Organic fertilizer production increasingly relies on high-moisture organic waste as the main raw material, and pomace stands out as one of the most popular options. Many industries, including fruit juice processing, winemaking, and vegetable oil extraction, generate large quantities of pomace, which consists of the pulpy residue left after extracting juice or oil from fruits or vegetables. Pomace contains valuable nutrients, making it suitable for composting and granulation, ultimately resulting in organic fertilizer granules. However, high initial moisture content poses significant challenges in the fertilizer granulation procedure and can affect the efficiency of the entire fertilizer manufacturing process.
What Types of High-Moisture Organic Waste Serve as Raw Materials for Fertilizer Granulation?
Fruit pomace, such as apple, grape, citrus, and pineapple pomace, is widely recognized for its high organic matter content and nutrient-rich composition. These residues typically contain more than 80% water, creating logistical and processing difficulties for fertilizer pelletizing systems. Other suitable raw materials include vegetable pomace, brewery spent grains, and oilseed cake, all of which have a similarly high moisture content. Each industry benefits from efficient moisture reduction: fruit juice manufacturers can minimize disposal costs, winemakers can transform waste into valuable organic fertilizer granules, and vegetable processors can find sustainable alternatives to landfill or incineration. By focusing on water reduction techniques, producers can transform these challenging organic residues into stable, pathogen-free, and nutrient-rich compost particles or fertilizer granules.

Why Is Moisture Reduction Crucial in Pomace-to-Fertilizer Production Lines?
The fertilizer production process from pomace involves several critical stages—dewatering, composting, granulation, and drying. Each stage targets moisture reduction to optimize the final product quality and production efficiency. Dewatering machinery removes bulk free water, reducing the pomace moisture content from over 90% to around 65%, which is suitable for efficient aerobic composting. Composting machines accelerate the microbial process, further lowering moisture and creating mature compost with improved granule-forming characteristics. Wet granulation systems or pelletizers then process the composted material into uniform particles or pellets; however, excessive moisture at this stage can cause granules to deform or disintegrate, hindering both handling and storage.
How Does a Pomace Dryer Enhance Fertilizer Pelletizing Efficiency?
A pomace dryer, as the core drying equipment in organic fertilizer manufacturing, directly influences fertilizer production rates and final granule quality. After initial dewatering and composting, pomace still retains excess moisture—often above 30%—which can prevent stable pellet formation and lead to product spoilage or microbial growth. A well-designed pomace dryer reduces moisture content from 30% or higher to as low as 10% or less, ensuring that fertilizer granules or pellets meet standard requirements for storage, transport, and application. Advanced pomace drying machines utilize energy-efficient heat exchange mechanisms, adjustable temperature controls, and automated feeding systems to deliver consistent drying results. By integrating a pomace dryer into the production line, manufacturers can increase the throughput of granulated fertilizer, improve energy utilization, and reduce overall production costs.
Which Additional Machines Contribute to Pomace-Based Fertilizer Manufacturing?
Alongside the pomace dryer, the dewatering machine and compost turner play significant roles in the water reduction process. Dewatering machines mechanically squeeze out free water, while compost turners aerate the material for efficient decomposition and moisture evaporation. Wet granulators or pelletizers form the dried compost into granules or pellets, ensuring uniform particle size. By employing a holistic system that combines dewatering, composting, granulation, and drying equipment, fertilizer manufacturers can systematically lower moisture from over 90% to below 10%, optimizing every step in the production technique.
Conclusion
Moisture reduction remains the key factor that determines the efficiency and effectiveness of pomace-based organic fertilizer production. Because high water content restricts granulation, affects fertilizer granule stability, and causes storage complications, a reliable drying solution must be at the heart of every fertilizer production system. Through careful integration of dewatering machines, composting equipment, wet granulators, and especially advanced pomace dryers, producers can maximize production rates, enhance product quality, and realize economic value from organic waste resources. For professional support and tailored drying equipment solutions, customers may consult with a leading manufacturer such as Yushunxin to streamline every stage of the pomace-to-fertilizer granulation process. You can visit: https://www.fertilizerdryer.com/pomace-drying-machine/