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Measurement and Testing TALKING POINT Why is COP28 uniquely important?
As the world braces for the pivotal COP28 climate summit in Dubai, expectations are surging regarding commitments, negotiations, and innovations that could emerge. This conference is not just another meeting, but a critical juncture in the global fi ght against climate change, marking the fi rst comprehensive assessment of the Paris Agreement’s impact and setting the tone for future climate initiatives.
The stakes at COP28 are exceptionally high. Following a spate of natural disasters exacerbated by climate change, public and scientifi c communities are urging for more aggressive climate action. Moreover, the summit’s occurrence after the fi rst global stocktake makes it a strategic point for countries to reassess and ramp up their Nationally Determined Contributions (NDCs).
One of the foremost expectations is a signifi cant leap in commitments to emission reductions. The urgency to adhere to the 1.5°C temperature threshold has never been more pressing, with current commitments still mapping a trajectory well beyond this limit. As such, all eyes will be on major economies to uphold and advance their carbon neutrality pledges, with anticipations particularly high for the host country, the UAE, and other heavy fossil fuel users to present clear, decarbonisation roadmaps.
The role of technology in addressing climate change will also be under the spotlight. Innovations in renewable energy, carbon capture, sustainable agriculture, and green urban planning are expected to feature prominently in discussions. Countries will likely showcase their strides in integrating these technologies, while debates may unfold around technology transfer strategies to ensure lower-income countries can also benefi t.
Financial commitments for climate mitigation and adaptation in developing countries will be another focal point. The unmet goal of mobilising $100 billion annually for developing nations has been a sticking point in previous summits. At COP28,
developed countries are expected to come under intense pressure to honor this commitment, outline clear pathways to achieve and possibly exceed this target, and ensure transparent and equitable access to these funds.
Additionally, COP28 is anticipated to delve deeply into sector- specifi c strategies for achieving broader climate goals. This includes addressing the carbon footprint of hard-to-abate sectors like shipping, aviation, and steel production. There will likely be discussions centered on the implementation of more sustainable practices, the role of carbon markets, and sectoral carbon pricing as tools for driving down emissions across these industries.
Adaptation strategies are also expected to command attention at COP28, especially in the wake of increasing climate-induced catastrophes. Countries are expected to elaborate on their plans to fortify their defenses against extreme weather events, sea-level rise, and other climate impacts. This discourse is particularly crucial for small island nations and countries with less fi nancial capacity to implement robust adaptation measures.
One cannot overlook the social dimensions of climate change, an aspect that will hopefully take center stage in COP28. Discussions are anticipated around climate justice, emphasising the need for actions that consider the rights and needs of indigenous communities, marginalised groups, and those most vulnerable to climate impacts. Policies ensuring a just transition for workers and communities currently reliant on high-carbon economies will also be essential.
Given the UAE’s unique position as a major oil producer, an intriguing aspect will be how the nation balances its carbon-intensive economic drivers with the global push for decarbonisation. The event could serve as a stage for the UAE to assert its leadership in renewable energy, particularly solar, and to potentially introduce initiatives that reconcile its fossil-fuel-based
ABB awarded for excellence in emissions monitoring
This year’s Frost & Sullivan award for vision, innovation and technical expertise in emissions monitoring and methane gas leak detection has been won by ABB, in recognition of their best-in-class portfolio of intelligent instrumentation and sophisticated gas analysis technology, along with the Swiss company’s efforts in supporting industrial carbonisation. Frost & Sullivan’s international panel of growth pipeline experts picked ABB because of its visionary grasp of future global challenges, the implementation of best practices and strategic analytics. The panel also considered ABB’s proud track in developing cutting- edge emissions monitoring technology that has moulded industry trends and
supported customers in conforming to ever more strict emissions regulations across the globe. Jean-René Roy, Global Business Line Manager of ABB Measurement & Analytics stated, “There has been a long-term commitment from ABB to the development of multiple innovative emissions monitoring and gas leak technologies that serve the broadest industry sectors worldwide. It is fantastic that Frost & Sullivan has recognised our collective achievement and leading technology through this award, and I would like to thank my team for their continued dedication to the cause.”
Carbon-intensive organisations need effi cient emissions management and reduction solutions more than ever to combat the impact of greenhouse gas emissions and comply with environmental legislation. The EU has recently passed a regulation to reduce methane emissions from energy companies, in the US, legislation stipulates that oil and gas companies must measure methane emissions precisely. ABB has an impressive array of technology that helps industries across the globe achieve fast, precise, and reliable data to enable them to take action to avoid polluting the environment, along with the legal action and negative publicity that follows. Cutting-edge hardware including the ACF5000 is the cornerstone of innovation at ABB Measurement & Analytics. ABB also offers the drone- based HoverGuard™ which is capable of measuring methane emissions down to one part per billion (ppb). ABB’s MobileGuard™ solution detects, maps, quantifi es and localises natural gas leaks in a moving vehicle. ABB provided the interferometer to the Japanese GOSAT program and optical sensors to the GHGSat project to pinpoint individual industrial facilities’ carbon dioxide emissions from space. ABB’s portfolio also includes condition monitoring solutions to enable the early identifi cation of equipment issues saving industrial plants valuable time and money.
According to Frost & Sullivan, ABB’s highly advanced, digitally enabled devices and solutions for measuring industrial processes and greenhouse gas emissions, detecting gas leaks, and optimising production achieve cost-effective compliance and effi ciency on a long-term basis. ABB’s extensive range of instrumentation and gas analysis technology also includes continuous emissions monitoring systems (CEMS) used in a wide variety of industrial applications. ABB’s range also boasts the inclusion of ABB Ability™ Natural Gas Leak Detection Solutions, a comprehensive suite that detects and maps gas leaks with unsurpassed precision. To achieve collective, coordinated action across the globe, the United States Department of Energy has awarded ABB a grant to develop a single repository platform that will, for the fi rst time, aggregate, analyse, and visualise methane data from multiple sources. This project will facilitate a considerable drop in methane emissions, pollution, and waste, achieving remarkable progress in reaching climate change targets.
ABB’s technology is also being used to overcome the huge environmental catastrophe caused by millions of leaking orphan oil and gas wells across the USA; their extremely sensitive analysers, featuring state-of-the-art OA-ICOS™ laser- based technology can detect methane emissions from decommissioned wells down to one ppb.
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economy with a commitment to a sustainable energy transition.
Public and private partnerships are also expected to be a highlight of the conference. The role of non-state actors, including cities, regions, companies, and investors, in climate action has grown signifi cantly. COP28 offers a platform for announcing new alliances, commitments by corporations towards net-zero targets, and initiatives refl ecting the global momentum towards a green economy.
Lastly, amid the ongoing COVID-19 pandemic, health safety will be an underlying concern throughout the conference. The crisis has underscored the profound connection between human health and ecosystems, potentially infl uencing discussions on zoonotic diseases, healthcare resilience, and the importance of a ‘One Health’ approach that unites environmental, animal, and human health strategies.
COP28 arrives at a time when the need for action is intersecting with an unprecedented awareness and desire for change. The summit is expected to navigate these complex, interwoven challenges with agility and a renewed commitment to a holistic approach. The world is watching, waiting for transformative actions that will steer our planet towards a sustainable, inclusive, and resilient future.
Thermal imaging cameras new, enhanced protection design improves clarity and accuracy while reducing maintenance requirements
AMETEK Land has revealed an industry-leading protection design for thermal imaging cameras without the compromise of a wire grid.
This new, proven, protective housing has been developed by AMETEK Land for thermal cameras in challenging installation conditions and offers many distinct benefi ts around optical clarity, temperature accuracy, improved effi ciency and lower maintenance.
Thermal imaging camera housings must meet impact test requirements, so a wire grid or mesh is typically installed in front of a germanium window, which acts as a protective layer to absorb and disperse impact energy.
Germanium windows are completely impermeable to ultraviolet and visible light, giving them a dark, metallic appearance to the naked eye. When it comes to the infrared range, it has an excellent, broad transmission range from 2-16 μm, making it an ideal candidate for mid-wave-infrared (MWIR) and long-wave- infrared (LWIR) applications.
LAND’s protective housing uses a germanium window, but without an additional wire grid, that still satisfi es the Ex d impact test requirement. It also reduces exposure to high temperatures and corrosive, outdoor environments, and also ensures the thermal imaging camera is not a potential source of ignition.
James Cross, AMETEK Land’s Global Industry Manager for Hydrocarbon Processing Industries, said: “By using the gridless concept on several installations, the AMETEK Land LWIR in EXSH housing has provided LAND’s famed crystal- clear images with highly accurate, sensitive, repeatable temperature data. End- users increasingly demand higher accuracy temperature values to achieve better yields, improved effi ciency, and longer maintenance intervals, and we expect the demand for gridless housing designs to increase with it.”
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