Dry Ice Replacement Dry Ice Pack | 2025 Panduan Rantai Dingin

Shipping your products at ultra low temperatures used to mean dealing with dry ice. Namun, supply constraints and safety concerns are pushing businesses toward dry ice replacement dry ice packs. These flexible packs maintain temperatures as low as −40 °C for up to 72 hours without the mess or hazards of solid CO₂. Dry ice consumption is growing 5 % per year while CO₂ supply is expanding just 0.5 %, causing price spikes. If you need a reliable way to keep food, pharmaceuticals and biological materials frozen in 2025, it’s time to explore modern alternatives. This guide explains everything you need to know—what these packs are, why they’re better than old school dry ice, and how to choose, pack and use them safely.

Why are dry ice replacement packs a smarter choice than traditional dry ice?

How do you select the right dry ice replacement pack for various temperaturesensitive products?

What packing techniques maximize cooling performance and safety?

Yang 2025 inovasi, market trends and regulations affect dry ice replacement?

What are the most common questions about safety, usage and sustainability?

Why Choose Dry Ice Replacement Packs Over Traditional Dry Ice?

Dry ice has been the goto refrigerant for decades, but its extreme cold and sublimation behavior pose significant risks. Dry ice replacement packs deliver comparable cooling without hazardous handling or environmental drawbacks. This section explains why these alternatives are gaining ground in 2025.

Advantages Over Traditional Dry Ice

Dry ice replacement dry ice packs maintain subzero temperatures for 36–72 hours and eliminate liquid residue. Instead of loose pellets that sublimate rapidly, packs encase CO₂ snow or engineered refrigerant in durable cells. This design extends cooling duration, minimizes CO₂ vapor release and allows reuse. By avoiding direct contact with solid CO₂, the packs reduce frostbite risk and simplify handling. Unlike traditional dry ice, which qualifies as a Class 9 hazardous material requiring hazmat training and strict labeling, most replacement packs are nonhazardous and exempt from stringent regulations.

Dry ice replacement packs also address supply concerns. Global dry ice demand is rising around 5 % setiap tahun, while CO₂ supply increases only 0.5 %, causing shortages and price surges of up to 300 %. Replacement packs use fewer CO₂ resources and incorporate phasechange materials (PCMS) or gel refrigerants, offering a more sustainable supply chain.

Understanding How Replacement Packs Work

Replacement packs come in several formats:

Jenis paket	Core Cooling Material	Kisaran suhu	Durasi khas	Key Benefit
Lembaran kantong es kering	Solid CO₂ pellets sealed in flexible cells	−40 °C to −60 °C	36–72 jam	Reusable design; minimizes vapor release
Gel/PCM packs	Phasechange gels formulated to melt/freeze at set temperatures	0 °C to −20 °C (dinginkan) or −15 °C to −26 °C (beku)	24–96 hours	Stable temperature bands; reusable and nonhazardous
Cryogenic gel packs	Cryo Ice™ proprietary gel refrigerant	Below −3 °C, staying under 25 ° f (−3.9 °C) during thaw	Hingga 48 jam	Penanganan yang aman, no hazmat training required
Eutectic plates	Precooled plates containing PCM	Dapat disesuaikan (frozen or chilled)	36–72 jam	Robust, reusable and ideal for repeated shipments

Bagaimana cara kerjanya: Each pack type absorbs heat as it melts or as CO₂ sublimates inside the pack, maintaining a steady internal temperature. Dry ice sheets combine rapid cooling from CO₂ pellets with extended hold times due to the sealed cells. Gel packs and PCMs absorb latent heat during phase change, providing narrow temperature ranges that prevent overfreezing of sensitive products. Some hybrid packs blend CO₂ cells and PCMs to deliver both ultracold startup and sustained cooling.

Comparing Dry Ice and Replacement Packs

Metrik	Es kering tradisional	Replacement Dry Ice Pack
Suhu	−78.5 °C (pelet)	−60 °C to −20 °C depending on design
Durasi pendinginan	24–48 jam	36–72 jam (pack sheets); 24–96 hours (PCMS)
Regulatory Classification	Hazardous (Dan 1845, Kelas 9) requiring hazmat labeling and training	Generally nonhazardous; simpler documentation and handling
Handling Risks	Radang dingin, CO₂ buildup leading to asphyxiation or explosion	Minimal frostbite risk due to sealed design
Reusability	Single use; sublimates entirely	Highquality sheets and PCM packs can be refrozen and reused
Supply Constraints	Dependent on CO₂ availability; price volatility up to 300 %	Diversified sources such as gel refrigerants and PCMs; less sensitive to CO₂ shortages

RealWorld Scenario

Studi kasus: A specialty dessert company in Los Angeles shipped frozen cakes nationwide. Di dalam 2024 they relied on dry ice pellets but faced shortages and price hikes. After switching to dry ice pack sheets combined with PCM gel packs, they extended transit times from 36 ke 60 jam, reduced CO₂ use by 20 % and eliminated hazmat fees. Customer complaints dropped because cakes arrived intact without freezer burn or water residue.

Practical Tips for Choosing Alternatives

Assess temperature needs: If your products require ultracold conditions (below −60 °C), a small amount of dry ice or cryogenic gel may still be necessary. For most frozen foods, PCMs or pack sheets maintain −20 °C to −40 °C effectively.

Consider shipment duration: Pack sheets and PCM plates can be layered to reach 72 jam atau lebih; for longer transits or international shipping, combine with active refrigeration or add extra packs.

Optimize reusability: Choose durable packs that can be refrozen—these reduce waste and lower longterm costs.

Check regulatory status: Confirm whether the pack is classified as hazardous. Nonhazardous alternatives avoid the labeling, documentation and training requirements mandated for dry ice.

How to Select the Right Dry Ice Replacement Pack for Your Shipment

Choosing the perfect replacement pack depends on product type, Durasi Pengiriman, and regulatory constraints. This section offers a clear framework to guide your decision.

Key Factors to Consider

Temperature sensitivity– Different goods require specific temperature ranges. Ultracold pharmaceuticals need temperatures below −60 °C, while frozen foods typically need −20 °C to −40 °C. Dry ice pack sheets and cryogenic gel packs deliver the lower range, whereas PCM gel packs maintain narrower bands around −20 °C.
Shipping duration– The longer the trip, the more refrigerant you’ll need. A rule of thumb is 5–10 kg of dry ice (or equivalent pack capacity) per 24 hours for 100 liters of container volume. When using pack sheets, estimate one 24cell sheet per 12 jam pendinginan. For longdistance or international shipments, consider layering pack types and using additional insulation to stretch cooling time.
Product size and weight– Larger shipments require more cooling power. Meja 2 adapts weight and sheet recommendations from industry guidelines.

Container Volume	Suggested CO₂ Pellets	Number of Pack Sheets	Expected Hold Time
10 L	0.75–1 kg	1 sheet	≈12 hours
20 L	1.5–2 kg	2 sheets	≈24 hours
30 L	2.5–3.0 kg	3–4 sheets	≈36 hours
40 L	4–5 kg	4–5 sheets	≈48–72 hours

Regulatory and safety requirements– Air transport restricts dry ice to 2.5 kg per passenger aircraft and up to 200 kg on cargo flights. Nonhazardous packs bypass these limits and simplify paperwork. If shipping internationally, verify compliance with International Air Transport Association (Iata) rules and customs regulations.
Sustainability goals– Environmental pressures are driving companies to reduce CO₂ emissions. PCMs and gel packs produce less carbon emissions, and some suppliers use renewable biobased CO₂ captured from ethanol fermentation. Evaluate the carbon footprint and recyclability of the packs you choose.

Selecting by Product Category

Frozen Foods and Meal Kits

For seafood, meats and prepared meals requiring −20 °C to −40 °C, lembar paket es kering are ideal. They maintain freezing conditions for 24–48 hours without producing melt water. Because they release CO₂ gradually, pack sheets prevent freezer burn and maintain product texture. Combine with PCM gel packs to extend duration beyond 72 hours or to maintain specific temperature bands for delicate foods.

Farmasi dan Biologi

Pharmaceuticals often demand ultracold temperatures (−70 °C or below). Dry ice pellets remain indispensable for vaccines and biologics that cannot tolerate warmer conditions. Namun, combining pellets with pack sheets can reduce overall dry ice consumption while maintaining required temperatures. For less temperaturecritical medicines, reusable PCM shippers are gaining traction because they avoid hazardous classification and offer more stable temperature profiles.

Biotechnology and Lab Samples

Biotech samples and cryogenic materials require precise temperature control and fast cooling. Pellets deliver rapid temperature drops and allow precise dosage adjustments. To extend hold times, pair pellets with PCM plates or gel packs and use vacuuminsulated containers. Realtime sensors (IoT devices) can monitor temperature deviations during transit.

Specialty Foods & Desserts

Products such as gourmet chocolates and ice cream need a narrow temperature band to avoid texture and appearance changes. PCM gel packs designed for −15 °C to −20 °C maintain stability without overfreezing. Because gel packs don’t sublimate, they prevent condensation and maintain product quality.

Tips to Maximize Cooling Performance

Pre condition containers: Chill your cooler or carton before packing to slow sublimation and extend cooling by up to 15 %.

Lapisan dengan benar: Place pellets or pack sheets at the bottom, menambahkan penyangga (karton atau busa), then your product, and finish with more packs on top. Udara dingin tenggelam, so top layers ensure even cooling.

Fill void spaces: Use bubble wrap or dunnage to eliminate air pockets that accelerate heat transfer.

Allow ventilation: Provide vent holes or breathable insulation; never seal CO₂ in an airtight box—pressure buildup can cause rupture.

RealWorld Example: A biotech startup shipping enzyme samples prechilled its insulated boxes overnight, added a corrugated buffer and layered three 24cell pack sheets. Temperature logs showed the payload stayed at −25 °C for 60 jam, meeting regulatory requirements without using any dry ice.

Packing and Handling Dry Ice Replacement Packs Safely

Proper packing maximizes performance and ensures worker safety. Although dry ice replacements are less hazardous than traditional dry ice, they still require care.

Preparation and Freezing

Hydrate reusable sheets: Soak reusable dry ice sheets in water before freezing to activate the cells. Freeze them flat to ensure an even shape.

Freeze PCM and gel packs completely: Always freeze packs for the recommended time—typically 24–48 hours—to reach the intended temperature range.

Organize by size and weight: Prepare the right number of packs based on container volume and shipment duration (see Table 2 di atas).

Packing Sequence

Lapisan bawah: Place pellets or a pack sheet at the bottom of the insulated container for rapid cooling.

Buffer Layer: Add cardboard or foam board to prevent direct contact and freezer burn.

Product Placement: Position your product with cushioning materials to eliminate empty spaces.

Lapisan atas: Add additional pack sheets or pellets on top; udara dingin tenggelam, so top placement ensures even cooling.

Ventilasi: Ensure the container isn’t airtight to allow CO₂ gas to escape; some designs include builtin vents.

Personal Protective Equipment (APD)

While dry ice replacements reduce frostbite risk, kenakan sarung tangan dan kacamata berinsulasi during packing to protect skin and eyes. For gel packs kept below −20 °C, gloves will prevent cold burns; goggles protect against accidental splashes when hydrating reusable sheets.

Labeling and Compliance

Dry ice replacement packs are generally nonhazardous, yet clear labeling helps handlers understand temperature management. For shipments using both dry ice and replacement packs, include the net weight of dry ice and hazard labels as required by IATA. Always list the number of packs and recommended handling instructions on the manifest.

Disposal and Reuse

Refreeze: Highquality pack sheets and PCM packs can be refrozen and reused multiple times.

Gel pack disposal: If the gel is biodegradable, follow local waste rules; some can be punctured, drained and disposed of with normal waste.

Dry ice disposal: Jika Anda memiliki sisa es kering, let it sublimate in a wellventilated area. Do not store in sealed containers.

Studi kasus: A pharmaceutical distributor trained its staff to hydrate, freeze and pack reusable dry ice sheets. After switching from loose pellets, the team reduced injuries and regulatory paperwork, while packaging waste dropped by 30 %. Inventory management improved because the packs could be frozen in bulk and used on demand without the rush to beat dry ice sublimation.

2025 Trends and Innovations in Dry Ice Replacement

Cold chain logistics is evolving rapidly, Dan 2025 brings new technologies, sustainability initiatives and market dynamics that influence how you cool and ship products.

Industry Dynamics and Market Growth

The dry ice market faces supply constraints and sustainability pressure. Demand has been climbing roughly 5 % per year while CO₂ supply grows only 0.5 %, creating shortages and spot price spikes of up to 300 %. The global dry ice market was valued at USD 1.54 miliar masuk 2024 dan diproyeksikan untuk mencapai USD 2.73 miliar oleh 2032 dengan tingkat pertumbuhan tahunan majemuk 7.4 %.

Namun, itu dry ice alternative solutions market is growing even faster. Recent research reports that this market reached USD 2.34 miliar masuk 2024 and is expected to grow at 8.7 % setiap tahun, mencapai USD 5.01 miliar oleh 2033. Growth is driven by regulatory pressure for ecofriendly logistics, ecommerce expansion and rising demand for temperaturesensitive products.

Sustainability and CO₂ Capture

Sustainability is shaping cold chain strategies. Clients expect suppliers to cut carbon emissions, prompting manufacturers to explore biobased CO₂ sources and carbon capture. Bioethanol plants capture highpurity CO₂ released during fermentation and convert it to dry ice. This creates a circular supply chain and reduces reliance on fossilderived CO₂. Still, overdependence on a few producers risks supply disruptions—such as the UK example, where major CO₂ producers faced geopolitical and trade pressures.

Sistem Pendinginan Hibrida

Hybrid cooling systems that combine dry ice, pack sheets and PCMs are gaining traction. Layering pellets, pack sheets and PCM packs extends hold times by 25 % while reducing dry ice consumption by 18 %. Di dalam 2025, shippers are also investing in improved insulation (vacuum panels and curbsiderecyclable materials) to reduce refrigerant needs.

Smart Packaging and IoT Sensors

IoT technology is transforming cold chain monitoring. Sensors embedded in packaging provide realtime data on temperature, kelembaban dan lokasi, enabling proactive intervention and regulatory compliance. Smart packages can alert recipients if the temperature deviates from set ranges, reducing spoilage and ensuring product integrity.

Regulatory and Safety Trends

Stricter environmental regulations are encouraging adoption of nonhazardous refrigerants and recyclable materials. Some countries are limiting CO₂ emissions or imposing taxes on carbonintensive logistics, pushing businesses toward gel packs and PCM solutions. Sementara itu, IATA continues to enforce weight and labeling limits on dry ice shipments.

Market Insights by Region

Amerika Utara dominates the dry ice alternative market due to advanced logistics infrastructure and stringent environmental regulations.

Eropa follows closely, driven by sustainability mandates. Biobased CO₂ supply and innovations in packaging are helping mitigate supply constraints.

Asia Pacific is emerging as a lucrative market because of rapid urbanization, growing healthcare demand and expanding ecommerce.

Pertanyaan yang sering diajukan (FAQ)

Q1: Are dry ice replacement packs safe to handle?
Ya. Replacement packs are generally nonhazardous and safer than traditional dry ice. They eliminate direct contact with solid CO₂, reducing frostbite risk. Namun demikian, wear insulated gloves when handling packs chilled below −20 °C, and ensure adequate ventilation when using dry ice‐based sheets.

Q2: How long do replacement packs stay cold?
Duration depends on pack type and conditions. Dry ice pack sheets hold temperatures for 36–72 hours, while PCM gel packs can provide 24–96 hours of cooling. Layering multiple packs and preconditioning containers can extend this period.

Q3: Can I reuse dry ice replacement packs?
Highquality pack sheets and PCM packs are designed for multiple uses and can be refrozen. Gel packs may be reused as long as the packaging remains intact; eventually, performance diminishes and packs should be replaced.

Q4: Are replacement packs environmentally friendly?
Ya. Many packs use biodegradable gels or recyclable materials and produce less carbon emissions than traditional dry ice. PCMs and gel packs avoid CO₂ vapor release and reduce reliance on fossilderived CO₂. Selain itu, some manufacturers capture CO₂ from bioethanol plants, creating a circular supply chain.

Q5: When should I still use traditional dry ice?
Dry ice remains necessary for ultracold conditions (below −70 °C) such as certain vaccines, cryogenic samples and industrial cleaning. Dalam kasus ini, combining pellets with pack sheets and PCM packs can reduce total dry ice usage while maintaining required temperatures.

Ringkasan dan Rekomendasi

Dry ice replacement packs offer a safer, more sustainable and versatile solution for cold chain logistics in 2025. Their ability to maintain subzero temperatures for 36–72 hours, reduce CO₂ use and minimize regulatory burdens makes them a smart choice for food, pharmaceuticals and biotech shipments. When selecting a pack, evaluate your product’s temperature needs, Durasi Pengiriman, container volume and sustainability goals. Hybrid systems combining pellets, pack sheets and PCMs can extend hold times by up to 25 % while reducing dry ice consumption.

Langkah yang dapat ditindaklanjuti

Menilai kebutuhan Anda: Define the required temperature range and shipping duration for your product. Use Table 2 to estimate the number of packs or pellet weight.

Choose the right pack type: For ultracold shipments, consider dry ice pellets and pack sheets. For typical frozen foods or pharmaceuticals, PCM or gel packs suffice.

Plan packing logistics: Prechill containers, layer packs correctly and ensure ventilation to maximize performance.

Monitor and optimize: Use IoT sensors to track temperatures and adjust pack quantities accordingly.

Adopt sustainable practices: Source packs made from recyclable or biobased materials and evaluate suppliers that capture CO₂ from renewable sources.

Tentang tempk

Tempk is a leading provider of advanced cold chain solutions, specializing in dry ice replacement packs, gel packs and smart packaging systems. We combine scientific expertise with rigorous testing to deliver products that maintain precise temperatures, reduce waste and comply with international regulations. Our reusable dry ice pack sheets and PCM gel packs are engineered for 36–72 hours of cooling, offering reliable performance for food, pharmaceuticals and biotech shipments. Dengan fokus pada keberlanjutan, Tempk sources biobased CO₂ and recyclable materials, helping clients reduce their environmental footprint.

Panggilan untuk bertindak

Siap untuk meningkatkan rantai dingin Anda? Contact Tempk’s experts to discuss dry ice replacement dry ice pack options tailored to your needs. We’ll help you choose the right pack type, plan shipment logistics and stay ahead of 2025 tren.