramic ‘brick’ or monolith, coated with precious metals such as platinum and palladium, that converts exhaust gases into less harmful emissions. This brick is wrapped in a thick spring-like insulation mat and inserted into an outer casing (or can) of stainless-steel. In this process, there are many variable factors to consider, he explains.

“Because the ceramic monolith is extruded and baked, its diameter can vary slightly - by two or three millimetres in a passenger vehicle converter and up to ten millimetres in a truck converter,” he said.

“This makes the size of every monolith slightly different.”

To secure the monolith inside the casing with the right spring load, the casing itself has to be adapted. This is the key function of the shrinking machine - to reshape the stainless steel casing to the exact diameter required for each brick and mat combination. Shrinking stainless steel to tolerances of 50 microns requires enormous force and control which the shrinker achieves by closing a set of heavy tapered segments around the can.

“For a passenger vehicle converter we use twelve segments, while for a commercial vehicle converter - which is larger - we use sixteen,” stated Naidoo. “We pull a massive steel ring back over those segments and as the ring moves the segments close in, collapsing the can evenly around the monolith.”

Driving that motion are two powerful SEW-EURODRIVE servo motor systems, each connected to precision roller screws that pull the ring from both sides. Synchronizing those drives is critical.

“If one side is pulled just a few millimetres more than the other, this will damage these very expensive roller screws,” he explains. “This is where SEW-EURODRIVE’s technology comes into its own; the drives and controllers keep the two motors synchronised to within very fine tolerances, even at the high speeds we need to hit our 30 second cycle times.”

The speed at which Jendamark Automation’s shrinker operates is one of its critical advantages, Naidoo emphasises, and this has been achieved through its innovative tool changer. He explains flexibility is particularly important in converter production for commercial-vehicles as variants change every few hours. Traditionally, each change required a lengthy manual tool change which would mean two to three hours of downtime.

“This is why we developed an automatic tool change system for the shrinker,” he says. “We have got two cartridges outside the machine, one of which is preloaded with the next set of 16 segments. When the operator hits ‘tool change’ the machine ejects the old set, inserts the new one and locks everything down - all automatically in about 45 seconds.”

That innovation, also powered by SEW-EURODRIVE servo drives, has transformed productivity.

“We have reduced tool changing times significantly, giving our customers more production time per shift, allowing them to produce around 80 additional parts,” he says. “With two or three tool changes a day, the gains are massive.”

The entire catalytic converter assembly cell can contain up to 30 SEW-EURODRIVE servo drives, powering and synchronising multiple machines – from laser measuring systems to robotic handlers. Behind the scenes, Jendamark’s proprietary Variant Manager software orchestrates these movements.

“Every part coming down the line is slightly different, so every 30 seconds a new set of parameters - such as diameters, spring loads and positions - is sent to the drives,” Naidoo continued. “There are no fixed positions so it is completely dynamic, adapting in real time.”

Parallel to this performance, he adds, is an equivalent focus on reliability as customers require minimal downtime to ensure that their processes and products remain viable. He notes that a USA customer, Cummins (through its acquisition of Faurecia’s USA factory), has been running Jendamark’s shrinker for almost six years - during which time it has produced over three million catalytic converters.

“Apart from greasing the screws, there has been no major maintenance and no drive failures at all,” he stated. “That is a testament to the robustness of our overall design and of the reliability of SEW-EURODRIVE equipment.”

The customer was so impressed that it decided to standardise globally on Jendamark’s machines.

“They had two other suppliers’ machines next to ours on the same line,” commented Naidoo. “Now they’re replacing those with Jendamark machines, because of reliability and consistency of quality.”

Phillip Steyn, Branch Manager at SEW-EURODRIVE in Gqeberha, says the project exemplifies how advanced motion control systems enable complex automation.

“Our MOVIAXIS multi-axis servo system, combined with our efficient servo motors and dynamic gearboxes, provides the accurate positioning and torque that this machine needs,” remarked Steyn. “The challenge was to deliver very high torque while maintaining precise synchronisation and feedback at rapid speeds.”

He notes that it is easier to be accurate when machinery is moving slowly but it becomes much more challenging in the context of high speed machines like this one. SEW-EURODRIVE’s control architecture ensures that every motion - from the synchronised pulling of the ring to the positioning of the auto-tool change mechanism - is tracked and verified before the next cycle begins.

“There is a great deal of feedback between the drive and the upper level controller,” Steyn explained. “The system scans the input data - the product types and can sizes - and adjusts torque and position in real time. It is the brain and the muscle working together.”

Naidoo highlights the value of SEW-EURODRIVE’ integrated unit - the motor, gearbox and drive - which is already matched for torque and speed.