Hoto builds excellent projects, becomes respectable contributor

Goals of Hoto’s project construction

“Optimized project schedule, Low CAPEX & energy consumption, Competitive solution” are the goals of Hoto’s project construction.

Optimizing project schedules involves leveraging advanced project management methods and information resources to shorten construction periods.

Achieving low CAPEX and energy consumption entails using innovative technologies and advanced project management approaches to decrease both initial investment and ongoing operational costs.

Delivering competitive solutions involves ensuring that constructed projects exhibit enhanced competitiveness.

Hoto’s people have been diligently composing a beautiful melody of “engineering becoming better because of Hoto, and Hoto progressing because of engineering.”

Desulfurization leader

Hoto has emerged as a frontrunner in the field of desulfurization and sulfur recovery technology, with its innovative HSR (Highly Reliable Sulfur Recovery) technology paving the path for comprehensive sulfur management in engineering projects.

Specializing in engineering design and EPC (Engineering, Procurement, and Construction) turnkey services, Hoto ensures a seamless project experience, prioritizing forward-thinking technological advancements to propel the energy and chemical industries towards superior quality.

Trusted partner

Through extensive collaboration with prestigious institutions such as the Dalian Institute of Chemical Physics, Lanzhou Institute of Chemical Physics, Tsinghua University, and China University of Petroleum, Hoto maintains its position at the vanguard of technological innovation. This collaboration drives progress in both the energy and chemical industries.

Cutting-edge technology

Hoto, at the forefront of technology, drives the development of the energy and chemical industries! The petroleum and coal chemical sectors have developed unique engineering technologies. Industrialized processes include catalytic cracking, slurry bed oxidation, alkane dehydrogenation, olefin cracking, methanol-to-olefin conversion, and methanol-to-aromatics production.