Tata Group’s £4-billion push into gigascale battery manufacturing is shifting from steel and concrete to the make-or-break phase of production ramp-up. With its gigafactories in Somerset, UK, and Sanand, Gujarat, now structurally complete and moving into fit-out, the group has an 18-month sprint to convert capital intensity into stable, commercial-grade output.
Top company officials, aware of the developments, told businessline that structural steel work is complete at both sites, marking the shift to the shell-and-core phase. With civil construction complete at both the Somerset and Sanand sites, the focus has shifted decisively to industrialisation. “Converting a steel shell into a functional gigafactory hinges on three layers: cleanroom commissioning, supply chain alignment and workforce ramp-up,” they said.
Industry estimates suggest this transition — covering cleanroom installation and equipment calibration — typically takes 9–12 months. “The 40 GWh Somerset facility has moved into cladding and roofing, with pilot production targeted for late 2026 and commercial rollout by early 2027. Alongside, the 20 GWh Sanand plant in Gujarat is transitioning to systems and process installation, with trial production expected in early 2027," sources further clarified
Together, the two facilities form the backbone of Tata’s strategy to internalise battery supply across Jaguar Land Rover (JLR) and Tata Motors. For JLR, the Somerset facility is central to its electric transition, providing a stable, local battery supply for its upcoming premium EV lineup with high-energy-density NMC cells, including next-generation Jaguar models such as the electric GT and electric Range Rover platforms.
The India facility, by contrast, is expected to focus on LFP chemistry for cost-sensitive, high-volume EVs under Tata Motors’ Acti.ev architecture, covering newer models such as the Harrier EV and the upcoming Sierra EV, alongside the Nexon EV, Punch EV, Tiago EV, and the next-generation Avinya range. “Both plants are being engineered for flexibility, with lines capable of shifting across chemistries as demand evolves,” they explained
Funding meets execution
The £4-billion investment is a layered capital stack combining private investment with public support. The bulk is estimated at over £3 billion, and comes from the Tata Group through Agratas, funding core infrastructure, cleanroom environments and manufacturing equipment.
This is supplemented by UK government support, including a £380-million grant formally confirmed on April 9, 2026, during a site visit by UK Secretary of State for Science, Innovation and Technology Peter Kyle. The funding, part of a broader £700-million advanced manufacturing package under the DRIVE35 Automotive Transformation Fund, had been under subsidy review since late 2025 and is now cleared for deployment, alongside a £750-million bank loan secured last year.
The timing is critical, supporting the transition into cleanroom installation and equipment commissioning — the most execution-sensitive phase of a gigafactory build, where capital deployment peaks.
Localisation and the PLI play
Central to the Agratas strategy is localisation — both as a cost lever and a policy-alignment tool. By moving into cell manufacturing, Tata Motors is shifting from assembling battery packs to in-sourcing the single most expensive component of an EV, which typically accounts for 35–40 per cent of total vehicle cost. This also reduces exposure to global supply chain volatility and pricing pressures from third-party suppliers.
The linkage to policy is direct. Under India’s Production Linked Incentive (PLI) scheme for Advanced Chemistry Cells, incentives are tied to local manufacturing of battery cells and a phased increase in domestic value addition. Without in-house cell production, Tata Motors would remain dependent on imports and struggle to meet these thresholds. Agratas effectively enables compliance, allowing the company to capture incentives while lowering costs through localisation.
The approach echoes the vertically integrated playbook of Tesla and BYD, where control over cell manufacturing has been a key driver of cost efficiency and margins. Tata’s version, however, is calibrated to local conditions, with a sharper focus on cost-sensitive segments, tighter supply chain integration, and policy-linked incentives. Analysts also view the Sanand plant as a potential blueprint for India’s domestic battery manufacturing ecosystem.
Yield is the real test
Battery cells are highly sensitive to dust and moisture, making large-scale cleanroom environments a complex engineering challenge. Localisation efforts must extend beyond construction inputs to components and materials to guard against global supply disruptions.
Achieving a consistent, commercially viable yield is often more complex than construction itself. Early-stage plants tend to face elevated scrap rates, making the first six months of production a critical indicator of long-term viability. Stabilising production lines will be the key swing factor for valuation in 2027, even as initial prototype cells are expected ahead of full commercial rollout.
Execution risks, and how Agratas is addressing them
Workforce readiness remains a central challenge. In the UK, Agratas is working with Skills England to build a pipeline of trained operators, including a dedicated apprenticeship unit launched in March 2026, while also recruiting from sectors such as pharmaceuticals and aerospace where cleanroom expertise is transferable.
In India, the focus has been on execution speed and localisation. The Sanand facility, led by Tata Projects, has leveraged domestic sourcing for construction materials while integrating design and construction to reduce fit-out delays.
Even so, key risks persist. “Critical battery materials such as cathodes and anodes remain exposed to global supply chains and commodity volatility. Agratas’ dual-chemistry approach offers a partial hedge, but the yield ramp in 2027 could still see elevated scrap rates as processes stabilise,” said an industry observer.. “What remains is execution — whether Tata can convert scale into sustainable margins,” he further explained
Published on April 23, 2026




























