Inter Pipeline Ltd. announced it has successfully commissioned its polypropylene (PP) plant and has begun initial production. Branded Heartland Polymers, the operation is the only one of its kind in North America, offering the market one of only two new sources of PP in over a decade. Due to its unique location, modern design and technology and transport optionality, Heartland is expected to be one of the most sustainably produced, reliable options in the industry.

Construction of the Heartland Petrochemical Complex began in early 2018, and it is expected to convert locally sourced, low-cost propane into 525,000 tonnes per year of PP, a high value, multi-use plastic that is easily transported and can be recycled. This polymer is used in the manufacturing of a range of finished products such as food packaging, textiles, healthcare products and medical supplies. Once fully in-service Heartland is expected to create a step change in annual cash flow generation for Inter Pipeline, with approximately 70 per cent of the output contracted on a nine-year weighted average.

The PP plant was commissioned using PGP feedstock from a cavern at Inter Pipeline's Redwater Olefinic Fractionator. The primary source of feedstock will be an on-site PDH plant, where propane will be turned into PGP. The propane dehydrogenation (PDH) plant is expected to enter integrated service with the PP plant in the third quarter of this year, making it the first integrated complex of its kind in North America.

The optionality of both the storage cavern and direct on-site PGP production ensures exceptional reliability for customers. Deliberate design and technology choices paired with local feedstock means Heartland is expected to generate 65% less greenhouse gas than average global PP facilities around the world. Due to its integrated nature, the Complex is designed to utilize by-products ethane and hydrogen to fuel power production in the cogeneration unit (CUB) to make up approximately 32% of the operation's total fuel usage, reducing the total carbon footprint by approximately 130,000 tonnes annually.

Additionally, the design choice to utilize air cooling instead of water cooling in the operation has a significant impact on the amount of water used at Heartland. When fully in service, the Complex is expected to utilize 80% less make-up water than water cooled operations.