Solutions logistiques sous chaîne du froid: comment ils protègent les denrées périssables et réduisent les coûts

Solutions logistiques sous chaîne du froid are the technologies, processes and best practices that keep temperaturesensitive products safe from origin to destination. These solutions allow you to deliver vaccines, fresh produce and pharmaceuticals without spoilage, even across continents, by monitoring temperature, humidité et localisation en temps réel. With the global cold chain logistics market predicted to grow from USD 436.30 milliards en 2025 en USD 1,359.78 milliards 2034, understanding these solutions is essential to remain competitive. This guide explains what cold chain logistics solutions are, Pourquoi ils comptent, and how to implement them.

What challenges do cold chain logistics solutions address? – Learn why maintaining precise temperature and regulatory compliance is crucial, and how IoT sensors reduce “black box” shipments.

How do predictive analytics and AI optimise cold chain operations? – See how data analytics foresees temperature excursions and route delays.

Why are sustainable packaging and renewable power gaining traction? – Discover innovations like solarpowered refrigeration and biodegradable packaging.

How can SMEs and emerging markets benefit from shared infrastructure and IoT? – Explore APAC’s booming market and practical strategies for small businesses.

What trends will shape cold chain logistics through 2025 et au-delà? – Understand upcoming technologies such as digital twins, edge computing and blockchain.

What challenges are addressed by cold chain logistics solutions?

Répondre: Cold chain logistics solutions overcome the risks of temperature deviations, lack of realtime visibility and strict regulatory pressure. Maintaining a controlled environment is the foremost challenge: temperatures can drift during loading or transport, leading to product spoilage or safety issues. Without continuous monitoring, shipments become “black boxes” in transit, so problems are discovered only after goods arrive. En outre, regulations require exhaustive temperature logs and chainofcustody records, and gaps can result in rejected shipments.

Explication élargie:
From vaccines to frozen blueberries, perishable goods must stay within precise temperature and humidity ranges throughout their journey. Temperature breaches occur during loading, unloading or traffic delays and can destroy entire consignments. Many companies still rely on manual logbooks or infrequent checks, which means managers find out about problems after the fact, often when it’s too late. Governments and international agencies are tightening regulations; pharmaceutical shipments require continuous temperature logging and traceability. Companies must also navigate infrastructure constraints (insufficient refrigerated warehouses or parking) and rising energy costs, which increase operating expenses. In urban areas, lastmile delivery is especially complex, with multiple handovers and narrow delivery windows that heighten the risk of temperature excursions. Enfin, a proliferation of sensors and platforms can overwhelm managers with data, making it hard to derive actionable insights.

How do IoT sensors enhance realtime visibility?

Informations détaillées:
Modern cold chain logistics solutions rely heavily on Internet of Things (IoT) sensors and trackers to transform “black box” shipments into transparent, monitored assets. Devices like the LL309 Temperature and Humidity Monitoring Tracker integrate realtime GPS location and internal temperature/humidity readings into a single cellularenabled unit. When conditions drift outside preset limits, the tracker sends instant alerts via mobile networks, and it stores thousands of data records onboard to ensure a complete audit trail. By placing such multisensor trackers on pallets, containers and vehicles, you gain endtoend visibility across the supply chain. Cloud dashboards or mobile apps allow both operators and customers to monitor shipment health from anywhere. Some trackers, like the FedEx SenseAware ID sensor, update location every two seconds, enabling shippers to respond proactively. Integrating fixed sensors in cold storage facilities with Transportation Management Systems (TMS) further enhances visibility and enables automated compliance reporting.

IoT Solution	Data Captured	Ce que cela signifie pour vous
Multisensor trackers (LL309, SenseAware ID)	GPS location, température, humidité	Realtime visibility of shipments; instant alerts enable corrective actions before spoilage
Fixed IoT sensors in warehouses and trucks	Ambient temperature/humidity; door status	Continuous monitoring of storage facilities; data accessible via dashboards for proactive adjustments
Bluetooth/RFID tags	Proximity and identity of items	Reduced misplacement of pallets; automated inventory tracking and faster retrieval

Action

Monitor critical shipments: Use multisensor trackers on highvalue or temperaturesensitive loads. Set alert thresholds based on product requirements and designate responsible personnel to act on alerts immediately.

Connect your sensors to a TMS: Integrate IoT data with your transportation or warehouse management software to automate alert workflows and generate compliance reports automatically.

Benchmark performance: Analyse data over time to identify routes, pallets or equipment that frequently experience temperature deviations and prioritise maintenance or alternative routing.

CASE: A pharmaceutical distributor shipping vaccines across continents deployed cellular trackers on every pallet. During a heat wave, one sensor recorded a gradual temperature rise while the truck was stuck in traffic. Because the tracker sent an alert, the operator rerouted the shipment to a nearby cold storage facility, avoiding a potential recall. The detailed temperature log also satisfied regulatory inspectors, demonstrating adherence to safety protocols.

How do predictive analytics and AI optimise cold chain operations?

Répondre: Predictive analytics and artificial intelligence (IA) turn raw temperature and route data into actionable intelligence, allowing operators to forecast risks and optimise routes. By analysing historical temperature logs, weather forecasts and vehicle performance, AI systems can predict when shipments are most likely to experience temperature excursions and recommend preemptive actions.

Explication élargie:
Collecting data is only half the battle; making sense of it is equally important. Advanced analytics tools ingest historical temperature logs, delivery records and external data (trafic, météo) and output predictions about where and when issues may occur. Par exemple, predictive models might reveal that a particular route during summer causes refrigeration units to overwork. Planners can adjust by choosing alternate routes, scheduling maintenance or adding extra insulation. Integration with warehouse management systems allows dynamic inventory control: if a sensor shows a cold room trending warm, the system automatically reroutes goods or increases cooling power. At the lastmile level, AI supports route optimisation by analysing realtime traffic and delivery windows, réduire la consommation de carburant et les retards. Some platforms use machine learning to identify shipments at high risk of delay or spoilage, allowing managers to prioritise monitoring. Predictive analytics also improves packaging decisions, such as selecting pallets or gel packs that maintain temperature longest under certain conditions.

How does data analytics forecast temperature excursions?

Informations détaillées:
Predictive models combine internal sensor data with external variables to identify patterns. Par exemple:

Weather correlation: AI correlates outside temperature forecasts with vehicle performance. If a region experiences high ambient temperatures, the system predicts increased compressor workloads and suggests adding phasechange gel packs or scheduling maintenance.

Route risk analysis: Algorithms identify routes with frequent delays (Par exemple, traffic congestion or customs inspections) and recommend alternative paths or departure times.

Inventory heat mapping: By merging sensor data with warehouse layouts, the system identifies hot spots in storage and adjusts placement of sensitive goods.

Equipment health: Machine learning models detect patterns in compressor energy use and signal impending failures, allowing preemptive maintenance and avoiding expensive breakdowns.

Analytics Application	Description	User benefit
Prévision de la demande	Predicts demand spikes based on seasonal patterns or events (Par exemple, Ramadan, holiday seasons)	Align stock levels and production with expected demand
Optimisation des itinéraires	Uses realtime traffic and weather data to suggest the fastest, most fuelefficient paths	Reduces delivery time and energy consumption, lowers carbon footprint
Temperature excursion prediction	Analyses sensor data to forecast when a shipment is likely to leave safe temperature ranges	Permet des interventions proactives (re-routing, adjusting insulation) before spoilage occurs
Package optimisation	Evaluates which packaging materials (packs de gel, couvertures, panneaux à vide) maintain temperature longest under various conditions	Lowers packaging costs and waste; improves product quality

Action

Invest in analytics training: Ensure teams understand how to interpret predictive dashboards and integrate insights into daily decisions. Provide training to nontechnical staff to empower them to use selfservice analytics tools.

Start with highimpact use cases: Focus on predicting the most costly issues, such as compressor failure or delays on critical routes. Demonstrating quick wins encourages adoption.

Continuously refine models: Feed actual results back into your models to improve accuracy over time. Collaborate with data scientists to adjust for new variables such as climate change or regulatory shifts.

CASE: A frozen seafood exporter used predictive analytics to forecast temperature spikes during summer shipments to the Middle East. The system recommended adding extra insulation and adjusting departure times, Réduire la détérioration de 20%. In another pilot, AI route optimisation reduced fuel consumption by 15% by avoiding congestion and minimising idle time.

Why are sustainable packaging and renewable power gaining traction?

Répondre: Sustainability initiatives are becoming integral to cold chain logistics as customers and regulators demand greener practices. The cold chain is energyintensive, accounting for a significant carbon footprint. Companies are responding by adopting renewable energy, ecofriendly refrigerants and sustainable packaging.. Solarpowered refrigeration units and compostable packaging are no longer niche innovations but mainstream solutions..

Explication élargie:
Cold chain logistics relies on refrigerated trucks, warehouses and containers that consume large amounts of electricity and often use refrigerants with high global warming potential. Clients, governments and investors are pressing for lower emissions. Par conséquent, companies are investing in energyefficient refrigeration, ecofriendly refrigerants, et renewable power sources like solar panels or gridconnected green energy programs. Dans de nombreuses régions, including Nigeria and the Middle East, solarpowered cold rooms are used to support communities with limited grid access. Solar installations reduce energy costs because commercial electricity rates can be more than twice the cost of solar – for example, NOUS. commercial users paid around 13.10 cents per kWh in 2024, while solar rates range from 3.2 à 15.5 centimes. Innovations in packaging also matter. Portable cryogenic freezers can maintain temperatures as low as –80 °C à –150 °C pour les expéditions pharmaceutiques. Léger, insulated containers with IoT sensors monitor conditions and reduce weight, leading to lower fuel consumption. Sustainable packaging solutions include recyclable insulated containers, biodegradable thermal wraps and reusable cold packs. Such initiatives not only reduce environmental impact but also meet stricter food safety regulations.

Why are solarpowered refrigeration units gaining traction?

Informations détaillées:
Solarpowered refrigeration units harness photovoltaic panels to run compressors without drawing electricity from the grid. This solution is particularly valuable in regions with unreliable power supplies or high energy costs. Companies like EjaIce Nigeria deploy solar refrigeration units to reduce food waste and improve food security. Solar panels can be mounted on warehouse roofs or integrated into mobile refrigeration units. When combined with battery storage, these systems maintain temperatures overnight. In addition to reducing operating costs, solar units help companies meet netzero commitments, tel que Saudi Arabia’s Vision 2030 et the UAE’s Net Zero 2050 stratégies. De plus, regulators in countries such as Saudi Arabia are tightening standards through bodies like SASO, encouraging adoption of greener refrigerants and energyefficient cooling.

Sustainable innovation	Description	Avantage pratique
Solarpowered cold rooms and reefer units	Refrigeration powered by solar panels and battery storage	Reduces electricity costs and carbon footprint; enables operation in areas with unreliable grids
Réfrigérants écologiques (hydrocarbons, Co₂)	Replace highGWP synthetic refrigerants with natural alternatives	Lower environmental impact and compliance with regulations such as the Kigali Amendment
Matériaux à changement de phase (packs de gel)	Packs that absorb or release heat at specific temperatures to maintain cold chain	Reduce compressor load and energy consumption; maintain temperatures longer during delays
Recyclable or biodegradable packaging	Boîtes isolées, thermal wraps and reusable cold packs	Cut waste and align with consumer demand for greener products

Action

Audit your energy usage: Evaluate the carbon footprint of your logistics operations. Switching to LED lighting, variablespeed compressors and better insulation can dramatically reduce electricity use.

Explore solar incentives: Investigate local tax credits or incentive programs for renewable energy (Par exemple, Singapore and Malaysia’s incentives for carbon capture and storage). Installing rooftop solar panels can offset energy costs and provide backup power.

Select sustainable packaging: Choose insulation materials that are recyclable or compostable. Consider phasechange gel packs or vacuum panels to extend cold retention and reduce reliance on mechanical refrigeration.

CASE: A dairy cooperative in India installed rooftop solar panels on its cold storage facility, lowering annual energy costs by 35% and qualifying for state greenenergy incentives. It also switched to biodegradable thermal wraps and reusable gel packs, reducing packaging waste by 40%. Customers praised the company’s environmental commitment, helping them win contracts with retailers looking for sustainable partners.

How can SMEs and emerging markets benefit from shared infrastructure and IoT?

Répondre: Small and mediumsized enterprises (SMEs) and emerging markets can access worldclass cold chain logistics through shared infrastructure, IoTenabled monitoring and collaborative networks. By partnering with thirdparty logistics providers and using scalable technologies, SMEs avoid heavy capital investment while meeting quality standards.

Explication élargie:
In the AsiaPacific region, demand for fresh and frozen food is growing rapidly. The APAC cold chain logistics market is expected to increase from USD 168.24 billion to USD 253.92 milliards 2030. The region’s food ecommerce market, which includes fresh, frozen and shelfstable products, devrait atteindre USD 635.44 milliards 2029. Rising incomes and urbanisation are reshaping dietary preferences; the chilled segment accounts for about 68% of the APAC cold chain market. Cependant, SMEs often lack the resources to build their own refrigerated warehouses or fleets. Shared cold chain infrastructure—such as multitenant cold storage facilities and temperaturecontrolled transportation offered by logistics giants—allows smaller businesses to operate with the same reliability as large corporations. IoT sensors and GPS tracking are now affordable and accessible; they provide nearrealtime temperature logs and location data, ensuring that shipments stay within the correct range and helping SMEs comply with regulations. Leveraging digital trade solutions also simplifies crossborder compliance and documentation.

How can IoT and shared infrastructure empower SMEs?

Informations détaillées:
The key enablers for SMEs are:

Shared warehouses and transport: Thirdparty providers offer space in temperaturecontrolled warehouses and access to refrigerated trucks, enabling SMEs to scale without purchasing equipment. Flexibility in storage duration and capacity lowers fixed costs.

Regional distribution hubs: Logistics networks such as FedEx’s APAC cold chain allow SMEs to reach customers across borders while maintaining consistent temperatures. These hubs provide valueadded services like crossdocking, packaging and customs clearance.

Affordable IoT sensors: Lightweight sensors (Par exemple, FedEx SenseAware ID) provide GPS and temperature data every few seconds. Because they are reusable and often offered as a service, small businesses can implement them without large capital expenditure.

Outils de conformité numérique: Cloud platforms automate documentation required for HACCP, ISO 22000 and other standards. SME exporters can access trade expertise to navigate complex regulations and reduce the risk of delays or rejections.

Market region or segment	Data and trends	What it means for SMEs
APAC cold chain market	Expected to grow from USD 168.24 B à USD 253.92 B par 2030	Significant opportunity; demand for fresh food and ecommerce drives need for reliable cold logistics
Chilled segment	Accounts for ~68 % of APAC market	Focus on chilled goods (laitier, viande, produits frais) offers growth; ensures products align with consumer preferences
Global market (20252034)	Expected to expand from USD 436.30 B in 2025 en USD 1,359.78 B par 2034	Longterm growth indicates sustained investment opportunities
Asia Pacific growth rate	Highest CAGR ~14.3 % from 20252034	Emerging markets in India, China and Southeast Asia will lead cold chain expansion

Action

Form strategic partnerships: Collaborate with established logistics providers to access cold storage and transport capacity. Negotiate shareduse agreements to scale up or down as demand fluctuates.

Adopt IoT monitoring as a service: Choose subscriptionbased sensor platforms to avoid upfront hardware costs. Many providers offer bundled services including data dashboards and compliance reporting.

Prioritise compliance early: Ensure products meet HACCP, ISO 22000 or other relevant standards before scaling exports. Digital platforms can help maintain accurate records and meet countryspecific regulations.

CASE: A small Malaysian seafood exporter partnered with a thirdparty logistics provider offering shared cold warehouses and IoT tracking. By using FedEx’s temperaturecontrolled shipping service and SenseAware ID sensors, the company scaled exports to Japan without building its own cold storage. Realtime temperature logs supported compliance, and crossborder documentation tools reduced customs delays.

How will emerging technologies transform cold chain logistics by 2025 et au-delà?

Répondre: Emerging technologies such as digital twins, edge computing, cognitive control towers, robotics and blockchain will reshape cold chain logistics, enabling smarter, more autonomous supply chains. These innovations promise to deliver nearperfect traceability, predictive maintenance and seamless integration across carriers and facilities.

Explication élargie:
While IoT and basic analytics are widely adopted today, the next wave of innovations will further streamline cold chain logistics. Jumeaux numériques create virtual replicas of warehouses, vehicles or shipments. They enable predictive maintenance, layout optimisation and performance simulations, with early adopters reporting up to 50 % fewer delays and 40 % productivity gains. Cognitive supply chain control towers go beyond simple dashboards; they autonomously manage shipments, rerouting in real time during disruptions. Informatique de pointe processes sensor data locally in vehicles or warehouses, reducing latency and bandwidth needs. Robotics and automation – including autonomous mobile robots (RAM) and automated guided vehicles (AGV) – enable 24/7 operations with fewer errors, addressing labour shortages. Chaîne de blocs provides tamperproof ledgers for pharmaceuticals and highvalue foods, simplifying compliance and speeding dispute resolution. Lowcode/Nocode platforms allow logistics managers to build custom dashboards without programming, accelerating digital transformation.

What innovations are on the horizon for cold chain logistics?

Informations détaillées:
Key midterm and longterm innovations include:

Digital twins and cognitive control towers: Realtime replicas of operations integrate sensor data, AI and VR/AR to predict and autonomously manage logistics.

Informatique de pointe: Local processing of sensor data in refrigerated trucks or warehouses reduces latency, supports autonomous vehicles and lowers cloud bandwidth costs.

Sustainability and green logistics tech: Electric truck fleets, carbon monitoring and routeoptimising algorithms shift sustainability from “nicetohave” to essential.

Blockchain for trust and traceability: Tamperproof ledgers enhance compliance and consumer confidence. Pilot projects in pharmaceuticals and crossborder shipping are showing promise.

Augmented reality (AR) and 3D printing: AR enhances training and picking efficiency; early trials report 30 % higher productivity and 15 % moins d'erreurs. 3D printing could eventually localise spare parts production, reducing lead times and costs.

Emerging trend	Impact	Considérations
Jumeaux numériques	Simulate cold chain operations to optimise layouts, schedules and maintenance	Requires robust IoT integration and cultural adoption; yields productivity gains
Informatique de pointe	Processes data at the source to enable autonomous vehicles and fast decisionmaking	Investment in hardware and specialised skills needed
Cognitive control towers	Automates routing and disruption management in real time	Depends on highquality live data and advanced AI algorithms
Chaîne de blocs	Provides immutable records for enhanced traceability	Standardisation and consortium collaboration required for widespread adoption
Robotics and AMRs	Reduce labour costs and enable 24/7 operation in cold warehouses	Requires capital investment and retraining of staff
Green logistics technologies	Electric vehicles, carbon monitoring and route optimisation lower emissions	Upfront costs and charging infrastructure remain challenges

Action

Pilot emerging technologies: Start with smallscale digital twin or edge computing projects to validate benefits before rolling them out widely. Engage crossfunctional teams to ensure buyin.

Invest in data quality: All advanced tools rely on accurate, comprehensive data. Develop governance policies and ensure interoperability across systems.

Balance human and automation: While robotics and AI automate repetitive tasks, human expertise is still needed for complex decisions. Offer training and encourage collaboration.

CASE: A European dairy producer built a digital twin of its cold warehouse using IoT sensors and AI. The system simulated different layout configurations and identified bottlenecks, résultant en un 30 % increase in throughput. Entre-temps, an autonomous guided vehicle pilot in the same facility reduced manual pallet movements by 40%, lowering labour costs and improving worker safety.

2025 Nouveau Solutions de logistique de la chaîne du froid

Aperçu de la tendance:
The cold chain logistics industry is undergoing rapid transformation driven by rising demand, technological innovation and sustainability pressures. The global market is expected to expand at a TCAC de 13.46% depuis 2025 à 2034. Asia Pacific will grow at the highest rate (~14.3%), fueled by urbanisation, ecommerce and higher incomes. These factors, combined with stricter regulations and climate change, make cold chain solutions more critical than ever. The latest innovations integrate AI, IoT, blockchain, renewable energy and advanced packaging to deliver safer, more efficient and sustainable logistics.

revoir

Optimisation des itinéraires grâce à l'IA: AI analyses realtime traffic and weather to adjust delivery routes, réduire la consommation de carburant et les retards.

Blockchain for enhanced traceability: Blockchain is being integrated to provide immutable records of product journeys, improving transparency and compliance.

Solarpowered refrigeration solutions: Companies deploy solarpowered cold rooms and reefer units to reduce energy costs and improve food security in regions with limited electricity.

Léger, conteneurs maritimes intelligents: New containers equipped with IoT sensors monitor temperature, humidité et localisation en temps réel, ensuring shipment integrity.

Surveillance activée par l'IoT: The Internet of Things enhances continuous tracking of temperaturesensitive products and supports automated corrective actions.

Sustainable packaging solutions: Ecofriendly packaging materials reduce environmental impact while meeting consumer demand for greener products.

Market expansion through global trade: International trade and reduced trade barriers are enabling crossborder transport of perishable goods; US baked goods exports, Par exemple, rose from USD 3.73 milliards en 2021 en USD 4.21 milliards en 2022, showing the role of export programs in driving cold chain demand.

Insistance au marché:
The AsiaPacific cold chain market, currently valued at around USD 168 milliard, devrait atteindre USD 253.92 milliards 2030, with the chilled segment dominating at 68% partager. Global trade initiatives like the UK Dairy Export Programme and increasing US baked goods exports illustrate how export programs and social media are driving demand for advanced cold chain solutions. Entre-temps, the Middle East and North Africa cold chain market is forecast to reach USD 41.1 milliards 2030, grandir à 8.8% TCAC, driven by demand for perishables, ecommerce and stricter regulations. These figures underscore the growing importance of investments in cold chain logistics infrastructure and solutions.

FAQ

问题1: Why are cold chain logistics solutions crucial for vaccines and biologics?

Vaccines and biologics are highly sensitive to temperature fluctuations. Even slight deviations can render them ineffective or unsafe. Cold chain logistics solutions ensure that these products remain within strict temperature ranges during transport and storage, using IoT sensors, insulated packaging and validated procedures to maintain product efficacy. Par exemple, portable cryogenic freezers can keep biologics at –80 °C à –150 °C. Compliance with regulatory standards such as Good Distribution Practice (PIB) requires continuous temperature logging, which IoT devices provide.

问题2: How can small businesses implement cold chain logistics without huge investments?

SMEs can leverage shared cold storage and transportation services from established logistics providers. Subscriptionbased IoT tracking devices allow small businesses to monitor temperature and location without purchasing expensive equipment. Digital platforms also help SMEs comply with regulations and manage documentation. By forming strategic partnerships and adopting scalable technologies, SMEs can deliver quality products and expand into new markets.

问题3: What is the difference between cold chain logistics and traditional logistics?

Traditional logistics focuses on moving goods from one point to another efficiently. Cold chain logistics adds the dimension of temperature control and monitoring, requiring specialised equipment, insulated packaging and strict procedures. It handles perishable products such as food, médicaments, biologics and chemicals, ensuring they remain safe and effective. Cold chain operations must comply with stringent regulations and often employ advanced technologies like IoT, predictive analytics and renewable refrigeration..

Suggestion

Principaux à retenir:
Cold chain logistics solutions address critical challenges – temperature deviations, visibility gaps, conformité réglementaire, sustainability and infrastructure constraints. They use IoT sensors to monitor shipments in real time, predictive analytics and AI to forecast problems, and renewable energy and packaging innovations to reduce environmental impact. Shared infrastructure enables SMEs to access worldclass cold chains, while emerging technologies such as digital twins, edge computing and blockchain promise smarter, autonomous supply chains. The global market is expanding rapidly, with Asia Pacific leading the growth.

Plan d'action:

Assess your current operations: Map your cold chain processes and identify points of temperature risk or data gaps.

Mettre en œuvre la surveillance de l'IoT: Deploy multisensor trackers on highvalue shipments and connect them to your TMS or warehouse systems for realtime alerts and automated compliance reporting.

Use predictive analytics: Analyse historical data to forecast temperature excursions and optimise routes. Start with highimpact routes or products and iterate based on results.

Invest in sustainable solutions: Explore solarpowered refrigeration, ecofriendly refrigerants, and sustainable packaging to reduce energy costs and meet regulatory requirements.

Leverage shared infrastructure: For SMEs, partner with thirdparty providers offering cold storage and transport services and adopt subscriptionbased IoT sensors.

Stay informed about emerging tech: Monitor developments in digital twins, edge computing and blockchain to prepare your business for the future.
En suivant ces étapes, you can build a resilient, efficient and sustainable cold chain that protects product quality and supports business growth.

À propos Rotation

Company profile:
Tempk is a technologydriven company specialising in temperature monitoring and cold chain logistics solutions. We provide integrated hardware and software systems that combine realtime GPS tracking, temperature and humidity sensing, analyse prédictive, and compliance reporting. Our solutions are used by pharmaceutical companies, food manufacturers and logistics providers worldwide. We pride ourselves on our expertise in IoT, AI and renewable cooling, and our commitment to sustainability.

Appel à l'action:
If you’re ready to safeguard your perishable products and optimise your supply chain, contact Tempk for a personalised consultation. Our experts can help you choose the right combination of sensors, analytics and sustainable practices to fit your operations. Ensemble, we’ll design a resilient cold chain that meets regulatory standards, reduces waste and delights your customers.