On Monday, May 26, 2025, students from the American Institute of Chemical Engineers (AIChE) ITB Student Chapter embarked on an immersive learning journey at PT Haldin Pacific Semesta, a leader in natural ingredient innovation. The visit, designed to bridge academic knowledge with industrial expertise, allowed participants to witness the full spectrum of natural ingredient processing — from raw material sourcing to product development across various applications — while emphasizing sustainability and cutting-edge research.
A Warm Welcome Rooted in Collaboration
The day commenced with an opening session led by Haldin’s Commercial Director, Andry, who warmly welcomed the group. “We’re excited to host aspiring engineers who represent the future of this industry,” he remarked. “At Haldin, we believe in sharing knowledge that empowers the next generation. Today, you’ll see firsthand how scientific theory evolves into real-world solutions that prioritize both quality and sustainability.”
Chief Operating Officer (COO), Evantono, reinforced Haldin’s mission, focusing squarely on the company’s environmental commitments. “Sustainability is the cornerstone of everything we do. From ethical sourcing to waste reduction, our goal is to prove that industries can thrive while respecting planetary boundaries,” he stated, setting a clear theme for the day’s activities.
Inside the R&D Lab: Innovation in Action
Guided by Haldin’s R&D team, students explored the company’s advanced research facilities across multiple divisions, including labs dedicated to flavor and taste, functional and nutritional ingredients, consumer care, and food applications. They observed how scientists employ green chemistry principles to extract natural compounds from ingredients like moringa and cascara (coffee fruit husk), transforming agricultural byproducts into high-value solutions. The team highlighted innovations such as a caffeine-free coffee alternative, sparking discussions on scalability, consumer trends, and the challenges of sustainable product design across different industries.
Precision in Practice: Quality Control Excellence
In the Quality Control (QC) laboratory, students observed rigorous testing protocols designed to ensure compliance with global standards. They witnessed how advanced analytical methods — including isotope analysis and Gas Chromatography-Mass Spectrometry (GC-MS) — are applied to verify product authenticity, consistency, and safety. Isotope analysis is used to confirm the natural origin of raw materials and detect the authenticity of products such as honey. GC-MS is employed to map the flavor and aroma profiles of natural extracts, ensuring product quality and driving innovation. These processes are complemented by microbial analysis and sensory evaluation, reflecting Haldin’s commitment to scientific precision and quality assurance at every stage of production.
Closing Reflections: A New Perspective on Engineering
As the visit concluded, students reflected on the depth of knowledge gained during their time at Haldin. Many noted how the integration of sustainability into every stage of production — from R&D to QC — reshaped their understanding of chemical engineering’s role in addressing global challenges. The opportunity to observe real-world applications of green chemistry, waste reduction strategies, and ethical sourcing left a lasting impression, highlighting the importance of marrying technical expertise with environmental responsibility.
The group expressed gratitude to Haldin for providing an inside look at industry best practices, emphasizing how the experience underscored the practical impact of their academic studies. For many, the visit reinforced the idea that sustainable innovation is not just a theoretical ideal, but an achievable standard when science, ethics, and collaboration converge. As the students departed, they carried with them not only insights into Haldin’s operations but also a renewed motivation to champion sustainability in their future careers. The partnership between AIChE ITB and Haldin stands as a testament to the power of industry-academia collaboration in nurturing a generation of engineers equipped to lead with creativity, integrity, and a commitment to planetary stewardship.