"With a reefer container temperature monitoring system, you can reduce the need for manual checks, allowing your team to focus on more productive and strategic operations."
Jordi Asensio, Product Manager Reefer Runner
The development of refrigerated containers, which emerged in response to these challenges, proved to be a revolutionary turning point in the transportation industry. With global trade growing and new products requiring controlled temperature, effective temperature monitoring is paramount.
Storing and transporting ice or perishable goods has a long history. Ancient civilisations such as the Persians, Romans and Chinese developed various methods to harvest ice in colder regions and transport it to warmer climates. They already had a remarkable understanding of isolation and preservation techniques. Ice houses or ice pits were built in which ice was collected during the winter months and insulated with straw or sawdust. This meant it could be stored for a more extended period of time and used all year round.
In the centuries that followed, the possibility of transporting seafood, for example, remained limited to coastal, lake and river areas. In the early 19th century, ice and salt were placed beneath and between cargo, with limited success.
However, in the second half of the 19th century, a number of inventions made it possible to transport perishable goods intact over long distances.
1867 - J.B. Sutherland of Detroit received a patent for refrigerated cars that had particular ice-holding areas at each end.
1876 - The Frenchman Charles Tellier, also called the "father of cold", invented an ether-based cooling system. This made it possible to maintain a temperature of 0° Celsius in transport boxes.
1877- Ferdinand Carré, also from France, further developed Tellier's system. Its compression cooling made it possible to ship 150 tons of frozen meat on a ship from Sydney to Great Britain within 50 days.
From 1900 on - Refrigerated ships—specially designed for transporting bananas—were sold from 1901. CO2 machines reduced and controlled the temperature on them.
1935 - Fred McKinley Jones invented the first portable air cooler for trucks - the modern form of cold chain was born.
1950s and 1960s - The golden age of refrigerated containers is dawning, a real revolution. The control of temperature and transport is getting better and better.
1970s - The reefers that have now been developed are specifically designed for transport on container ships. As is still the case today, they are connected to the ship's network on board. On land, there are specially designed sockets or plug-in power generators (reefer genset) that ensure the power supply.
Today/the future - Remote-controlled systems can monitor and control the container's parameters in real-time. In the event of deviations, immediate action can be taken. This intelligent technology is constantly being refined.
While initially no temperature measurement was possible, simple thermometers or rudimentary temperature measuring devices were later used. Of course, these instruments were not as accurate as modern reefer temperature monitoring devices. Additionally, the ability to control and regulate the temperature inside the cooler was limited compared to today's cooling technology.
Maintaining a precise temperature is an absolute necessity when transporting perishable goods. Some goods have a slightly more extensive range of permitted temperatures; others are less flexible and spoil or become inactive (for example, pharmaceuticals) if they exceed or fall below a threshold value.
Monitoring the refrigeration temperature is crucial in ensuring that these goods reach their destination fresh, safe and ready for market. If carried out inadequately, the consequences can be severe; the goods may spoil, lose quality or pose a health risk to the consumer.
Companies transporting and distributing perishable goods can face significant financial setbacks, reputational damage, and even legal liabilities due to such losses. An uninterrupted cold chain and its monitoring and recording are crucial for them.
Additionally, the importance of reliable refrigeration temperature monitoring has never been more critical, given increasingly stringent food safety regulations and quality standards, as well as growing consumer awareness and demand for traceability.
And, last but not least, a maintained cold chain helps to counteract product waste—an integral step towards more sustainability.
Maintaining the optimal temperature in a refrigerated container is a complex undertaking influenced by various factors. Understanding and managing these influences are crucial for the safe and effective transport of perishable goods. The key factors are:
External Environmental Conditions
The surrounding area's temperature and humidity, as well as weather conditions, can affect the reefer's internal temperature. Extreme values can be challenging and sometimes even overwhelming for the cooling system.
Insulation Quality
The insulation materials used in the reefer's construction are crucial to maintaining temperature. Poor insulation can lead to heat transfer or loss, causing temperature fluctuations. In addition, poorly insulated reefers use an unnecessary amount of energy, bringing us back to sustainability.
Reefer Maintenance
Regular reefer maintenance is crucial. Any mechanical problems, refrigerant leaks, or insulation deficiencies must be addressed before transportation. If defects occur during the trip, they should be remedied as quickly as possible.
Packaging
Perishable goods must be packaged appropriately. On the one hand, to protect them from physical damage; on the other hand, the packaging materials must also withstand temperature fluctuations.
Pre-cooling
Before loading, the goods should undergo pre-cooling to reduce their temperature to the desired level. This minimises thermal shock and ensures the cooling system can more efficiently maintain the required temperature during transport.
Cargo And Stowage
The type and quantity of goods can also influence temperature distribution. If the reefer is overloaded or the goods are stacked improperly, air circulation can be hindered, which in turn can result in uneven cooling.
Ventilation and air circulation
Proper air circulation and ventilation are essential for even temperature distribution in the reefer. If ventilation is insufficient or air ducts are blocked, hotspots or cold spots can arise.
Performance of the cooling system
Of course, the cooling system itself also has an enormous influence on temperature control. Mechanical failures, refrigerant leaks or incorrect settings cause temperatures to deviate from target values.
Duration of transport
Longer transport times may require more robust cooling systems or additional monitoring measures to prevent temperature fluctuations over more extended periods.
Handling practices
It is generally recommended that all goods be handled carefully. In the case of temperature-sensitive goods, further damage can result from rough handling or damage to the container (e.g. door seals) if the temperature stability is no longer ensured.
Regulatory requirements
Regulatory standards and industry guidelines for temperature maintenance and control must be followed. Failure to comply could result in official penalties, product rejections or legal obligations.
Emergency Response Plan
An indispensable factor for the success of temperature-sensitive transport is the reaction of those involved in emergencies. Therefore, an emergency plan should outline procedures to deal with temperature fluctuations, equipment failures, or other unforeseen incidents during transportation. Staff must have emergency protocols and the necessary tools and resources to respond effectively to emergencies.
A central factor is knowledge of the current circumstances. This requires temperature monitoring devices such as data loggers or wireless sensors in the refrigerated container to continuously monitor temperature conditions throughout the journey. These devices provide real-time data and alerts, enabling proactive intervention in the event of temperature deviations.
Addressing these factors effectively requires a comprehensive approach that includes adherence to best operating standards, preventive maintenance practices, and advanced temperature monitoring technologies. By proactively managing these factors, stakeholders can optimise temperature control in the refrigerated container, minimise risks, and ensure the safe and reliable transport of perishable cargo.
So, how are the conditions within the reefer measured and monitored? There are a variety of tools and systems used to ensure the integrity of perishable goods throughout their journey.
Manual Monitoring
Let's first take a look at the traditional method of reading the data by hand. This means that one or more employees have to make their way to the reefer area, regardless of the weather, and take the information from each reefer individually; this usually happens once per shift. The values are recorded either on paper or electronically, for example, using a tablet. Certainly, with the paper solution and the tablet solution, the data may have to be transferred to a central system later.
This creates several sources of errors: once when reading the data itself and then when transferring it. And, if things get serious during an investigation, you are never entirely immune from accusations of manipulation.
In addition, manual reading is often complicated and time-consuming in terminals with several hundred or thousand reefer parking spaces—and sometimes simply no longer possible. We should also not forget that staying in the yard involves safety risks, especially with the reefers and their high-voltage power connections.
Automated Monitoring
From simple but essential sensors to sophisticated data logging systems and innovative remote monitoring solutions, these methods and reefer temperature monitoring devices form the backbone of modern refrigeration strategies.
Automated systems provide precise monitoring and control of temperature and other conditions. Operators can remotely monitor the condition of all refrigerated containers in real time, allowing them to respond quickly to deviations or emergencies. This helps prevent goods from spoiling and regulate energy consumption.
Data logging capabilities enable detailed tracking of temperature trends and the generation of reports for auditing, analysis, and compliance purposes.
Reefer Temperature Monitoring Devices
A whole range of devices and systems must be coordinated to ensure smooth monitoring and control of the temperature in the reefers:
When should you consider automated reefer monitoring?
What hygiene standards must reefer containers meet?
Strict hygiene standards must be maintained when operating refrigerated containers to ensure the safe transport of sensitive goods. Various international and national regulations have been established to prevent contamination, maintain product quality, and protect public health.
The Hazard Analysis and Critical Control Points (HACCP) is an internationally recognised system that identifies and controls potential food safety hazards. It is more of a management system than a set of binding regulations. Still, it offers specific principles and guidelines that lead to detailed hygiene standards, especially regarding food safety during transport. So, for example, anyone who wants to be HACCP-certified must reliably clean and disinfect all surfaces that come into contact with food, including those in refrigerated containers, before and after each use. To do this, food-safe, non-toxic cleaning agents must be used to avoid chemical contamination.
The ISO 22000 standard also contains provisions for properly cleaning refrigerated containers. Cleaning records are required as part of the documentation process to ensure traceability and accountability. These records should show when and how the cleaning was carried out, what agents were used, the reefer was inspected, and its hygienic condition was confirmed before each use.
EU Regulation No. 852/2004, on the other hand, contains provisions for transporting food in reefers that have previously transported other non-food cargo. Here, too, it is imperative to keep detailed records, in this case, of the previous use of the reefer, including the type of cargo transported. In addition, a strict risk assessment must be carried out to determine whether it is permissible to release the reefer for food transport.
For a long time, the transport of refrigerated goods was only possible over very short distances. Only in the second half of the 19th century did the first of the crucial inventions make the range of exotic goods that we now see possible.
Maintaining the necessary temperature is a complex matter; various external factors, such as insulation quality, packaging of goods, and ambient temperature, influence the cooling temperature.
Traditional manual data reading increasingly gives way to the automated remote reefer monitoring system, especially on large terminals. The data recorded by the sensors is collected by data loggers and sent wirelessly to systems, which can display various information in real-time, as well as critical warnings and alarms.
These modern systems are a vital step in keeping pace with the growth of refrigerated cargo in global trade. They help monitor and control the integrity of the cargo and energy consumption, both essential elements in the pursuit of ever-greater sustainability.
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Note: This article was updated on the 4th of October 2024