By Zhongbo Engineering Team · 30+ years in food processing equipment · ISO 9001:2015 Certified
Table of Contents
ToggleWhat Makes a Product Suitable for UHT?
UHT (Ultra High Temperature) treatment heats liquid and semi-liquid food products to 135–150°C for 2–5 seconds to achieve commercial sterility. The result: products that can be stored at ambient temperature for 6–12 months without preservatives. But not every food product can withstand this process.
If you are new to the technology, read our foundational guide: HTST vs UHT: What Is the Difference? For this article, we focus on the product side — which specific food and beverage categories are compatible with UHT, and which are not.
The Two Rules That Determine UHT Suitability
Before listing product categories, understand the two physical properties that govern whether UHT is appropriate — and at what parameters:
| Property | Threshold | Impact on UHT |
|---|---|---|
| pH value | ≤ 4.6 (high acid) vs > 4.6 (low acid) | High-acid: 85–110°C suffices (pasteurization + enzyme inactivation). Low-acid: requires 135–150°C to kill Clostridium botulinum spores. |
| Viscosity | < 5 cP (water-like) vs 5–300 cP (syrup-like) vs > 300 cP (paste-like) | Low viscosity → plate heat exchanger. Medium to high → tubular. Very high or with particles → scraped-surface or coiled. |
In addition to pH and viscosity, two more factors matter: particle size (must pass through heat exchanger channels — typically < 15 mm for tubular) and heat sensitivity (some flavors, colors, and active ingredients degrade at UHT temperatures).
Dairy Products
Dairy is the largest and most established UHT application. All standard liquid dairy products can be UHT treated:
| Product | pH | Viscosity | UHT Temp / Hold | Equipment |
|---|---|---|---|---|
| White milk (cow) | 6.6–6.8 | ~2 cP | 137–142°C / 4s | Plate or Tubular |
| Flavored milk | 6.3–6.8 | 5–20 cP | 137–140°C / 4s | Tubular |
| Cream (20–40% fat) | 6.2–6.6 | 15–100 cP | 135–140°C / 4s | Tubular + homogenizer |
| Condensed / concentrated milk | 6.0–6.5 | 30–200 cP | 135–140°C / 4s | Tubular |
| Yogurt drink (post-fermentation) | 4.0–4.5 | 50–300 cP | 90–95°C / 5–10s | Tubular |
| Dairy dessert (custard, pudding base) | 6.0–6.8 | 200–1000 cP | 135–138°C / 4s | Tubular / Scraped-surface |
| Lactose-free milk | 6.4–6.8 | ~2 cP | 137–142°C / 4s | Plate or Tubular |
For detailed equipment selection by dairy product, see our guide: How to Choose a UHT Processing Line for Milk, Yogurt & Cream. For low-viscosity milk, our Plate Pasteurizer offers the highest heat recovery rate. For cream and yogurt drinks, the Tubular Pasteurizer handles higher viscosity without channel blockage.
Plant-Based Beverages
The plant-based milk market is the fastest-growing UHT segment. Most plant-based beverages are low-acid (pH > 4.6) and require full UHT sterilization. Their challenge is not pH but viscosity and fiber content:
| Product | pH | Challenge | Equipment |
|---|---|---|---|
| Soy milk | 6.4–7.0 | Protein fouling on heat exchanger surfaces | Tubular |
| Oat milk | 6.2–6.8 | β-glucan fiber thickens when heated; blocks plate channels within hours | Tubular (mandatory) |
| Almond milk | 6.0–6.8 | Fine nut particles; sedimentation risk | Tubular with deaerator |
| Coconut milk / cream | 5.8–6.5 | High fat content (17–24%); requires homogenization | Tubular + homogenizer |
| Rice milk | 6.0–6.5 | High starch content; gelatinization at UHT temps | Tubular with enzyme pre-treatment |
| Pea protein milk | 6.5–7.2 | Protein stability; beany off-flavor removal | Tubular + deaerator |
| Plant-based yogurt base | 4.0–4.5 | High viscosity; cultured after UHT | Tubular |
Key insight: Oat milk is the most technically challenging plant-based product for UHT. The β-glucan fiber gelatinizes at 70–80°C and progressively thickens through the heating section. Plate heat exchangers will block within 3–4 hours, requiring frequent CIP. Only tubular systems with wide-flow channels and turbulent flow design can maintain continuous operation.
Juices & Beverages
Most juices and beverages are high-acid (pH ≤ 4.6), which means they do not require full UHT sterilization but still benefit from UHT-grade processing for extended shelf life:
| Product | pH | Particles? | UHT Temp | Equipment |
|---|---|---|---|---|
| Clear apple juice | 3.3–4.0 | No | 95–105°C | Plate |
| Orange juice (with pulp) | 3.3–4.1 | Yes | 95–110°C | Tubular |
| Tea (green, black, herbal) | 4.5–6.5 | No | 95–121°C | Plate or Tubular |
| Coffee (RTD / cold brew) | 4.8–5.5 | No | 135–138°C | Tubular (low acid) |
| Fruit nectar (mango, peach) | 3.0–3.8 | Yes (high) | 100–110°C | Tubular |
| Sports / electrolyte drink | 2.8–3.5 | No | 95–105°C | Plate |
| Functional / vitamin drink | 3.0–4.2 | No | 95–110°C | Plate |
For detailed beverage equipment selection, see: How to Choose a UHT Processing Line for Beverages. Note: coffee and some herbal teas are borderline low-acid products and require full UHT parameters despite being “beverages.”
Prepared Foods: Soups, Sauces & Dressings
This is an under-served but rapidly growing UHT category. Prepared foods benefit enormously from UHT because they are typically low-acid, thick, and require long ambient shelf life:
| Product | pH | Viscosity | Key Challenge |
|---|---|---|---|
| Tomato sauce / ketchup | 3.6–4.0 | 1000–5000 cP | Very high viscosity; starch gelatinization |
| Cream soup (mushroom, tomato) | 5.5–6.5 | 100–500 cP | Low acid → full UHT; particulate pieces |
| Cheese sauce | 5.3–5.8 | 500–3000 cP | Very thick; fat separation; protein burn-on |
| Mayonnaise / dressing base | 3.0–4.2 | 2000–10000 cP | Emulsion stability; shear-sensitive |
| Soy sauce / seasoning liquid | 4.7–5.0 | 5–20 cP | Borderline pH; high salt; corrosion risk |
| Gravy / meat sauce base | 5.5–6.5 | 50–500 cP | Fat content; potential meat particles |
| Fruit preparation / jam | 3.0–3.8 | 500–5000 cP | Fruit pieces up to 10 mm; high sugar |
Equipment note: Most prepared foods require tubular or scraped-surface heat exchangers due to high viscosity and particle content. Our Tubular Pasteurizer handles viscosities up to 500 cP with smooth flow. For extremely thick products like ketchup or mayonnaise, consider a coiled or scraped-surface system.
Desserts & Sweet Products
Dessert products are increasingly processed via UHT to achieve ambient distribution without preservatives:
| Product | pH | Viscosity | UHT Suitability |
|---|---|---|---|
| Ice cream mix (pre-freeze base) | 6.0–6.5 | 100–300 cP | ✅ Excellent — UHT replaces batch pasteurization |
| Custard / crème caramel | 6.2–6.8 | 200–800 cP | ✅ Good — egg protein requires gentle heating |
| Pudding base | 6.0–6.8 | 500–2000 cP | ✅ Good — starch thickening occurs post-UHT |
| Sweet condensed milk | 6.0–6.4 | 50–200 cP | ✅ Excellent |
| Chocolate / cocoa drink | 6.3–6.8 | 10–50 cP | ✅ Excellent — cocoa particles need homogenization |
| Non-dairy whipping cream | 6.0–6.8 | 30–100 cP | ✅ Good — shear-sensitive, use direct steam |
| Fruit jelly / gelled dessert | 3.2–3.8 | 5000+ cP | ⚠ Marginal — very high viscosity; may need scraped-surface |
Direct steam injection (DSI) is often preferred for desserts because it minimizes heat load and preserves delicate egg and starch textures. For smaller dessert production lines, the Coil Pasteurizer offers a compact, cost-effective solution with gentle heating characteristics.
Specialty & Nutritional Products
This category includes products with strict regulatory requirements or unique processing challenges:
| Product | pH | Special Consideration | UHT Method |
|---|---|---|---|
| Infant formula (liquid) | 6.4–6.8 | Strict regulatory standards (Codex, FDA, EU); nutrient retention critical | Direct or indirect UHT |
| Follow-on / growing-up milk | 6.5–7.0 | Added vitamins & minerals; Maillard browning risk | Indirect UHT (lower heat load) |
| Medical nutrition (enteral) | 6.0–7.0 | High protein & fat; osmolality control; extremely low spore tolerance | Direct UHT (gentlest) |
| Egg liquid (whole / white / yolk) | 7.0–9.0 (white) 6.0–6.5 (whole) | Egg white proteins denature above 60°C; requires very short hold time | Specialized UHT (58–68°C, 120–180s) |
| Protein shake (RTD) | 6.2–6.8 | High protein (whey/casein); fouling risk; viscosity | Tubular indirect UHT |
| Beer wort (pre-fermentation) | 5.0–5.5 | Sugar content; enzyme inactivation | Indirect UHT |
| Honey (liquid) | 3.4–6.1 | High sugar; crystallization; enzyme inactivation | Plate (high-acid) or tubular |
Egg products deserve special mention. Liquid whole egg and egg white are extremely heat-sensitive — standard UHT temperatures (135°C) will instantly coagulate the proteins. Instead, they use a modified UHT process at 58–68°C with extended hold times (120–180 seconds), which achieves commercial sterility while maintaining functionality. This is sometimes called “extended shelf-life pasteurization” rather than true UHT.
Products NOT Suitable for UHT Treatment
UHT is not a universal solution. The following product types are not suitable or require significant process modification:
| Product Type | Why Not Suitable |
|---|---|
| Probiotic / live culture drinks | UHT kills all microorganisms including beneficial bacteria. Probiotics must be added post-UHT, which requires aseptic dosing. |
| Pre-carbonated beverages | CO2 expands violently at UHT temperatures, causing cavitation, pressure spikes, and equipment damage. Carbonation must be done post-sterilization. |
| Products with large solid chunks (> 15 mm) | Cannot pass through heat exchanger channels. Would need a batch retort/autoclave instead of continuous UHT. |
| Heat-sensitive active ingredients | Vitamins B and C, certain antioxidants, and omega-3 oils degrade significantly at UHT temperatures. Add via aseptic dosing after UHT. |
| Alcoholic beverages (finished) | Alcohol evaporates at 78°C — well below UHT range. Flash evaporation would remove the alcohol. (Beer wort before fermentation is suitable.) |
| Dry / powdered products | UHT is a liquid-phase process. Powders require dry heat sterilization or superheated steam systems instead. |
Master Reference: Complete UHT Product Suitability Table
The following table consolidates all product categories discussed above into a single quick-reference matrix. Bookmark this page for future equipment planning.
| Product | Category | pH | Acid Class | Viscosity (cP) | UHT Temp (°C) | Hold (s) | Equipment |
|---|---|---|---|---|---|---|---|
| White milk | Dairy | 6.6–6.8 | Low | ~2 | 137–142 | 4 | Plate / Tubular |
| Flavored milk | Dairy | 6.3–6.8 | Low | 5–20 | 137–140 | 4 | Tubular |
| Cream 20–40% | Dairy | 6.2–6.6 | Low | 15–100 | 135–140 | 4 | Tubular + Homo |
| Yogurt drink | Dairy | 4.0–4.5 | High | 50–300 | 90–95 | 5–10 | Tubular |
| Condensed milk | Dairy | 6.0–6.5 | Low | 30–200 | 135–140 | 4 | Tubular |
| Soy milk | Plant-based | 6.4–7.0 | Low | 3–15 | 137–140 | 4 | Tubular |
| Oat milk | Plant-based | 6.2–6.8 | Low | 10–50 | 137–140 | 4 | Tubular (mandatory) |
| Almond milk | Plant-based | 6.0–6.8 | Low | 5–20 | 137–140 | 4 | Tubular + Deaerator |
| Coconut milk | Plant-based | 5.8–6.5 | Low | 20–100 | 137–140 | 4 | Tubular + Homo |
| Clear apple juice | Beverage | 3.3–4.0 | High | ~1 | 95–105 | 5–15 | Plate |
| Orange juice (pulp) | Beverage | 3.3–4.1 | High | 5–20 | 95–110 | 5–15 | Tubular |
| Tea (RTD) | Beverage | 4.5–6.5 | Mixed | 1–5 | 95–121 | 5–15 | Plate / Tubular |
| Coffee (RTD) | Beverage | 4.8–5.5 | Low | 1–3 | 135–138 | 4 | Tubular |
| Tomato sauce | Prepared | 3.6–4.0 | High | 1000–5000 | 105–110 | 15–30 | Tubular / Scraped |
| Cream soup | Prepared | 5.5–6.5 | Low | 100–500 | 135–138 | 4 | Tubular |
| Cheese sauce | Prepared | 5.3–5.8 | Low | 500–3000 | 135–138 | 4 | Tubular / Scraped |
| Mayonnaise | Prepared | 3.0–4.2 | High | 2000–10000 | 85–95 | 15–30 | Scraped / Coiled |
| Ice cream mix | Dessert | 6.0–6.5 | Low | 100–300 | 135–138 | 4 | Tubular (DSI preferred) |
| Custard | Dessert | 6.2–6.8 | Low | 200–800 | 135–138 | 4 | Tubular / DSI |
| Chocolate drink | Dessert | 6.3–6.8 | Low | 10–50 | 137–140 | 4 | Tubular + Homo |
| Infant formula | Specialty | 6.4–6.8 | Low | 5–30 | 137–142 | 4 | Direct / Indirect |
| Medical nutrition | Specialty | 6.0–7.0 | Low | 10–50 | 137–142 | 4 | Direct UHT |
| Egg liquid (whole) | Specialty | 6.0–6.5 | Low | 5–20 | 58–68 | 120–180 | Specialized UHT |
| Protein shake (RTD) | Specialty | 6.2–6.8 | Low | 15–100 | 137–140 | 4 | Tubular |
Matching Products to Zhongbo Equipment
Once you have confirmed your product is suitable for UHT, the next step is selecting the right heat exchanger type. Here is a quick guide based on the three Zhongbo pasteurizer models:
| Equipment | Best For | Max Temp | Capacity | Viscosity Range |
|---|---|---|---|---|
| Plate Pasteurizer | White milk, clear juice, tea, sports drinks, water-like liquids | 140°C | 5–30s hold | Low (< 5 cP) |
| Tubular Pasteurizer | Cream, yogurt drinks, oat milk, juice with pulp, soup, sauce, ice cream mix, infant formula | 140°C | 5–300s hold | Low to high (up to 500 cP) |
| Coil Pasteurizer | Small-batch production, startups, ESL products, pilot lines, dessert bases | 130°C | 4–6s hold | Low to medium |
Frequently Asked Questions
Can all liquid foods be UHT treated?
No. UHT suitability depends on pH, viscosity, and particle size. Most liquid and semi-liquid foods with pH above 4.6 (low-acid) or below 4.6 (high-acid) can be UHT treated, provided they are pumpable and can pass through heat exchanger channels. Products with very high viscosity (> 10,000 cP), large particles (> 15 mm), or extreme heat sensitivity (e.g., egg white, probiotics) may require specialized or alternative processes. To match your product to the right equipment, compare our Plate, Tubular, and Coil Pasteurizer specifications.
Can UHT treatment handle products with particles or pulp?
Yes — but only with the right equipment. Tubular heat exchangers can handle particles up to approximately 15 mm in diameter, making them suitable for pulpy juices, fruit preparations, and soups with vegetable pieces. For particles larger than 15 mm, a scraped-surface heat exchanger or batch retort system is required. The Tubular Pasteurizer from Zhongbo is designed with wide-flow channels and turbulent flow to prevent particle settling and channel blockage during extended production runs.
Is UHT treatment suitable for baby food and infant formula?
Yes. Infant formula is one of the most important UHT applications, and it is processed under strict regulatory standards (Codex Alimentarius, FDA, EU). Both direct (steam injection) and indirect (plate/tubular) UHT methods are used. Direct UHT is often preferred for premium infant formula because the shorter heat load preserves heat-sensitive vitamins and minimizes Maillard browning. For specialized infant food projects, contact our engineering team to discuss regulatory compliance and custom specifications.
Can I use the same UHT line for multiple products?
Yes, with recipe-based PLC control. Modern UHT systems store multiple processing recipes (temperature, hold time, flow rate, homogenization pressure) and switch between them via touchscreen. The main considerations are: (1) CIP/SIP between product changes takes 60–90 minutes, (2) the first product’s residue may affect the second product’s flavor, and (3) viscosity differences may require different pump configurations. For multi-product lines with smaller batches, the Coil Pasteurizer offers fast changeover and flexible recipe management at a lower capital cost.
What products should NOT be UHT treated?
Products that should not be UHT treated include: (1) probiotic drinks — UHT kills the live cultures; add them post-UHT via aseptic dosing; (2) pre-carbonated beverages — CO2 expansion at UHT temperatures causes equipment damage; carbonate after sterilization; (3) products with chunks larger than 15 mm — they cannot pass through continuous heat exchangers; use batch retorts instead; (4) finished alcoholic beverages — alcohol evaporates at 78°C; and (5) dry powders — UHT is a liquid-phase process. For borderline cases, consult Zhongbo for a pilot-scale feasibility test.
The Bottom Line
UHT treatment is suitable for a remarkably broad range of liquid and semi-liquid food products — far beyond just milk. From dairy and plant-based beverages to soups, sauces, desserts, and infant formula, UHT enables ambient distribution, extended shelf life, and preservative-free formulations. The two governing factors are pH (which sets the sterilization temperature) and viscosity (which determines heat exchanger type). When in doubt, the safest approach is to test your specific product formulation on a pilot UHT system before investing in full-scale equipment.
Related Resources
From the Zhongbo GEO Blog Series:
- HTST vs UHT: What Is the Difference? — Foundational comparison of the two thermal processes
Not Sure If Your Product Is UHT Compatible?
Send us your product specifications (pH, viscosity, particle size, target shelf life) and our engineers will recommend the right UHT system — or tell you honestly if UHT is not the right fit.
About the author: Zhongbo has been manufacturing food processing equipment for over 30 years, serving dairy, beverage, and prepared food producers in 50+ countries. All UHT systems are designed and built to ISO 9001:2015 standards with 3-A sanitary specifications. Product data in this article is compiled from Tetra Pak technical documentation, SPX FLOW application guides, and Zhongbo’s own processing experience. Always validate UHT parameters with your specific product formulation through pilot testing.




