Benefits of Using Portable and Specific Gas Analyzers

22.05.2018
Blog
Throughout the year, millions of containers with unidentified gas concentrations enter our ports around the world. Some of these gases, such as fumigants, pesticides or production gases are hazardous to humans, which forms an imminent safety risk to those handling the containers. It is therefore paramount that we ensure effective and thorough measurement processes of container gases.

Checking and analyzing gas measurements can, however, be a time-consuming and costly process, due to lack of user-friendly equipment that would offer instant and accurate results.

In this post we will consider the key requirements for efficient container measurement technologies, and the benefits of the portable gas analyzers that we at Gasmet have developed to meet these needs.

Challenges for Current Technologies and Gas Analyzers

As stated in our previous blog post, there are 3 ingredients in the recipe for secure and cost-effective container measurements:
  1. Containers will almost always contain concentrations of gases that differ from pure air, and gas analyzers must be able to identify whether or not they are hazardous.
  2. The variety of gases in the containers can be immense, which is why gas analyzers need to be able to recognize a wide variety of gases.
  3. The amount of time containers are being held in ports waiting to be ventilated or measured must be minimized in order to guarantee accurate results.
These three points create major challenges for current technologies and gas analyzers. It is almost impossible to predict which gases are present, and can only be unveiled by careful analysis of the components. This, in turn, creates a major health and safety risk if employees are exposed to harmful gases before carefully mapping out the gas consistencies.

What is more, technology must find a way to keep up with the high volume of the shipping containers awaiting measurements.

What is Required of Efficient Gas Analyzers?

Based on the challenges introduced above, an efficient gas analyzer should be able to meet the following criteria:

Specificity - able to distinguish between compounds
Multicomponent capability - can measure a wide range of compounds simultaneously
Portability - can give instant, on-site and online results.

Ultimately, by improving the efficiency of gas analyzers and offering more reliable results, we can cut down the costs significantly, and secure the health and safety of the employees handling shipping containers and the goods inside them. Let’s have a closer look at the benefits of what these 3 features hold:

Specificity

As stated by Kristian Hentelä Gasmet’s Product Engineer, non-specific technologies such as PIDs (photoionization detectors) respond to a fairly large number of different gases, but do not provide much insight into what the true composition of the gas sample is. These kinds of measurements only serve as an indication that there is something other than pure air in the container – they cannot indicate whether or not a gas is harmless like methane, or toxic like benzene.

Mapping out the concentrations of hazardous and non-hazardous gases helps avoid false alarms and time-consuming ventilations. Time is money in transportation, and ventilations cause unnecessary delays.

Multicomponent capacity

As the spectrum of possible gases in a container is vast, measuring each component separately is not feasible. Without prior knowledge about what is in the sample it is difficult to know which components should be measured. This leads to a situation where the measurer would have to use a large amount of equipment or test tubes to have any confidence in that the atmosphere is truly safe. This would be prohibitively expensive and time consuming.

Therefore, gas analyzers need to be able to recognize a number of gases simultaneously. This improves the effectiveness and speed of the assessment, and thereby reduces risk to staff.

Portability

Lastly, it is vital that measurements are carried out swiftly without any delays in the analysis process. In most cases, there is no time to transport the samples, or to wait for the test results.

It is also possible that samplings are not sufficient, or become unstable when being transported to the laboratory, which increase the risk of unreliability. By reducing the amount of equipment and bringing an easily portable instrument to the shipping containers, more accurate and timely results can be guaranteed. What is more, portable devices can offer instant results online.

Gasmet’s Portable DX4040 Gas Analyzer Offers A Solution


Luckily, there are a few good options in the market to tackle the challenges. We firmly believe that Gasmet’s portable DX4040 analyzer presents one of the best solutions on the market for monitoring gases. Here’s why:

The portable FTIR gas analyzers substantially reduce the amount of equipment required to test a container, but more importantly, they enable simultaneous analysis of a large number of target compounds, which improves the effectiveness and speed of assessment, thereby reducing risk to staff.

As our analyzer is portable and contains a complete sampling system, it can be used for measurements directly at the container, without the need to take a separate sample to a laboratory for analysis.

All in all, the DX4040 analyzer has been developed to meet Gasmet’s clear goal to offer a cost-efficient solution to measure multiple gases quickly, accurately and reliably, improving the health and safety of employees.

WHITE PAPER
Benefits-of-Using-Portable-and-Specific-Gas-Analyzers

Container Monitoring White Paper

Gasmet has published a white paper providing comprehensive help and advice for any employers that need to assess such risks in order to protect the health and welfare of staff and customers.

After reading this white paper you will learn:

• The sources of toxic chemicals
International regulations
• The advantages and limitations of the most commonly used monitoring technologies.

DOWNLOAD CONTAINER MONITORING WHITE PAPER

 

Recent articles

Introduction to Quality Assurance of Continuous Emissions Monitoring
Trees Shaping the Global Greenhouse Gas Dynamics

Benefits of Using Portable and Specific Gas Analyzers
Impact of Snow on Soil Greenhouse Gases
Why Container Measurements Are Essential
Technical Challenges of Continuous Mercury Emissions Monitoring
How to Monitor Mercury Emissions

Listing page