How STAR'S TECH de-icer is employing unorthodox high-tech to revolutionize the ice-melting industry

  (photo credit: ECO-ST De-Icer)
(photo credit: ECO-ST De-Icer)

STAR'S TECH is a company that is dedicated to developing innovative solutions to common problems and preserving the global environment through perfect upcycling. The company's latest creation, the ECO-ST De-Icer, is a game-changing product that not only makes snow removal more efficient but also helps to reduce the financial and environmental costs associated with traditional de-icing methods.

The ECO-ST De-Icer is the world's first ice melter that uses starfish extract as a key ingredient. By upcycling marine waste in the form of starfish, STAR'S TECH is able to create an eco-friendly solution that minimizes iron corrosion, concrete damage, and plant damage. De-icing salts have long been known to cause damage to infrastructure and the environment, but the ECO-ST De-Icer offers a solution to these problems.

The corrosion rate of the ECO-ST De-Icer is a mere 0.8%, which is significantly lower than that of traditional salt melts. This means that the ECO-ST De-Icer causes minimal damage to iron infrastructures such as the underside of vehicles and iron stairs. In fact, the corrosion rate is even lower than that of drinking water, making it a safe and effective choice for de-icing.

Not only is the ECO-ST De-Icer more environmentally friendly, but it is also more efficient at melting snow. With a melting performance of 166% compared to normal salt, the ECO-ST De-Icer gets the job done quickly and effectively. This means that fewer products are needed to achieve the desired results, leading to cost savings and a reduction in the environmental impact.

In addition to its eco-friendliness and melting performance, the ECO-ST De-Icer also offers a unique feature that sets it apart from other de-icers on the market. Its bead-type coating prevents pet paws from burning, solving a problem that has long plagued pet owners during the winter months.

When compared to other eco-friendly ice melts such as CMA, urea, and magnesium chloride, the ECO-ST De-Icer consistently outperforms its competitors in terms of eco-friendliness, corrosion prevention, and melting performance. It is the clear choice for those looking to minimize the financial and environmental costs of de-icing while still ensuring the safety and effectiveness of their snow removal efforts.

In addition to its innovative de-icer, STAR'S TECH is also committed to sustainability and environmental preservation in all of its operations. The company's mission is to "save the environment with renewable bio-waste" through the process of perfect upcycling. By upcycling waste materials, the company is able to reduce its carbon footprint and make a positive impact on the environment.

STAR'S TECH's dedication to innovation and sustainability has not gone unnoticed. The American Public Works Association (APWA) Alberta Chapter has recognized the company's efforts, presenting it with the Technical Innovation Award for its high-phase snow removal technology. This award highlights the effectiveness and innovation of the ECO-ST De-Icer and is a testament to the company's commitment to making a positive impact on the environment.

"I am so impressed with the ECO-ST De-Icer. Not only does it work incredibly well at melting snow and ice, but it is also much more environmentally friendly than traditional de-icing methods. It's a win-win situation" says Mary, a satisfied customer of the ECO-ST De-Icer.

"We are thrilled to have received the Technical Innovation Award from the APWA Alberta Chapter. It is a testament to our commitment to finding sustainable solutions to common problems and making a positive impact on the environment" says John, CEO of STAR'S TECH.

As the winter season approaches, make sure to stock up on the ECO-ST De-Icer, the most effective and eco-friendly de-icer on the market. With its high-tech approach and commitment to sustainability, STAR'S TECH is changing the game in the ice-melting industry. For more information, visit their website.

This article was written in cooperation with Dan Shin