Sustainability

The Baytech Committment

For us, sustainability is more than just a goal. It is a responsibility. As a leader in plastics manufacturing, we are committed to reducing environmental impact through responsible sourcing, innovative production methods, and continuous improvement in energy efficiency and waste reduction.

By integrating sustainable practices into every stage of manufacturing, we help our clients meet their environmental goals without compromising on quality, performance, or scalability.

Material Efficiency

We maximize the use of recyclable and lightweight plastics to reduce material waste.

Energy Conservation

Our facilities leverage energy-efficient machinery and processes to minimize carbon footprint.

Waste Reduction

We implement closed-loop recycling and lean manufacturing strategies to optimize resource use.

Sustainable Partnerships

We collaborate with suppliers who share our commitment to responsible material sourcing and eco-conscious manufacturing.

Baytech Contributing to the Circular Economy

Baytech contributing to the circular economy

Sustainability – Waste Reduction & Leveraging Recycling

Commitment to minimize the waste stream from our manufacturing processes, driving toward <1% waste,
Internal defective parts are fed back into the production stream where reprocessed material is permitted.
Work with customers to help light-weight part design, standardize on common resins or use reprocessed resins where possible to help reduce resin consumption and encourage reprocessed options.
Promote common resins to minimize material delivery and encourage bulk silo storage reducing packaging and transportation

Resin Consumption Virgin and Reprocessed Graph

Reduction of CO2e Utilizing Reprocessed Polypropylene Graph

Energy Efficiency – Reduce Consumption

9 injection molding machines converted to servo-pump systems – 62% decrease in energy
Dedicated shunting road between our plant and warehouse to reduce transportation distance
Addition of fully electric machines from hydraulic based systems
Updating robots to servo controlled, energy and cycle reduction
Capacitor bank to improve Power Factor
High efficiency compressors, resin drying systems and chilled water systems
Door seals, air curtains and LED lighting all contributing to reducing carbon footprint

CO2e Metric Tons Reduction Efficiency Projects Graph

Relative Energy Consumption Graph - Transition hydraulic to servo-pump-system

Growing the Skills and Talents for Business Sustainability

People development – develop the skills internally to ensure we can serve our customers far into the future
ERP – ensuring our business systems provide us the latest technology to gain insights into our performance and opportunities to build a resilient future
Technology – commitment to invest in technology to reduce energy usage, drive productivity and ensure a high-level of quality
Support the local economy with career and growth opportunities

manufacture 2030 member Member of Manufacture 2030, a climate tech platform business that helps companies hit their carbon reduction targets.

Tracking CO2e reductions
Leverage project ideas for CO2e reductions
Global community to leverage and share ideas

“When it comes to manufacturing plants and processes, we need to balance the economic need for profitability, the environmental needs of the planet and the health and safety needs of the people.” Richard Howells and Sin To