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Daiichi Jitsugyo Commences Construction for Hydrogen-Fueled Aluminum Melting Demonstration Project

Key facts

  • Daiichi Jitsugyo Commences Construction for Hydrogen-Fueled Aluminum Melting Demonstration Project
  • Daiichi Jitsugyo Co., Ltd. has completed construction and relocation of equipment for a hydrogen-fueled aluminum melting demonstration project at DENSO HARYANA's facility in Haryana, India, contributing to carbon-neutral automotive component manufacturing.
  • Source: PR TIMES
  • Date: Thu Jun 18 2026 00:31:49 GMT+0900 (Japan Standard Time)

Direct answer

Daiichi Jitsugyo Co., Ltd. has completed construction and relocation of equipment for a hydrogen-fueled aluminum melting demonstration project at DENSO HARYANA's facility in Haryana, India, contributing to carbon-neutral automotive component manufacturing.

Citation
Daiichi Jitsugyo Commences Construction for Hydrogen-Fueled Aluminum Melting Demonstration Project (Thu Jun 18 2026 00:31:49 GMT+0900 (Japan Standard Time)), PR TIMES
Source
PR TIMES
Date
Thu Jun 18 2026 00:31:49 GMT+0900 (Japan Standard Time)

AI Summary (NQ-processed)

Daiichi Jitsugyo Co., Ltd. has completed construction and relocation of equipment for a hydrogen-fueled aluminum melting demonstration project at DENSO HARYANA's facility in Haryana, India, contributing to carbon-neutral automotive component manufacturing.

AI Analysis

Frequently Asked Questions

Q: What is the core technology in this demonstration project?
A: Hydrogen combustion for aluminum melting combined with vacuum low-pressure casting to produce high-precision, carbon-neutral components.
Q: Is Daiichi Jitsugyo developing the technology itself?
A: No, its role focuses on equipment retrofitting, relocation, construction, and on-site operational support.
Q: Will this lead to mass production in the future?
A: Data from the demonstration will inform scalability, with full-scale deployment expected in the future.
Q: Who is responsible for hydrogen supply?
A: The local hydrogen station is being built by our subsidiary, but the supply source will be contracted separately.
Q: Can this technology be applied to other metals?
A: The core hydrogen combustion principle is transferable, but optimization is needed for metals beyond aluminum.