Raw material behavior
Vegetable blends may include carrot, celery, beetroot, cucumber, spinach and fruit ingredients with different washing and extraction needs.
Mixed vegetable juice processing line design focuses on multiple raw material preparation, recipe blending, pH management, fiber control, pasteurization and filling.



Mixed vegetable juice processing line design focuses on multiple raw material preparation, recipe blending, pH management, fiber control, pasteurization and filling.
Vegetable blends may include carrot, celery, beetroot, cucumber, spinach and fruit ingredients with different washing and extraction needs.
Mixed vegetable juice, green juice blend, carrot blend, beetroot blend and aseptic beverage product.
Multiple raw materials, recipe control, pH, fiber, color stability, sanitation and packaging.
| Finished Product | Process Route | Packaging Option | Key Engineering Concern |
|---|---|---|---|
| Mixed vegetable juice | Separate washing and preparation, extraction, blending, deaeration, pasteurization and filling | Bottle, pouch, chilled pack or aseptic bulk | Multiple raw materials, recipe control, pH, fiber, color stability, sanitation and packaging. |
| Green juice blend | Leaf and stalk preparation, juice extraction, blending and chilled or pasteurized filling | Bottle, pouch, chilled pack or aseptic bulk | Color and flavor stability |
| Vegetable beverage base | Juice preparation, blending, heat treatment and aseptic or chilled packaging | Aseptic bulk or chilled/frozen ingredient pack | Recipe repeatability and shelf life |
Reference route: Receiving -> Separate washing -> Preparation -> Extraction -> Blending -> Deaeration -> Pasteurization -> Filling
Wash roots, stalks and leaves by material type.
Trim, crush or blanch as needed.
Press or pulp each material route.
Control recipe, pH and solids.
Pasteurize by product and package.
Bottle, pouch, chilled or aseptic route.
Different vegetables need different cleaning.
Select press, crusher or pulper by material.
Controls recipe and consistency.
| Parameter | Typical Reference | Why It Matters |
|---|---|---|
| Raw material | Vegetable blends may include carrot, celery, beetroot, cucumber, spinach and fruit ingredients with different washing and extraction needs. | Defines washing, sorting, trimming and extraction route. |
| Finished product | Mixed vegetable juice, green juice blend, carrot blend, beetroot blend and aseptic beverage product. | Determines pulping, heat treatment, evaporation and filling. |
| Capacity | Hourly intake and operating hours should be stated as preliminary references. | Capacity changes all equipment modules and utilities. |
| Brix, pH and viscosity | Confirm natural Brix, pH, viscosity, pulp or particle content and heat sensitivity. | These decide pump, heat exchanger, evaporator and filler selection. |
| Packaging | Bottle, pouch, chilled pack or aseptic bulk | Changes sterilization, filling, cooling and storage logic. |
| Utilities | Steam, power, compressed air, cooling water, drainage and CIP. | Utility limits can change practical plant capacity. |
Define priority recipe and pH before equipment selection. Multiple raw materials can require separate preparation lines.
The main design point is handling multiple vegetables with different preparation and pH behavior.
Yes, but each finished product should be listed separately. Shared washing or preparation may be possible, while pulping, heat treatment, evaporation and filling can change by product.
Send fresh raw material intake per hour or day, shift hours, seasonal supply and expected packaging speed. Treat early values as reference only until engineering review.
Typical options include Bottle, pouch, chilled pack or aseptic bulk. The final choice should match shelf life, storage and sales channel.
Steam, power, compressed air, cooling water, drainage, CIP expectation, factory layout and automation level are needed before final quotation.
Share raw material, finished product, hourly capacity, Brix, viscosity, packaging, utilities, factory layout, automation requirement and timeline. Values can be preliminary references for early engineering review.