AccessDPRK in 2019

This past year has been a banner year for both the project itself and its wider goal of being a fundamental resource for helping to shed light on North Korea.

The #AccessDPRK blog will celebrate its seventh anniversary in February 2020 and currently contains 97 articles which, if printed out, would equal over 570 pages worth of material.

For 2019, I was able to write 28 articles for the project which is the most in its history. Additionally, 70 images were analyzed for those articles. A further 196 images were shared and discussed on Twitter.

Some more social media stats include: over 384,000 Twitter impressions for tweets relating to North Korea and the project (that's a 92% jump over last year), and gained over 100 new followers. I also created a Facebook page that offers a variety of material that won't always be found on Twitter.

Last year's most popular tweet was about ongoing work at the massive underground complex in Hamhung.

AccessDPRK.com traffic was also 32% higher than last year, in part because of the largest news story to come from the project thus far.
In August I wrote about an ongoing industrial leak from the Pyongsan uranium milling plant that was pouring into a river. My report was picked up by RFA before quickly spreading around the world. For a time, it was the biggest news story in South Korea. Concerns over the leak (as the river eventually flows into the Han River) spurred the South Korean government to test for possible radioactive contamination. Thankfully, no dangerous levels were detected. However, 400,000 North Koreans still use the water for drinking and farming, and the risks of heavy metal contamination is far greater for them.

I finally set up a Patreon account so that people can directly support the project. With multiple support levels ($3, $5, $15, and $20 a month), it offers ways for people of any economic means to help. I have worked to come up with exclusive rewards and I'm currently in the process of creating even more.

Working on AccessDPRK isn't free. It costs money to have websites and domain registration, and books and other research materials come at a price. Then there's the matter of fairness. I have literally put thousands of hours into creating the maps, analyzing images, and writing articles, all because I believe in the mission of sharing information about North Korea. But I can't keep doing it alone or at the cost of working on other things in my life.
So if you see value in the last seven years of the project and look forward to more in the future, please do think about helping out. The more support I get, the more I can do. 2019 was certainly proof of that.

Speaking of doing more. Last year I added well over a thousand new places to what will become the final Google Earth-based map: Phase III. I also set a goal of completing it by 2021 and expect it to contain around 60,000 places of interest. There's nearly 100 individual categories of places that I am mapping divided into three broad sections: monuments, military, and domestic/economic. The end result will also be organized somewhat differently than 2017's Phase II, to improve its ease of use.

Finding examples of people using the project to help in their own research is always great. For the second year in a row RAND Corporation used parts of Phase II to assist in creating their report "Four Problems on the Korean Peninsula". Additionally, I was able to help a number of university students and researchers with their respective projects.

AccessDPRK also received a little unexpected publicity in December with the publication of "The Self-Appointed Spies Who Use Google Earth to Sniff Out Nukes" by Amy Zegart for The Atlantic. In the piece, Zegart looked at the open-source community and its efforts to serve as watchdogs against nuclear proliferation. She used several examples of non-government individuals and groups who monitor North Korea, Iran, and China, and AccessDPRK was among them.

I have also been able to occasionally contribute articles to NKNews.org (Pro). These articles draw upon what has been learned from the most recent North Korea research including things exposed by this project. I'm really proud of this.

North Korea's recent WPK Central Committee's Fifth Plenary Meeting strongly indicates that 2020 is going to be a rather interesting and provocative year, and I am looking forward to taking on the challenge with your support.


I would like to thank my current Patreon supporters: Kbechs87, GreatPoppo, and Planefag.

--Jacob Bogle, 1/1/2020
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Nuclear Fallout Part II: the health consequences of Pyongyang's nuclear program

Pollution and health risks exists at every point along the nuclear weapons’ development chain, from the initial mining and milling operations to the enrichment process, and finally from testing nuclear devices. In this two-part article I will examine each of those areas and the health risks associated with them.

In this second part, I finish discussing the health consequences of North Korea’s nuclear program by examining issues related to their underground testing. (Part I can be read here.)

Testing

After producing the needed nuclear fuel and solving the other matters associated with creating a nuclear device, the next step is testing.

After decades of work the regime was able to test its first nuclear device in 2006. The underground test was carried out within Mount Mantap at the Punggye-ri nuclear test site. However, there is no such thing as a safe nuclear test, even when they’re underground. The original tunnel for the 2006 test was closed up shortly after the test as a result of radiation releases according to 38 North. Since 2006, five additional tests have been carried out in different tunnels. Further reporting indicates that another delayed leak was also detected as a result of post-tunneling activities in 2013.

Even under the best circumstances, underground nuclear testing still can release some radionuclides into the atmosphere. Less than optimal testing can pose a much greater radiation risk to those downwind of the test site. Initial radiation releases from a containment failure occur through “venting” but releases can continue for longer through “seeps”, where radiation finds its way out of the underground site through small fissures and openings in the overlying rock. Radioisotopes of xenon (such as ¹³³Xe and ¹³⁵Xe) are almost impossible to contain and can travel across the globe, as Canadian detectors picked them up after the very low-yield 2006 test.

Punggye-ri is in a mountainous area with little population but the main tunnel entrances are less than 2 miles away from the boundary of the Hwasong Concentration Camp. Due to the extreme human rights violations facing prisoners, we can’t hear their stories or send professionals over to determine how much radiation they have been exposed to. Residents within the larger area, however, have been able get their experiences to the broader world.

In 2017, South Korea reported that four defectors who lived in the area around Punggye-ri showed signs of radiation exposure. Defector Lee Jeong Hwa, who lived in Kilju County, said, "So many people died we began calling it 'ghost disease’…We thought we were dying because we were poor and we ate badly. Now we know it was the radiation." Unfortunately, the inability to do detailed testing on people still living in the area and gather more definitive evidence prevents us from knowing the full effects of the testing.

Negative health impacts from underground nuclear testing is easily supported by looking at the results of underground testing in the United States. According to the US National Cancer Institute, some 2,800 annual cases of thyroid cancer within the US can be attributed to the “underground era” of 1962-1992, when the United States (and the Soviet Union) was limited to testing nuclear devices underground by treaty. While North Korea has only had a limited number of tests, those tests have increased radiation levels for the region and caused an unknown level of damage to the population. Of particular concern are the 20,000 Hwasong prisoners, who are also suspected of being used as slave labor to help dig the tunnels used at Punggye-ri.

The stability of portions of Mount Mantap is also of concern after six tests, and surface changes as a result of ground shifting have been studied in detail. The first two (of four) tunnels are likely to be unusable for any future testing. Worries over accidental radiation releases from collapsing tunnels spurred China to install additional radiation detectors along their border with North Korea in 2017 and at a newly constructed border crossing in 2019.

The other two tunnels exist to the west and south and have not been used to-date. Their entrances were demolished in May 2018; however, questions remain about the irreversibility of those closures.

Occasional rumors of a possible future above-ground test (for which there are very few potential testing sites) raises the stakes even more. Radiation would flood over Japan and would reverse decades of atmospheric radionuclide decline around the globe.

Conclusion

The known risks associated with the chemicals and processes involved in mining, milling, and enriching uranium, as well as in the production of other radioactive materials, supports the descriptions of illnesses as told by unrelated sources, each with first-hand knowledge of the locations discussed.

Despite the guarantees of the North Korean constitution and international law regarding the right to favorable working conditions and the right to pick one’s career (or to leave it), expert and defector testimonies, coupled with satellite imagery, paints a very different and dangerous story. It can be said that a major humanitarian and health crisis is brewing within North Korea as we know the substandard state of their nuclear program – not just in terms of technology but also safety.

Most of the facilities within Punggye-ri’s 17-kilometer-long compound still stand, waiting to be used again. Yongbyon continues to grow and thousands of additional scientists, laborers, and their families have been moved in under Kim Jong Un. The mines and milling plants still produce materials to be sent to enrichment facilities. And the regime keeps working on their abilities to deliver ballistic missiles to any part of the globe. It is clear that the sixty years of nuclear harm now affecting the tens of thousands of North Koreans who have worked to develop Pyongyang’s nuclear program over three generations of Kim will continue into the future, causing more harm, more sickness, and will likely require the efforts of multiple countries to finally resolve once the Kim Era is over.

I would like to thank my current Patreon supporters: Kbechs87, GreatPoppo, and Planefag.

Jacob Bogle, 12/26/2019

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Nuclear Fallout Part I: The health consequences of Pyongyang’s nuclear program

Pollution and health risks exists at every point along the nuclear weapons’ development chain, from the initial mining and milling operations to the enrichment process, and finally from testing nuclear devices. In this two-part series I will examine each of those areas and the health risks associated with them.

In this first part, I will give a short introduction to the history of North Korea’s nuclear program and then discuss the health risks found within the uranium mining and milling process and the production of nuclear fuel. (Read Part II here) 

Image source: Sakucae/2.0

Introduction

North Korea can trace its nuclear program to soon after the Korean War. After the war’s total devastation, Kim Il Sung vowed that the country would never again be flattened, and he sought Soviet assistance in creating Pyongyang’s own nuclear deterrent. Marshall Stalin and future Soviet leaders weren’t too keen on Kim’s aspirations initially, but they did offer help with the development of nuclear power and signed a nuclear cooperation agreement in 1959. Never one to let an opportunity go to waste, Kim Il Sung ordered secret research into building the A-bomb.

Yongbyon, North Korea’s main nuclear research center, was constructed in the 1960s with help from the Soviet Union. Further facilities across the country were constructed that were needed to mine the uranium, mill it, and finally, to enrich it. The country has two known milling facilities, one at at Pakchon and Pyongsan, and around dozen suspected uranium mining sites. Pakchon and Pyongsan process low-grade coal to concentrate the uranium naturally found within it (at relatively low concentrations) and then to turn it into yellowcake where the uranium concentration reaches 80%. From there it is sent to additional facilities including Yongbyon, some of which have likely not been declared by North Korea to the international community.

Mining and milling

North Korea is one of only seven countries that are not signatories to the International Labor Organization. This United Nations agency sets international labor standards, including those for nuclear research and industry. Furthermore, the country’s mining sector is notoriously dangerous and lacks modern safety precautions and necessary equipment. Injuries and respiratory diseases are common, particularly in coal mines which is where North Korea gets the bulk of its uranium. The country’s two largest uranium mines, Pyongsan and Woogi-ri (within the Undok-Rason area), hold an estimated 11.5 million tonnes of ore and employ thousands of workers.

The inhuman treatment of workers at Pyongsan, and severe negligence regarding monitoring radiation exposure and air quality was given in testimony by Dr. Shin Chang-hoon before the U.S House in 2014.

Once the ore leaves the mines, it is transported to the milling plants to be converted into yellowcake. Even though coal itself is generally considered safe to handle, every form of uranium extraction leaves behind dangerous waste.

According to the United States Environmental Protection Agency,

"regardless of how uranium is extracted from rock, the processes leave behind radioactive waste....The tailings remain radioactive and contain hazardous chemicals from the recovery process."

 Google Earth image showing the residue of leaked waste material at both ends of the waste transfer pipe.

The Pyongsan milling plant is a prime example of the environmental damage done within North Korea’s nuclear sector. Satellite imagery shows that the country’s primary milling facility has been spilling industrial waste into the Ryesong River for decades, and that the waste material reservoir is unlined. This can allow contaminated water to seep into groundwater supplies and also contaminate crops. Hundreds of thousands live within the area of Pyongsan and downriver of the plant.

Non-proliferation expert Dr. Jeffrey Lewis summed it up nicely in 2015 when he said, “What is definitely happening, though, is that North Korea is dumping the tailings from the plant into an unlined pond, one surrounded by farms. That’s not a hypothetical harm.  That’s actual pollution that is harming the health and well being of the local community."

At Pakchon, which began uranium milling around 1982, a former waste reservoir is now covered in cultivated land. This practice can be seen at many mining and industrial sites. If the waste isn’t properly covered, any crops grown over this material may become contaminated with heavy metals such as vanadium and chromium, as well as lead and arsenic. Those contaminates are passed up the food-chain into animals and humans.

Image showing that a former waste reservoir is now farmland and the plant’s proximity to a river.

According to defector Kim Tae-ho, who worked at Pakchon in the 1990s, when the “experimental plant” would operate, yellow smoke would fill the plant and cause “severe difficult breathing and unbearable pain.” The short-term effect of inhaling yellowcake particles is primarily kidney damage which will resolve itself unless there is recurrent exposure (such as from working at the site each day). However, the main radiological risk comes from the radioactive gas radon and its non-gaseous “daughters” like polonium-218. Improperly vented air can lead to a build up of these radioactive materials and will cause immediate tissue damage to the lungs and mucus membranes. Additionally, the use of acids in the production process raises the risk for inhalation of sulfur-containing gases (which can have a yellow tint to them) and cause irritation and eventually burns to the eyes and lungs.

Pakchon and Pyongsan are combined mine and milling facilities, but illnesses and food contamination have been reported at stand-alone mines as well, such as at the Walbisan uranium mine (near Sunchon).

Sources told Radio Free Asia that, “local residents are forced to eat radioactive food and drink radioactive water,” and “[i]n Tongam village, the miners and their families suffer from incurable diseases or various types of cancer. In particular, many people die of liver cancer.”

Enrichment and fuel production

Even within the uranium enrichment compound, almost every inch of available land has been cultivated.

The next steps along the nuclear development chain happen at Yongbyon. The complex exists as a closed-city and people are not free to enter or exit without permission. Scientists, engineers, and others may work for many years within the fenced off complex. They will marry and will raise children.

While being able to work within a prominent field brings many benefits, it also brings risks. Brief exposure to radiation is rarely dangerous. Short exposure risks are also not catastrophic when it comes to inheritable genetic damage, either, as the world learned from the survivors of Hiroshima and Nagasaki. But continual exposure because you’re living in a contaminated environment increases those risks each day. This concern grows when you consider that in recent years, dozens of new buildings have been constructed with room for thousands more residents.

Scientists who were involved during the early days of Yongbyon’s operation have been reported to have suffered from wasting illnesses and hair loss.

Fast-forward to 2019, a former resident of Yongbyon told DailyNK,

"In other districts it is very difficult to find people with cleft lip but here there are many individuals with crooked mouths, those lacking eyebrows, incidents of dwarfism, and those with six fingers. There are even children who just look like bare bones."

Adults can also be affected, with the most severe cases eventually causing mental deficiencies, cancers, and wide array of other illnesses at relatively young ages.

The aforementioned Dr. Shin Chang-hoon also interviewed a defector who worked at Yongbyon. He was told that the dosimeters (which measure radiation exposure) were only checked every three months and workers were not told of the results unless they had already begun to exhibit signs of radiation sickness.

Adjacent to an area of improperly stored nuclear waste is a grove of dying trees and farmland. It is only separated from the waste by a covering of dirt.

Improper disposal of radioactive materials can pollute the soil, kill trees, and contaminate any food that is grown in the area. Releases of gases into the atmosphere will likewise blanket the region and small, aerosolized particles will eventually make their way down to the ground, bringing with them radiation or forming toxic compounds. These gases can travel for many miles and place other sites within North Korea at greater risk, not just the immediate Yongbyon complex.

Concern over Yongbyon is especially grave considering the large number of nuclear and chemical facilities in such a small area. Not just in terms of ongoing dangers that defectors have told the world about, but also in terms of a future accident, flood, or fire that could devastate the region and require international intervention to solve. 

The fact North Korea is largely cut off from the world and often must rely on outdated science, manufacturing techniques, and potentially unreliable indigenously produced parts and equipment means that the risk of accidents and errors is greater than in other nuclear countries. It is something of a small miracle that a large-scale incident hasn’t already occurred.

I would like to thank my current Patreon supporters: Kbechs87, GreatPoppo, and Planefag.


--Jacob Bogle, 12/22/2019
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Major Expansion at Pyongyang Training Ground

The Soe-gol military training facility in Pyongyang has undergone major changes in 2019.

The military base, which consists of a military operations on urban terrain (MOUT) section and open training grounds, may be most well-known for a set of military exercises carried out there in October 2016 which was caught on satellite imagery.

Situated near the village of Soe-gol, 6 km south of Kangdong, the base is in the process of becoming a major training center.

The base appears to have been constructed sometime around 2001-2003 and the MOUT facility had been built by 2005. Lying within the Pyongyang region, it is part of the Capital Defense Corps and is used to train some of North Korea's most important troops.

MOUT facility in 2005.

The MOUT facility has mock buildings aligned along a central "boulevard" and the first buildings constructed have designs reminiscent of South Korean architecture of the 1970s. Newer buildings have been constructed over the years and their designs reflect more current building trends in the south.

MOUT facility in 2019.

Between 2007 and 2011, the base underwent a first stage of expansion and another expansion stage occurred in 2016. These expansions saw additional mock buildings constructed at the MOUT facility and added targets at the smaller vehicle driving and firing range to the south.

The driving and firing range has existed since the base was constructed and includes a short driving course, stationary vehicles for target practice, and a small number of obstacles. Other than the addition of painted targets in 2016, little else has changed. The entire original driving range (not all shown in the above image) covers an area of just about 0.25 sq. km.

The biggest changes have been ongoing this year and are located within the large open fields of the base complex. There were some minor changes made in preparation of the 2016 exercises, but the latest upgrades dwarf any preceding it.

The new driving range occupies approx. 1.7 sq. km. making it nearly seven times the size of the old one. It includes a main driving course consisting of two roads which total a combined 11 km when shorter, secondary paths are also included.

Image showing the general main driving course. There are two lanes (which occasionally diverge paths) as well as secondary routes. Taken together, they total over 11 km.

This new training course includes multiple obstacles, terrains, intersections, and a "bridging task".

What I'm calling a "bridging task" is either one of two things, as I am uncertain as to its exact nature.
Trainees drive up an elevated road which isn't connected to the lower elevation continuation of the road. The most recent image shows a basic bridge crossing the gap. That bridge is either permanent but teaches recruits how to cross an unstable structure in heavy vehicles or it's actually a bridging operation where the recruits must place a temporary bridge (similar to the US Rapidly Emplaced Bridge System) over the gap and then cross over it.

This next series of images will show the construction of the training site.

Construction of the elevated portion is underway in February 2019.

By April 3, the elevated section is completed and the roadways are being built.

Bridge sections are in place by April 21, 2019.

The crossing span at the two gaps is between 15 and 17 meters which is technologically possible with current bridging vehicles such as the MT-55A which has a folding bridge 20 meters long and is in North Korea's inventory.

As I have mentioned in previous articles, North Korea is much more than nuclear weapons. Their conventional forces continue to be a major regional threat and the regime is pouring countless millions into upgrading their capabilities and training capacity on the ground, at sea, and in the air.




I would like to thank my current Patreon supporters: Kbechs87, GreatPoppo, and Planefag.


--Jacob Bogle, 12/16/2019
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