Recycle & Green

Lamina’s LCTR® (Laminar Continuous Taylor Reactor) provides innovative solutions for green chemistry and recycling applications through continuous reaction crystallization and material separation processes.

applications

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we develop next-generation chemical reactor systems that harness the power of laminar Taylor flow

APPLICATION OVERVIEW

Sustainable Processing for Circular Economy and Environmental Innovation

From recovering valuable metals to reprocessing industrial byproducts like waste phosphoric acid or CO₂ gas, LCTR® technology offers a scalable, energy-efficient, and environmentally friendly alternative to traditional batch systems. Our reactors enable high-purity recovery, faster throughput, and precise control of particle formation, contributing to circular material flows and carbon footprint reduction.

Why LCTR® for Green & Recycling Applications?

Faster crystallization and separation with high solid recovery rates
Enables closed-loop material reuse in fertilizer, metal refining, and chemical processing
Minimizes energy and solvent use with efficient, continuous operation
Scalable from pilot to industrial levels with minimal environmental impact
Ideal for CO₂ utilization and waste-to-resource strategies

Metal separation (Reaction crystallization)

Batch	LCTR
2.4	(→ 32x increase) 64.5

* The results of this study excerpted Dr. Kim Soo -kyung, Korea Institute of Geoscience and Mineral Resources.

Monoammonium Phosphate (MAP) Recovery – From Waste Phosphoric Acid

Classification	Batch	LCTR
Process Time (h)	3	0.5
Particle Size (㎛)	300	500
Purity (%)	99.5	99.5
Recovery Rate (%)	80	85
Process Type	Discontinuous	Continuous