Skip to the main content.

DOSOTHERM DTI: Revolutionizing Aluminum Dosing

Støtek introduces the DOSOTHERM® DTI — a cutting-edge dosing furnace that integrates precision dosing technology with immersion heating.

Støtek introduces the Dosotherm® DTI:
A cutting-edge dosing furnace that integrates precision dosing technology with immersion heating


This innovative integration brings forth:

Unprecedented productivity and quality: Enhanced productivity, superior metal quality, and reduced loss, maintenance, and operating costs.

Market-leading dosing accuracy: Unmatched dosing accuracy is achieved through a unique, pressurized ceramic dosing unit.

Optimized safety: Engineered for heightened safety in aluminum casting operations.

Possibility for closed-system metal transfer: Ensures utmost safety and minimal oxidation for impeccable metal quality. Read more about closed-system metal transfer with our dosing unit- or pro-dose technology

Efficiency and uptime: Seamless operation with uninterrupted maintenance, cleaning, and filling during production.

Cost savings: A potential cost reduction that reduces up to 75% of the costs.

Versatile Applications

With multiple configuration possibilities, these furnaces cater to various application sizes, accommodating individual layout requirements.


Tailored Configurations

Customize your furnace with a range of options:

  • Capacities from 1500 kg to 8000 kg
  • Pro-dose for improved metal quality, increased productivity, and even lower filling height than the standard Dosotherm®
  • Degassing
  • Profinet and profibus communication

Explore Dosotherm® DTI — setting new benchmarks in dosing precision, safety, and efficiency for aluminum casting operations.

To further optimize and increase productivity and safety, a pre-heat station for the dosing unit and transport ladle and -heater can be considered.

Key Features

  • Precise dosing: Accuracy down to +/- 1% based on dosing weight

  • Immersion heater submerged in the melt

  • High-performance design: Superior insulation and refractory materials for extended lifetime and energy efficiency