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A senior executive at Siemens has indicated that artificial intelligence is poised to become a significant contributor to worldwide electricity demand, as the swift proliferation of data centers places mounting stress on energy systems. In a discussion with Qatar News Agency (QNA), Hakan Ozdemir, who serves as CEO of Siemens Smart Infrastructure Middle East and Siemens Qatar, characterized AI and digitalization as the two foundational forces driving change in the energy industry.
Ozdemir cautioned that the increasing use of AI technologies will markedly raise power consumption due to the computational requirements involved. He noted that electricity usage by data centers is anticipated to double by 2030, with cooling systems representing 30% to 40% of their overall energy use.
Data from the Siemens Infrastructure Transition Monitor: Middle East 2026 survey revealed broad recognition of these issues. The survey indicated that 62% of senior executives think AI will transform infrastructure operations within the coming three years, and 57% stated they are currently employing AI technologies to aid in cutting carbon emissions.
Rather than curbing investment in AI, Ozdemir contended that the focus should be on leveraging the technology to enhance the efficiency of the infrastructure that supports it and the energy systems that supply it. He pointed out that Siemens provides integrated offerings covering utility power grids, intelligent buildings, and technologies that can lower the energy needed for data center cooling by as much as 30%.
Regarding the influence of digitalization on the energy transition, Ozdemir remarked that it has emerged as the primary catalyst for change in the sector. The survey found that 68% of Middle Eastern organizations view digitalization as the most critical factor enabling the energy transition. He added that digital tools have progressed beyond merely supporting sustainability objectives to achieving concrete operational gains through live data, enhanced visibility, and more sophisticated control mechanisms.
Ozdemir underscored the constrained capacity of power grids as a major hurdle to speeding up the move toward cleaner energy. The survey showed that 62% of participants consider current grid infrastructure a barrier to broader electrification. He argued that upgrading electricity grids involves more than just increasing capacity; energy systems must be reengineered to incorporate energy storage, adaptable demand management, advanced digital controls, and data integration, while also fostering cooperation among utilities, governments, and large energy users.
The Siemens Infrastructure Transition Monitor: Middle East 2026 also revealed that 64% of respondents view smart grids and grid management software as essential facilitators of the energy transition, and 66% believe that electricity, gas, hydrogen, and transport systems ought to be overseen via a unified digital platform.
Ozdemir stated that evolving energy consumption patterns are creating a need for tighter coordination between grid operators and major industrial consumers. As additional data centers, green hydrogen plants, and industrial sites link to power networks, electricity consumption, storage, and local generation must be handled in real time to optimize efficiency and dependability.
He also highlighted the rising significance of cross-border electricity links, calling them a key element for bolstering the resilience and reliability of power supplies. The Siemens index placed regional grid interconnection among the top three priorities for the future of electricity networks in the Middle East. Ozdemir referenced advancements achieved through the Gulf Cooperation Council’s electricity interconnection network and the Saudi Arabia-Egypt electricity interconnection project, stating that both initiatives establish the groundwork for a more unified power grid connecting the Middle East and North Africa, with possible future links to European networks.
Looking forward, he suggested that the next stage of regional collaboration should extend beyond physical connections to the creation of intelligent electricity networks capable of exchanging data in real time and employing artificial intelligence to refine grid management. According to the survey, 70% of respondents think that increased data sharing between energy producers and consumers would directly enhance the efficiency of energy systems.
Ozdemir concluded that technologies such as smart grids, digital substations, and AI-driven grid management systems would contribute to constructing a more cohesive and robust electricity infrastructure, while also supporting regional energy integration and the enduring sustainability of the power sector.
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