Flexible Gel Dry Ice Pack – How This 2025 Innovation Transforms ColdChain Shipping

Shipping delicate vaccines, seafood and biologics at subzero temperatures can be risky and expensive. UN flexible gel dry ice pack solves this by combining dry ice pellets avec gel cells that conform to any container. The result is an ultracold, reusable pack that keeps cargo below –78.5 °C for up to 72 heures. Unlike rigid blocks, flexible packs fit perfectly and cut shipping costs. In this 2025 guide, you’ll learn why flexible gel dry ice packs matter, Comment ils fonctionnent, and how to choose the right one for your coldchain logistics.

How a flexible gel dry ice pack works and why its design matters – learn about sublimation, gel layers and temperature control.

Comparisons with traditional gel packs and dry ice – explore pros, inconvénients, costs and safety considerations.

Practical tips for using flexible gel dry ice packs – including sizing guidelines and handling protocols.

2025 trends and market insights – discover smart sensors, ecofriendly materials and market growth data.

Answers to common questions – from reusability to regulatory compliance.

What makes a flexible gel dry ice pack so powerful?

Flexible gel dry ice packs combine the extreme cold of dry ice with the adaptability of gel cells. Dry ice pellets are sealed inside flexible, reusable gel compartments that conform to any box or pallet, filling gaps and improving temperature contact. Compared with rigid blocks, these packs provide durées de refroidissement plus longues (24 - 72 heures) and cut wasted space. They also reduce costs because they require less product to achieve the same hold time.

Why hybrid construction matters

Flexible packs contain three layers: un gel sheet layer for even temperature distribution, un dry ice core for ultracold temperatures, et un protective outer shell. The gel layer slows sublimation so the dry ice lasts longer while preventing cold spots. The outer shell—often polyethylene or nonwoven fabric—adds puncture resistance and maintains flexibility. This design improves packing efficiency, ensures no liquid residue (dry ice sublimates to gas), and allows the same pack to be reused for multiple shipments.

Benefits at a glance

Practical tips and advice

Choose the right size: Calculate 1–2 lbs of dry ice per 24–48 hours for small shipments and 5–10 lbs for larger loads.

Layer effectively: Spread packs evenly around the product and use the “sandwich” method (bottom and top layers) to ensure uniform cooling.

Ventilation matters: Always leave space for CO₂ gas to escape; do not seal containers airtight.

À associer avec un isolant: Use highquality insulated boxes or vacuum panels to slow sublimation and extend hold time.

Étude de cas: A vaccine distributor used flexible gel dry ice packs in summer at 35 °C. By precooling the container and sandwiching vials between 1 inch thick packs, the vaccines stayed at –20 °C after 48 heures. Without the packs, temperatures would have risen above –10 °C, compromising potency.

How does a flexible gel dry ice pack work? – Science & sublimation

A flexible gel dry ice pack operates through sublimation—the process where solid CO₂ transitions directly to gas. When dry ice sublimates at –78.5 °C, il absorbs large amounts of heat, keeping the surrounding cargo cold. The gel layer slows the sublimation rate and distributes cold evenly, while the outer shell prevents punctures.

Sublimation explained

Heat absorption: Each kilogram of dry ice absorbs roughly 571 kJ of heat Pendant la sublimation, far more than waterice melting. This high latent heat capacity keeps goods ultracold for extended periods.

No residue: Unlike waterbased ice, dry ice leaves no liquid; it sublimates directly to CO₂ gas, preventing moisture damage and mould.

Uniform cooling: The sheet or pack wraps around the payload, reducing warm corners and hot spots.

Components of a flexible gel dry ice pack

User-focused guidance

Preconditioning: Hydrate the gel cells (le cas échéant) pour 15 minutes before freezing.

Complete freeze: Freeze the packs fully to maximize cooling capacity.

Positioning: Place packs around the product and at the bottom for best performance.

Portez un équipement de protection: Dry ice can cause frostbite; gloves and goggles are essential.

Actual example: A biotech firm shipped cryogenic samples using halfinch dry ice sheets and highperformance coolers. The samples stayed below –70 °C for 24 heures, and no labels were damaged because the packs left no moisture.

Flexible gel dry ice pack vs traditional gel packs – which should you choose?

Comparing a flexible gel dry ice pack with traditional gel ice packs is essential for informed decisions. Gel packs are filled with nontoxic refrigerant and freeze at around 0 °C, providing moderate cooling of 2–8 °C. En revanche, flexible gel dry ice packs deliver ultralow temperatures of –78.5 °C and last up to 72 heures.

Pros and cons

Plage de température: Gel packs maintain 2–8 °C and are ideal for fresh foods and pharmaceuticals. Flexible gel dry ice packs provide deep freezing at –78.5 °C for vaccines or ice cream.

Sécurité: Gel packs are easy to handle and nontoxic, while dry ice requires gloves and ventilation due to frostbite and CO₂ gas.

Cost and reuse: Gel packs are reusable and costeffective in the long term; flexible gel dry ice packs also offer reuse but may require replenishing dry ice pellets.

Impact environnemental: Gel packs can leak if punctured and may contain polymers that are hard to dispose of. Dry ice sublimation releases CO₂ but avoids liquid waste.

Comparative table

Choosing the right solution

Assess your product – Fresh produce or drugs that only require refrigeration? Use standard gel packs. Frozen meals or vaccines? Opt for flexible gel dry ice packs.

Consider shipping duration – For journeys under 48 hours in moderate climates, gel packs are costeffective. Longer or warmer routes may need dry ice.

Safety and regulations – Dry ice shipments must follow hazardousmaterials rules; gel packs do not. A flexible gel dry ice pack still requires ventilation and labeling but is easier to handle due to its leakproof casing.

Environmental goals – Choose ecofriendly materials and reusable packs to reduce waste.

Scénario d'application: A meal kit service replaced disposable gel packs with flexible gel dry ice packs for 3day deliveries in rural areas. Customers reported frozen entrées arriving in perfect condition, while the company cut complaints by 15 %.

How to choose and use a flexible gel dry ice pack effectively

Selecting the appropriate flexible gel dry ice pack involves calculating the right quantity, configuring the pack correctly and following safety guidelines.

Sizing your packs

Durée & ambient conditions: For 24–36 hour routes, utiliser 0.5 inch packs on all sides. Pour 48 heures, increase to 1 inch; pour 72 heures, wrap the container fully with 1.25 inch packs.

Weight guidelines: Estimate 1–2 lbs (0.5–1 kg) de glace sèche par 24 hours for seafood or frozen meat shipments and 5–10 lbs (2.3–4,5 kg) for pharmaceuticals or biotech samples.

Packing method

Precool the container and product before adding the pack.

Layer the pack properly: Utiliser le sandwich method—dry ice at bottom, products in the middle, another layer on top.

Wrap sides if necessary: For extremely sensitive goods, wrap additional side sheets or packs around the payload.

Allow ventilation: Make sure containers have vent holes to let CO₂ gas escape.

Moniteur & enregistrer: Use IoT sensors or data loggers to track temperature and location. Sensor integration can reduce temperature excursions by 25 %.

Safety and regulations

Portez des gants isolés and avoid direct contact with dry ice to prevent frostbite.

Follow hazardous materials rules: Dry ice is classified as a Class 9 matières dangereuses (Et 1845). Packages must display the UN number and net weight, with labels at least 100 carré MM.

Weight limits: Air transport often limits dry ice to 2.5 kg par forfait; ground transport allows higher amounts.

Élimination: Let unused dry ice sublimate in a wellventilated area; never dispose of it in plumbing.

Realworld tip

A pharmaceutical distributor that switched from gel packs to leakproof dry ice packs saw a 20 % reduction in temperature excursions et 15 % fewer customer complaints. This shows that precise sizing and packaging can improve product integrity and customer satisfaction.

The latest trends and innovations in flexible gel dry ice packs (2025 update)

Aperçu de la tendance

The coldchain industry is rapidly evolving, integrating capteurs intelligents, IA et ecofriendly materials into flexible gel dry ice packs. Dry ice consumption is growing around 5 % per year while CO₂ supply increases only 0.5 %, leading to shortages and price volatility. The global dry ice market was US$1.54 billion in 2024 and is expected to reach US$2.73 billion by 2032, a CAGR of 7.4 %. Entre-temps, the cold chain packaging refrigerants market (y compris les packs de gel, foam bricks and PCMs) était US$1.57 billion in 2024, projected to 1,69 milliard de dollars américains en 2025 et US$2.92 billion in 2032.

Latest progress

Emballage intelligent: Flexible gel dry ice packs now feature IoT sensors for realtime temperature and location tracking, réduire la détérioration.

Sustainability focus: Manufacturers use biodegradable materials for gel layers and recyclable outer shells. Switching from disposable gel packs to PCMs reduced waste by 60 % in a meal kit company.

AIdriven logistics: Machinelearning models analyze sensor data to predict temperature excursions and optimize ice quantities.

Hybrid solutions: Shippers mix dry ice with phasechange materials (PCMS) to stretch each kilogram of dry ice and reduce costs.

Local CO₂ capture: Producers are building localized dry ice hubs and capturing CO₂ from bioethanol plants to address supply shortages.

Insistance au marché

Regional growth: Europe led the coldchain refrigerants market with a 31.85 % share in 2024. AsiaPacific is the fastestgrowing region due to expanding pharmaceutical and food industries.

Industry drivers: Food shipping, biologique, vaccine distribution and industrial applications like dry ice blasting fuel demand. Controlled roomtemperature (CRT) shipments drive adoption of PCMs for 15 °C–25 °C ranges.

Poussée de durabilité: Companies are shifting to renewable CO₂ sources, such as capturing gas from bioethanol fermentation, to reduce carbon footprint.

Questions fréquemment posées

Q1: How long does a flexible gel dry ice pack last?
A properly prepared pack can maintain deepfreeze temperatures for 24–72 heures depending on thickness and ambient conditions. Par exemple, un 1.25 inch sheet can protect shipments for 72 heures.

Q2: Can I reuse a flexible gel dry ice pack?
Oui. While the dry ice itself sublimates, the gel cells and outer shell can be refilled with new dry ice and reused multiple times. Always inspect for punctures before reuse.

Q3: How do flexible gel dry ice packs compare with PCMs?
Phasechange materials maintain specific temperature bands (–20 °C to +25 °C) and are highly reusable; they’re ideal for CRT shipments. Flexible gel dry ice packs offer ultracold temperatures but require hazardousmaterials labels and special handling.

Q4: Are flexible gel dry ice packs safe for food?
Oui. They are made with nontoxic materials and do not leak water because dry ice sublimates directly to gas. Always ensure proper ventilation and avoid direct contact with edible products to prevent overfreezing.

Q5: What regulations apply to shipping with flexible gel dry ice packs?
Dry ice is regulated as Et 1845, Classe 9 matières dangereuses. Packages must display the UN number and net weight. Pour le transport aérien, there is often a limit of 2.5 kg par forfait.

Résumé et recommandations

Flexible gel dry ice packs combine the deepfreeze power of dry ice avec conformability of gel, providing a reliable coldchain solution for vaccines, frozen foods and biotech samples. They maintain –78.5 °C temperatures for 24–72 hours, reduce shipping space and costs, and prevent moisture damage. Compared with traditional gel packs, they offer longer hold times and better flexibility but require adherence to hazardousmaterials rules. Emerging trends—like IoT sensors, biodegradable materials and AIdriven logistics—will make these packs smarter and more sustainable. When selecting a pack, consider your product’s temperature requirements, route duration and regulatory constraints. Always precool containers, size the pack correctly and ensure ventilation for safe transport.

Actionable advice

Assess your temperature needs – Use flexible gel dry ice packs for deepfrozen goods; choose gel packs or PCMs for refrigerated or CRT shipments.

Calculate correctly – Estimate 1–2 lbs of dry ice per 24 hours for small loads and 5–10 lbs for pharmaceuticals.

Precool and layer – Refrigerate boxes overnight and use the sandwich method for even cooling.

Surveiller les expéditions – Integrate IoT sensors to track temperature and location; adjust packaging based on data.

Adopt sustainable materials – Opt for reusable gel cells and biodegradable films to cut waste.

À propos du tempk

Tempk is a global innovator in coldchain packaging, supplying flexible gel dry ice packs, gel sheet packs and phasechange materials. We develop products that maintain precise temperature control while reducing costs and environmental impact. Our flexible gel dry ice packs use durable, reusable shells et smart sensor integration to optimize shipping. We prioritise sustainability by sourcing recyclable materials and supporting local CO₂ capture initiatives. With decades of experience, we help pharmaceutical, food and biotech clients protect temperaturesensitive goods.

Étapes suivantes

Contact Tempk’s specialists for a personalized coldchain assessment and learn how flexible gel dry ice packs can improve your logistics. Our experts will recommend the right pack sizes, sensor solutions and sustainable materials for your operations.