{"authors":[],"components":[{"id":"root","name":"root","payload":{"cid":"bafybeibkqh5trixiwqcwtonfojo7yzc7gvqkx6ggyqy5ol7z34c66okqxe","path":"root"},"type":{".pdf":"pdf"}},{"id":"a02bc446-f0b8-411d-90e8-37d0c0f38086","name":"JessicaJaimePaulinAll-FunctionalExtractionMachine.pdf","payload":{"cid":"bafybeidyke3n536sged3yffebw6cyosfpvhhjpzncocbmx3tccqsblls5a","path":"root/JessicaJaimePaulinAll-FunctionalExtractionMachine.pdf","title":"Manuscript"},"starred":true,"subtype":"manuscript","type":"pdf"}],"defaultLicense":"CC BY","description":"The Jessica Jaime Paulin 50L Multifunctional Extraction Machine is a modular, scalable laboratory pilot-scale platform designed for the extraction and refinement of plant-derived products—including essential oils, floral waters, and bioactive compounds (e.g., polyphenols, flavonoids). Targeting small and medium-sized enterprises, research institutions, and farmers, it emphasizes modularity, multi-process adaptability, and scalability, bridging the gap between laboratory R&D and industrial-scale production while meeting low-threshold pilot testing needs.\n \nThe core system integrates five functional modules with rigorous technical specifications: 1) A 50L AISI-316L steam distillation module (steam flow rate: 20–25 kg/h) for essential oil and floral water extraction; 2) A 500W adjustable ultrasonic cell disruptor (20–40 kHz) to enhance extraction efficiency via raw material wall-breaking; 3) A 20–50L closed-loop solvent extraction module with ≥95% solvent recovery rate for bioactive compounds; 4) A vacuum concentrator (1–5 L/h capacity) for extract and floral water concentration; 5) A PLC-based control and monitoring module with real-time tracking of temperature, pressure, and flow, enabling full batch data traceability (3-year storage). Complementary modules include a tray oven (75 kg/batch) for residue drying (converted to fertilizer or biochar) and a CIP (Clean-in-Place) system for automated cleaning.\n \nKey process workflows cover raw material sorting, drying (10–15% moisture content), ultrasonic pretreatment (10–20 min, 300–500W), steam distillation (90–120 min, 1 bar), oil-water separation, solvent re-extraction (1–3 cycles), concentration, formulation (nanoemulsion/microcapsule), and residue valorization. Quality control is ensured through strict raw material standards (1–1.5 cm particle size, pesticide residue/microorganism testing), GC-MS fingerprinting for essential oil component analysis, and PLC-driven data traceability. Safety compliance includes pressure relief valves, explosion-proof electrical components, anti-static grounding for solvent systems, and personal protective equipment, while environmental compliance is achieved via wastewater treatment and regulated residue disposal.\n \nThe pilot plant offers a total startup budget of 15,000–35,000 USD, with a 6-month development timeline covering equipment procurement, small-scale trials (3 batches), process optimization, and economic sensitivity analysis. Core deliverables include equipment specifications, SOP documents, GC-MS reports, yield statistics, and preliminary economic evaluations. Its modular design allows for flexible adaptation to diverse plant materials and extraction requirements, providing a cost-effective, reproducible solution for scaling up processes from lab to industry—ideal for customized small-batch production and innovative bioactive compound research.","researchFields":[],"title":"Jessica Jaime Paulin 50L Multifunctional Extraction Pilot Plant: A Modular, Scalable Platform for Plant-Derived Essential Oils, Floral Waters, and Bioactive Compounds","version":"desci-nodes-0.2.0","references":[{"id":"10.2307/jj.30625913.6","type":"doi","url":"10.2307/jj.30625913.6","authors":[],"title":"| Paired with TB","journal":"","volume":"","pages":"","issue":"3","year":""}]}