Kühlkettenverpackungssysteme: Protecting Goods & Trends 2025

Last Updated: November 16 2025

Wenn Sie Impfstoffe versenden müssen, biologics or fresh seafood across continents, maintaining the correct temperature isn’t optional – it’s the difference between safe delivery and spoilage. Cold chain packaging systems are specialised packaging solutions designed to keep products within strict temperature ranges throughout transport and storage. The market for these systems is expanding rapidly: analysts estimate that the global cold chain packaging market will reach about USD 27.7 Milliarden in 2025 and grow to USD 102.1 Milliarden von 2034. This growth is driven by rising demand for biologic medicines, heightened regulatory requirements and a push toward sustainability.

Cold chain packaging isn’t just about boxes and ice packs. New materials such as Phasenwechselmaterial (PCMs) Und Vakuumisolationsgremien (VIPs) provide extended cooling with minimal energy inputs. Internetconnected sensors enable realtime monitoring, ensuring shipments remain within specification. In der Zwischenzeit, regulatory frameworks like the EU-Verordnung über Verpackungen und Verpackungsabfälle (Pp) are accelerating a shift from singleuse EPS to reusable, circular systems. This article demystifies cold chain packaging systems, explaining how they work, why they matter and what to expect in 2025.

Types of cold chain packaging systems: Explore active, passiv, hybrid and sustainable solutions, and how PCMs and VIPs work.

Temperaturecontrol mechanisms: Learn how phase change materials, vacuum insulation and smart sensors maintain stability and reduce waste.

Market trends and drivers: Discover why the market is growing, the impact of mergers, KI und IoT, and how sustainability is reshaping packaging.

Regional dynamics and challenges: See how North America, Asien-Pazifik, Europe and emerging regions address infrastructure gaps, regulations and environmental goals.

Praktische Ratschläge: Find actionable tips, user scenarios and FAQs to optimise your cold chain strategy, backed by expert insights and realworld examples.

What are cold chain packaging systems and why do they matter?

Cold chain packaging systems are specialised containers and thermal solutions designed to maintain a product’s required temperature throughout shipment. They combine insulation, refrigerants and sometimes active cooling to protect temperaturesensitive items like vaccines, Biologika, Fleisch, seafood and specialty chemicals from spoilage. As the global pharmaceutical cold chain market is worth around USD 65 Milliarden in 2025, reliable packaging systems are critical for public health and business continuity.

These systems help you meet regulatory requirements, reduce waste and build trust. Zum Beispiel, die USA. Food and Drug Administration (FDA), Europäische Arzneimittel-Agentur (EMA) und Weltgesundheitsorganisation (WER) require documentation proving proper storage and transport conditions. Realtime data logging and traceability systems provide this assurance. Zusätzlich, effective packaging reduces CO₂ emissions by preventing spoilage and enabling more efficient transport options like sea freight, which emits 47 times less greenhouse gas per tonmile than air.

Types of cold chain packaging systems: active, passiv, hybrid and reusable

Cold chain packaging solutions fall into four broad categories: active, passiv, hybrid and sustainable/reusable. Each uses different technologies to achieve temperature control.

Active thermal solutions – when precision matters

Active thermal systems are comparable to miniature refrigerators or freezers. They use electricity or batteries to power compressors, fans or thermoelectric devices that maintain set temperatures. Because they must be plugged in or charged, these units are often used for highvalue shipments where temperature deviations are unacceptable, such as gene therapies or premium seafood. The downside is higher cost and complexity – they are expensive to transport and may require validation for each shipping lane.

Passive thermal solutions – harnessing phase change materials and water

Passive systems rely on insulation and refrigerants rather than powered cooling. Phasenwechselmaterial (PCMs) or gel packs absorb and release latent heat as they transition between solid and liquid states, maintaining a set temperature for extended periods. Zum Beispiel, PCMs formulated to melt at +5 °C keep refrigerated vaccines stable, while subzero PCMs support frozen shipments. Passive solutions include reusable shippers, sustainable parcel systems and insulated containers.

Hybrid solutions – balancing active and passive benefits

Hybrid systems combine a passive cooling core with an active backup. If the active component fails or power is unavailable, the passive PCM layer continues to regulate temperature. Hybrid designs are gaining popularity for longdistance shipments where redundancy enhances reliability. They offer controlled performance similar to active systems, with the added security of passive backup.

Sustainable and reusable thermal solutions – the future of cold chain

Reusable packaging systems are central to sustainability. These designs use durable materials, modular components and rental models to reduce waste and capital expenditure. Zum Beispiel, reusable cold boxes have utilisation rates expected to rise from 30 % Zu 70 % in coming years. Companies like Peli BioThermal offer Crēdo Cube containers that maintain ultralow temperatures for over 144 Std. and are refurbished and redeployed through global networks. Reusable systems can lower CO₂ emissions and total cost of ownership while meeting regulatory goals.

Tisch 1 – Types of cold chain packaging systems

Verpackungsart	Examples and technologies	Praktische Bedeutung
Aktiv	Powered containers with compressors or thermoelectric modules; integrated data loggers	Provide precise temperature control for highvalue pharmaceuticals or cell therapies where deviations are unacceptable.
Passiv	Insulated boxes with gel packs or PCMs; wiederverwendbare Versandtaschen; pallet blankets	Costeffective for pharmaceuticals and food shipments. PCMs maintain specific temperatures (+5 °C, +1 °C or subzero) ohne externe Stromversorgung.
Hybrid	Combination of active coolers with passive PCM modules	Offers redundancy by using active cooling when available and passive cooling as backup.
Sustainable/reusable	Rentalbased reusable boxes, circular insulation panels, VIPbased containers	Reduce waste and CO₂ emissions. Utilisation rates may increase to 70 % due to rental models; support corporate ESG commitments.

Practical tips for choosing a packaging solution

Prioritise highrisk products: Deploy active or hybrid solutions for ultracold vaccines and highvalue biologics where excursions are costly.

Consider rental models: Renting reusable cold boxes reduces upfront costs and eliminates asset storage challenges.

Integrate monitoring systems: Choose packaging with builtin sensors, blockchain or cloud connectivity to improve traceability and compliance.

Evaluate shipping lanes: Factor in transit duration and environmental conditions; PCMs must be conditioned appropriately and VIPs may be justified for long routes.

Wirklicher Fall: A clinical research organisation shipping temperaturesensitive cell therapies between the U.S. and Asia adopted hybrid packaging with VIP insulation and PCM modules. The combination maintained temperatures within ±1 °C for 96 Std., reducing product loss and saving approximately $300,000 annually by avoiding spoilage and return shipments.

How do cold chain packaging systems maintain temperature stability?

The ability of cold chain packaging systems to maintain temperature hinges on a mix of thermal management technologies, Isolationsmaterialien Und digital monitoring.

Phase Change Materials and thermal management

Phase change materials store and release heat as they transition between solid and liquid states. PCMs maintain a nearly constant temperature during the melting or freezing process, providing a steady thermal environment without external power. Modern formulations cover a range of temperature points: +18 °C for ambientsensitive products, +5 °C for refrigerated pharmaceuticals and various subzero temperatures for frozen goods. Biobased PCMs derived from renewable sources offer environmental benefits while matching the performance of petroleumbased materials.

Microencapsulation prevents leakage by coating PCM particles with protective shells, allowing them to be integrated into flexible pouches, rigid containers and composite panels. Reusable PCM systems provide economic benefits for highfrequency routes; they can be conditioned repeatedly and offer consistent performance over multiple cycles.

Vacuum insulation panels and advanced barrier systems

Vakuumisolationsgremien (VIPs) represent stateoftheart insulation technology. By removing air to create a vacuum and using barrier layers to maintain it, VIPs virtually eliminate conduction and convection, delivering superior thermal performance in thin walls. This allows shippers to maximise payload volume while reducing weight – a major advantage when shipping by air or courier. Jedoch, VIPs are costlier to manufacture and require careful handling to avoid puncture. Hybrid packaging designs often combine VIPs in critical areas with conventional insulation elsewhere to balance performance and cost.

Barrier materials such as metallised films, ceramic coatings and multilayer composites add protection against moisture, oxygen and other contaminants. Smart barrier systems can signal when the package seal has been compromised or environmental exposure occurs, enabling quicker decisionmaking.

Smart monitoring and sensor integration

The Internet of Things (IoT) has transformed cold chain packaging from passive insulation into proactive monitoring and datadriven optimisation. Wireless sensors measure temperature, Luftfeuchtigkeit, Schock, light exposure and GPS location, transmitting data to cloud platforms for realtime analysis. Advanced systems integrate predictive analytics to identify highrisk routes and optimise shipments, Verderb verringern. Zum Beispiel, during the global distribution of mRNA vaccines, sensors with 1–5 minute interval monitoring ensured that the product remained within ultracold ranges.

Blockchain technology adds a tamperproof record of conditions across the supply chain, while smart contracts can trigger automated actions based on sensor data. These features build trust among partners and support compliance with regulations like the UNS. FSMA-Regel 204, which mandates 24hour traceability for highrisk foods.

Tisch 2 – Technologies used to maintain temperature stability

Technologie	Wie es funktioniert	Vorteile
Phasenwechselmaterial (PCMs)	Absorb/release heat at specific melting points; microencapsulated for leak protection	Maintain precise temperatures without power; reusable PCMs cut costs and waste.
Vakuumisolationsgremien (VIPs)	Create a vacuum between barrier layers to reduce heat transfer	Provide high thermal performance in thin walls; increase payload capacity and reduce weight.
Smart Sensors and IoT	Überwachen Sie die Temperatur, Luftfeuchtigkeit, shock and location; send data to cloud platforms	Enable realtime alerts, predictive analytics and traceability; support regulatory compliance.
Advanced Barrier Materials	Use metallised films, ceramic coatings or multilayer composites to block moisture and oxygen	Extend shelf life and protect product integrity while ensuring recyclability or compatibility with automated packaging systems.

Practical tips for maintaining stability

PCMs richtig konditionieren: Ensure that PCMs are fully frozen or conditioned at the target temperature before packing; improper conditioning reduces performance.

Use VIPs strategically: Deploy VIPs for longhaul shipments or highly sensitive products; combine with standard insulation in less critical areas.

Leverage realtime monitoring: Invest in data loggers and wireless sensors to detect excursions promptly and intervene before product loss.

Plan for extreme climates: Validate packaging performance across seasonal profiles (summer heat, winter cold) to ensure reliability on all routes.

Wirklicher Fall: A seafood exporter adopted VIPbased packaging with IoT sensors for shipments from Norway to Japan. The sensors tracked temperature, humidity and GPS location, while the VIPs reduced ice usage. Über ein Jahr, the company lowered spoilage rates from 5 % Zu 1 % and saved more than €50,000 in fuel and refrigerant costs.

Market trends and drivers shaping cold chain packaging in 2025

Rapid market growth and investment

The cold chain packaging sector is experiencing explosive growth. Forecasts indicate that the global market will rise from USD 27.7 Milliarden in 2025 Zu USD 102.1 Milliarden von 2034, darstellen a 15.6 % durchschnittliche jährliche Wachstumsrate. The pharmaceutical cold chain alone is worth around USD 65 Milliarde In 2025 and is expected to double by the mid2030s. Growth drivers include:

Surging biologics and cell therapies: Highvalue biologics and mRNA vaccines demand strict temperature control, fuelling investments in advanced packaging.

Digitalisation and AI: IoT sensors with 1–5 minute monitoring intervals and AIdriven analytics are becoming standard, improving risk management and efficiency.

Nachhaltigkeitsdruck: Industry stakeholders are moving from expanded polystyrene (EPS) to reusable, recycelbare Systeme. Regulatory mandates like the EU PPWR are pushing companies toward circular packaging.

Food safety regulations: Requirements like the U.S. FSMA-Regel 204 and other global traceability laws demand packaging capable of documenting conditions across the supply chain.

Ecommerce and lastmile delivery: Home delivery of temperaturesensitive foods and pharmaceuticals increases demand for lightweight, reliable packaging optimized for parcel carriers.

Consolidation and partnerships

The industry is consolidating as companies seek global reach and expanded capabilities. In Juli 2025, Smurfit Kappa merged with WestRock to form Smurfit WestRock, creating a packaging giant with significant cold chain capabilities. Klang. completed its Eviosys acquisition in June 2025, enhancing metal packaging and reusable solutions. Kaltkettentechnologien (CCT) expanded into Asia by opening hubs in Tokyo and Mumbai, while continuing to integrate digital monitoring with reusable packaging through its CCT Smart Solutions platform. These moves reflect a strategic emphasis on scale, geographic coverage and digital service offerings.

Shift from singleuse EPS to reusable systems

Regulatory and corporate sustainability commitments are accelerating the transition from singleuse expanded polystyrene (EPS) to reusable, recyclable and circular models. EPS is criticised for poor recyclability and landfill accumulation. Companies like Cold Chain Technologies and Peli BioThermal are investing in curbsiderecyclable insulation systems and rental pools. The EU PPWR mandates increased recycled content and reusable packaging, making circular models a financial necessity. Rental and pooling systems such as Crēdo Go deliver environmental benefits and reduce total cost of ownership by optimising asset utilisation.

Integration of IoT and realtime monitoring as standard practice

Realtime monitoring is moving from premium feature to standard requirement. IoTenabled sensors embedded in packaging now provide continuous data on temperature, humidity and shock. Predictive analytics derived from sensor data help identify highrisk routes and optimise logistics proactively. The success of these systems during the COVID19 vaccine rollout underscores their value. Beyond pharmaceuticals, perishable food industries adopt smart packaging for traceability and to comply with food safety regulations.

Development of highperformance sustainable insulation materials

Erforschung von biobased foams, Aerogele Und Vakuumisolationsgremien is paving the way for sustainable, highperformance solutions. Unternehmen mögen Fiberwood are scaling woodfibre insulation that rivals EPS in performance but decomposes naturally. VIPs offer thinner walls and increased payload capacity, reducing transportation volume and emissions; while high upfront costs remain, scale economies are expected to lower prices.

Standardisation and interoperability for reusable ecosystems

One challenge with reusable packaging is fragmentation—different sizes, materials and pooling systems complicate reverse logistics. Industry leaders are exploring standard container sizes, material specifications and interoperability protocols to create shared networks. Public–private partnerships could align regulation with innovation, reduce barriers for smaller players and enable multiparty pooling.

Tisch 3 – Key market trends and their significance in 2025

Trend	Beschreibung	Impact on users
Marktwachstum & Investition	Market projected at USD 27.7 Milliarden in 2025, wächst auf USD 102.1 Milliarden von 2034.	Signals expanding opportunities in pharmaceuticals and food. Users should prepare for increased competition and innovation.
Consolidation & partnerships	Mergers (Smurfit Kappa with WestRock; Sonoco with Eviosys) and expansions (CCT in Asia).	Expect broader service offerings and integrated digital platforms; choose partners with global reach and sustainability programmes.
Shift to reusable systems	Regulatory and ESG pressures drive a move from singleuse EPS to reusable, recyclable models.	Users must evaluate rental models and invest in circular solutions to reduce waste and meet compliance.
IoT & Echtzeitüberwachung	Sensors with 1–5 minute intervals and predictive analytics become standard.	Realtime data enhances visibility, risk management and compliance; users should adopt monitoring to improve reliability.
Sustainable insulation materials	Development of biobased foams, aerogels and VIPs.	Enables greener packaging without sacrificing performance; users can reduce carbon footprint and meet consumer expectations.
Standardisation & interoperability	Calls for standard container sizes and pooling networks.	Simplifies reverse logistics, reduces costs and enhances scalability of reusable packaging programmes.

Practical recommendations

Adopt a sustainability roadmap: Evaluate your current packaging mix and set clear goals for reducing singleuse materials, integrating reusable systems and adopting curbside recyclable insulation.

Engage technology partners: Choose packaging suppliers that offer integrated sensors and analytics to ensure compliance and lower risk.

Monitor regulatory developments: Stay abreast of evolving laws such as EU PPWR, FSMA-Regel 204 and countryspecific EPR programmes to maintain compliance.

Invest in R&D and trials: Pilot new materials like biobased foams or VIPs to determine cost–benefit tradeoffs for your product portfolio.

Wirklicher Fall: Im Juli 2025 a multinational pharmaceutical company launched a pilot project using vacuuminsulated boxes for mRNA vaccine shipments. The boxes reduced insulation thickness by 50 %, increasing payload capacity. Combined with IoT monitoring, the company reported zero temperature excursions über 2,000 shipments and expects to save over USD 2 Million annually through reduced transport volume and spoilage.

Regional insights: how different regions address cold chain packaging challenges

North America – digitalisation and regulatory stringency

North America dominates the healthcare cold chain logistics market due to robust pharmaceutical and biotechnology industries and early adoption of digital solutions. Die USA. leverages AIdriven temperature monitoring, robotics and automation to enhance manufacturing and distribution efficiency. Compliance with current Gute Herstellungspraxis (cGMP), Die Gesetz zur Sicherheit der Arzneimittellieferkette (DSCSA) and FSMA Rule 204 requires extensive documentation. To succeed in this region:

Investieren Sie in digitalisation and automation, including IoT sensors and integrated data platforms.

Partner with logistics providers that have advanced technology and regulatory expertise.

Ensure adherence to cGMP and DSCSA requirements with clear chainofcustody records.

AsiaPacific – growth, innovation and infrastructure variability

The AsiaPacific region is the fastestgrowing cold chain market due to rising incomes, expanding healthcare investment and a pipeline of biologics. Innovation hubs in India and China are developing portable batterypowered coolers and investing in cold chain infrastructure. Challenges include variable infrastructure and regulatory differences. Recommendations include:

Adapt packaging solutions to infrastructure variability; verwenden portable freezers, solar cold storage and batterypowered units for rural areas.

Build partnerships with local manufacturers and logistics providers to navigate cultural and regulatory nuances.

Leverage government programmes like India’s PM Gati Shakti to access infrastructure investments.

Europe – sustainability leadership and modal shifts

Europe is aggressively adopting reusable packaging and greener transport um den CO2-Fußabdruck zu reduzieren. Many pharmaceutical manufacturers are shifting freight from air to sea; airfreight emits 47 times more greenhouse gases per tonmile than ocean shipping, so combining sea and air modes balances cost and emissions. To succeed in Europe:

Align with the EU’s sustainability mandates and netzero goals, integrating reusable packaging and curbside recyclability.

Participate in pilot projects exploring blockchain and digital twins für die Rückverfolgbarkeit.

Verwenden sea–air logistics strategies to reduce emissions while ensuring delivery reliability.

Latin America and Africa – emerging markets and infrastructure challenges

Latin America and Africa represent emerging markets with growing demand for vaccines and biologics. Infrastructure constraints and inconsistent power supply pose challenges. Strategies include:

Deploy tragbare kryogene Gefriergeräte Und solarpowered cold rooms to overcome electricity shortages.

Investieren Sie in training and capacity building to develop local expertise and ensure proper handling.

Foster public–private partnerships to address funding gaps and leverage international support.

Latest developments and emerging trends (2025)

Cold chain packaging evolves continuously. Here are some of the latest developments and emerging trends shaping 2025 und darüber hinaus:

AIdriven route optimization and predictive maintenance: Logistics providers use machine learning to predict weather patterns, traffic and equipment wear. Predictive analytics help prevent breakdowns and optimise delivery routes.

Merged packaging giants and diversified portfolios: Der Smurfit WestRock merger and Sonoco–Eviosys acquisition expand capabilities, particularly in paperbased thermal solutions and metal packaging. These moves signal industry consolidation aimed at vertical integration and global reach.

Reusable clinical trial containers: Pharmaceutical partnerships are piloting reusable clinical trial containers, demonstrating viability at scale. This paves the way for broader adoption in commercial distribution.

Cold storage modernisation: Global summits emphasise energyefficient refrigeration, insulation upgrades and renewable energy integration. Operators are retrofitting warehouses with smart controls and natural refrigerants to reduce carbon intensity.

Biobased foams and aerogels: Research on materials such as woodfibre insulation (Z.B., Fiberwood) and aerogels offers sustainable alternatives to EPS with comparable or better thermal performance.

Vakuum -isoliertes Panel (VIP) cost reductions: Adoption of VIPs is expected to increase as costs decline with scaled production. VIP technology offers thinner walls, more payload space and reduced emissions.

Multiparty pooling networks: Industry stakeholders are working on standardised container sizes and shared logistics networks to make reusable packaging scalable. Public–private partnerships may accelerate this effort.

Tisch 4 – Market share by product type and application (2025)

Segment	Share and explanation	Meaning for users
Isolierte Behälter (Versender)	40 % of the cold chain packaging market in 2025. Reusable and singleuse shippers are essential for parcellevel distribution of vaccines, biologics and clinical trial materials.	Remain the backbone of pharmaceutical logistics. Users must choose containers with the right insulation and refrigerant combinations to ensure compliance.
Temperaturecontrolled pallet shippers	Um 25 % des Marktes. Used for bulk movements of vaccines, APIs and perishable foods.	Provide cost efficiency for large volumes; ensure compatibility with freight carriers and payload requirements.
Kältemittel (Gelpackungen, PCMs)	The active core of all systems; adoption is growing rapidly.	Choose refrigerants tailored to temperature requirements and shipment duration. PCMs offer better performance than traditional ice packs.
Überwachungsgeräte	Small revenue share but fastest growth due to realtime data logging and GPS tracking.	Essential for compliance and risk management. Select devices offering cloud integration and long battery life.
Protective liners and thermal blankets	Niche segment providing supplemental thermal protection.	Useful as secondary protection or for less sensitive shipments; combine with primary packaging for multimodal journeys.
Pharmazeutika (Anwendung)	Account for 55 % des Marktes.	Reflects the high value and strict regulatory requirements of biologics, vaccines and cell therapies.
Food and beverages	Represent 35 % des Marktes.	Focus on shelflife extension and food safety; costsensitive sector benefits from efficient designs.
Chemicals and other niches	Smaller share but high value; includes reagents, industrial chemicals and emerging sectors like cosmetics.	Requires precision engineering and corrosionresistant materials.

Markteinsichten

Consumer preferences are also shaping the industry. Das zeigen Umfragen 79 % of consumers are changing purchasing preferences based on social responsibility and environmental impact. Um 67 % of consumers have become more mindful about resource scarcity due to the COVID19 pandemic. Companies must integrate sustainability into packaging to meet these expectations. Sustainable cold chain packaging should be beneficial, kosteneffektiv, sourced using renewable energy and physically designed to optimise materials. Embracing the Kreislaufwirtschaft means eliminating waste, reusing materials and ensuring packages can be easily recycled or composted.

Häufig gestellte Fragen (FAQ)

Q1: What is the primary difference between active and passive cold chain packaging systems?
Active systems use electric or batterypowered components (like compressors) to maintain a set temperature; passive systems rely on insulation and refrigerants such as phase change materials or gel packs. Active solutions provide precise control for highvalue shipments but are more expensive and require power. Passive solutions are costeffective and suitable for many pharmaceuticals and food products.

Q2: How do phase change materials (PCMs) improve cold chain packaging?
PCMs absorb or release heat when they melt or solidify, maintaining a nearconstant temperature during transit. Modern PCMs cover various temperature ranges (Z.B., +18 °C, +5 °C, subzero) and can be biobased. Their reuse reduces waste and operating costs.

Q3: Why is sustainability a key trend in cold chain packaging?
Regulations like the EU PPWR and growing consumer awareness push companies to reduce singleuse plastics and adopt reusable, recyclable solutions. Sustainable packaging lowers CO₂ emissions, enhances brand reputation and aligns with corporate ESG goals.

Q4: What role do IoT sensors play in cold chain packaging?
IoT-Sensoren ermöglichen eine Echtzeitüberwachung der Temperatur, Luftfeuchtigkeit, shock and location. Data is sent to cloud platforms where predictive analytics identify potential problems and optimise routes. These systems support regulatory compliance and reduce spoilage.

Q5: How should I choose between reusable and singleuse packaging?
Berücksichtigen Sie die Versandhäufigkeit, product value and regulatory requirements. Reusable packaging requires asset tracking and return logistics but can cut waste and total cost over time. Singleuse solutions may suit lowvolume or longdistance lanes where return logistics are impractical. Evaluate rental programmes to mitigate capital costs.

Zusammenfassung und Empfehlungen

Cold chain packaging systems are indispensable for safeguarding sensitive products through complex global supply chains. Der Markt boomt, projected to reach USD 27.7 Milliarden in 2025 and quadruple by 2034. Key innovations—such as phase change materials, Vakuumisolationsgremien, smart sensors and reusable systems—are redefining how we preserve temperature stability. Regulatory pressures and consumer demand are driving a transition from singleuse EPS to recyclable and circular solutions, while AI and IoT analytics are becoming standard.

Um erfolgreich zu sein, evaluate your product portfolio, identify critical temperature requirements and select the right mix of active, passiv, hybrid and reusable solutions. Führen Sie eine intelligente Überwachung ein to ensure compliance and anticipate risks. Priorisieren Sie Nachhaltigkeit, leveraging reusable systems, biobased materials and efficient transport modes. Bleib informiert about regional regulations and emerging materials, and collaborate with suppliers and logistics providers to implement innovative, scalable solutions. The payoff is lower waste, improved reliability and a competitive edge in the evolving cold chain landscape.

Über Tempk

We are a leading provider of cold chain packaging systems, combining decades of industry experience with cuttingedge research and development. Our products range from phasechange material shippers Und reusable insulated boxes Zu smart monitoring platforms. We pride ourselves on delivering nachhaltig, costeffective and compliant solutions that meet the demands of pharmaceuticals, Biotechnologie, food and other temperaturesensitive industries. Our team of engineers, data scientists and supply chain specialists works closely with clients to customise solutions and provide ongoing support.

Nächste Schritte

Ready to optimise your cold chain strategy? Kontaktieren Sie uns for a personalised consultation. We’ll help you assess your current packaging systems, identify opportunities to reduce waste and adopt the latest innovations in 2025.