Fukushima: Long Term Impact

The gripping drama that unfolded during this month last year filled headlines and news hours all across the world.  On March 11th last year, a huge earthquake and tsunami left more than 20,000 people dead or missing in eastern Japan.  Amidst widespread destruction, the tsunami slammed into the Fukushima Daiichi Nuclear Power Station, disabling cooling systems and leading to fuel meltdowns in three of the six nuclear units.  As invariably occurs, after a few months the media coverage moved on, even though countless problems remain unresolved.  

So why hasn’t the radiation washed away or faded into neutrality?  This same query has plagued eastern Europeans for over 25 years as they continue to deal with heightened radiation levels stemming from the Chernobyl disaster. The answer is that radioactive materials released into the environment in both of these catastrophes are extremely finely dispersed and will last for decades.  In fact, just controlling the spread of radiation has become higher priority than cleaning up the mess in many cases.

In a nutshell, radioactive elements are unstable atoms. They seek stability by giving off particles and energy—ionizing radiation—until the radioisotope becomes stable. This process occurs within the nucleus of the radioisotope, and the shedding of these particles and energy is commonly referred to as ‘‘nuclear disintegration.’’  During their disintegration, most radioactive elements morph into yet other radioactive elements on their journey to becoming lighter, stable atoms. Some of the morphed-into elements are much more dangerous than the original radioisotope, and the decay chain can take a very long time¹. This is the reason that radioactive contamination has a variable lifespan, depending on the composition of the radioactive material. For more information on this topic, see this post on radioactive lifespans.

The most common contamination radionuclides in the Japanese crisis are cesium-134 (with a half-life of 2 years) and cesium-137 (with a half-life of 30 years).  Radiological risk assessment expert John Till, president of the U.S.-based Risk Assessment Corporation, says the fallout will probably be gone from the surface of plants within a few years, but attach strongly, through ion exchange, to soil — in particular to the clay soils common throughout Fukushima². From there, the rate and risk level at which cesium will move into plants is still unclear.  And the oceans are a different matter: sediment levels and changing currents make radioactive duration almost impossible to estimate.

Japanese soldiers collect contaminated leaves near the Fukushima nuclear power plant in December. source

 

All of this information adds up to the need for sustained radiation observation.  In particular, on-going dose rate measurements are essential to avoid overexposure to people, animals, and crops.  Since much of the radiation is mobile, weather changes can cause radiation levels to rapidly fluctuate.  This is a common occurrence in Japan, where after a rain storm brings down radioactive particles, the sun and wind can produce radioactive dust clouds that travel in unpredictable ways.  The mobility of these radioactive particles requires constant monitoring to warn people and keep them indoors on increased risk days.

Not only do these detectors need to consistently and accurately make measurements, they also need to efficiently relay information to analysis locations.  A self-healing mesh network is ideal for this kind of seamless measurement and communication.  This kind of network routes around disabled detectors and can incorporate new detectors at any location in the network.  The Rad-DX, D-tect’s newest addition, operates on the D-tect SensorNet – a mesh network with these capabilities.  To learn more about the SensorNet, visit this page. 

Although the cleanup in Japan may take decades, conditions are steadily improving.  With careful and constant radiation monitoring and improvements to safety standards, future risks may be mitigated.

1: http://www.oecd-nea.org/press/press-kits/fukushima-faq.html

2: http://www.energybulletin.net/stories/2012-01-09/fukushima-cleanup-begins-long-term-impacts-are-weighed

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D-tect Systems is a supplier of advanced radiation and chemical detection equipment sold around the world. www.dtectsystems.com. 

Rad-DX Mesh Network

Everyone knows that a single camera doesn’t make a very effective security system.  Even if placed in an optimal location, a single camera can miss important details – a fact that becomes very apparent on countless action movies.  The same is true with radiation detection.  Many detectors working together can identify threats that might slip by a single detector.  This is the core idea behind the mesh network capabilities of the Rad-DX. 

The D-tect Sensor Net, a wireless mesh network built on the 802.15.4 hardware layer, is responsible of the novel network capabilities of the Rad-DX..  All Rad-DXs used in a system (for example multiple devices used at various entrances of building complex) communicate to each other via the D-tect SensorNet.  Each Rad-DX in range of the system automatically connects to the network, the devices automatically form the most efficient network possible, and all units can be monitored at once.  Because each Rad-DX has integrated WiFi and Ethernet, network data is available to smartphones, iPads, and PCs from anywhere in the world.

The D-tect SensorNet is a self-healing network, meaning that even if a Rad-DX loses its connection to the rest of the network (power outage, communication failure, etc.), the rest of the Rad-DXs will route communications around the inoperative unit and continue to communicate effectively.  Have a large area to cover?  The node-to-node range of the Rad-DX is up to 1 km (line of sight), and systems with multiple nodes can cover great distances.  Integrated GPS in every Rad-DX unit allows you to quickly identify the exact location of incidents.

Each detector is able to communicate with the entire mesh network.  Information is relayed anywhere in the world by units in WiFi range.

The communication abilities of the network are supplemented by the following unique features to ensure security.  First, the both the network and WiFi connections are 128-bit encryption protected.  Monitoring can be conducted in real-time, or past even logs can be reviews.  And floor plans can be integrated into the Rad-DX display to provide an intuitive understanding of where radiation is detected. 

So, remember the lessons of James Bond and don’t try to protect your facility with a single detector.  With a mesh network of Rad-DXs you’ll be able to identify and track threats in ways that were never possible before.  Visit the Rad-DX page for more mesh network explanations and examples.

New Rad-DX App

If there is one thing we’ve learned from designing and implementing radiation detection systems, it’s that security takes work.  Monitoring large areas for moving threats can be tedious and time consuming.  That’s why we’ve designed the new Rad-DX to simplify the protection process and work for countless security application.

One of the most convenient features of the Rad-DX is the app we’ve designed for tablets and PCs.  The app allows you to monitor all the Rad-DXs in your network in real-time, as well as allowing you easily playback events and access alarm logs. With the following steps, you can monitor any Rad-DX in the network from a remote location. 

All you’ve got to do is enter the URL of your Rad-DX and login with your username and password.  Your network of Rad-DXs will automatically connect with your tablet.  To create an intuitive display of your network, you can upload the layout of your building or complex to the Rad-DX app. An icon for each Rad-DX detector can be added to its location, giving the operator a simple view of entire detector system, and allowing a user to track the arrival or motion of radiation through the system. 

Rad-DX Screenshot

 Once you’re logged in, you’ll be able to see each Rad-DX in your network.  Touch the icon for any one of the units and you can access the its name, current alarm level, temperature, dose rate, and alarm level.  You can also adjust the settings on your tablet for audio levels and several graph views.  To see a Rad-DX in action, visit http://dxpublic.dtectsystems.com/index.html 

At the bottom of the screen you’ll find buttons to help you play see what’s going on right now, or play back past events. You can speed through an entire day to see trends in radiation detection, or slow down to focus on a specific event.  For any specific recorded time you can access all the information for each Rad-DX, a feature critical for reviewing alarm records.

With these new features, you’ll be able to keep an eye on your Rad-DX network wherever you go.  For more information on how the Rad-DX can simplify your security network, visit http://www.dtectsystems.com/rad-DX_page.html.

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D-tect Systems is a supplier of advanced radiation and chemical detection equipment sold around the world. www.dtectsystems.com. 

New Radiation Detector: Rad-DX

The Rad-DX is the newest addition to the D-tect family of rugged radiation detectors, and has capabilities unlike anything else on the market.  The Rad-DX is a lightweight fixed-mount radiation detector and dose rate monitor, perfect for mounting on a wall, ceiling, or gate. 

The Rad-DX operates on the new D-tect SensorNet - an automatic communication network that allows users to monitor a full network of Rad-DXs as long as they are in range of a single Rad-DX system. The Rad-DX units will automatically form an intelligent, self-healing mesh network, allowing them to be constantly connected to each other as well as to the user network.

Rad-DX software

The Rad-DX is designed to easily integrate into existing networks via WiFi or Ethernet.  Each unit can be controlled and monitored by a PC on the network or across the internet on any PC, Smartphone, or Tablet.  The network is 128-bit encryption protected and monitoring can be conducted in real-time or past event logs can be reviewed.  You can also monitor Rad-DXs on a integrated floor plan or map display providing an intuitive understanding of the location of a radioactive source. Dose rates can be viewed in multiple graph formats. 

The Rad-DX can be controlled by remote PC or tablet

Like the rest of the D-tect radiation products, a sensitive scintillation detector allows the Rad-DX to detect even faint sources of radiation within 1 second. Directionality is also available so you can track the motion of radiation threats.  The Rad-DX is also IP65 rated for both indoor and outdoor operation.  The Rad-DX will be available in March 2012.  For more information, visit the Rad-DX page on the D-tect Systems website.

Multiple versions of the Rad-DX are available