5 Simple Facts That Totally Bust the Dutch MH17 Report

© REUTERS / Michael KoorenThe reconstructed airplane serves as a backdrop during the presentation of the final report into the crash of July 2014 of Malaysia Airlines flight MH17 over Ukraine, in Gilze Rijen, the Netherlands, October 13, 2015
The reconstructed airplane serves as a backdrop during the presentation of the final report into the crash of July 2014 of Malaysia Airlines flight MH17 over Ukraine, in Gilze Rijen, the Netherlands, October 13, 2015 - Sputnik International
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After Almaz-Antey showed the results of its "Mythbusters"-like experiment simulating the Dutch version of the events, several issues emerged with the final report.

The dual reports released by Buk manufacturer Almaz-Antey using both analytical models and a real-world experiment, and the Dutch Safety Board using international sources showed major discrepancies between the two models.

Russia has appealed to the UN's International Civil Aviation Organization (ICAO) over irregularities in the Dutch investigation, asking for a more clear and transparent investigation than the one presented in the report.

1. Launch Sites

The Almaz-Antey presentation presented Zaroschenskoye as the launch site while the DSB went with the theory that the missile was launched from an area southeast of Snezhnoye.

Almaz-Antey decided to go with the DSB version for its experiment, simulating the missile trajectory. However, the results showed a major discrepancy with the DSB theory, showing that either the missile was not fired from Snezhnoye or the missile used was not the 9M38M1.

According to data from a contract bid to modernize Ukraine's surface-to-air missile systems, which Almaz-Antey participated in, Ukraine had 991 9M38M1 missiles and 502 9M38 missiles as of 2005.

© Photo : Almaz-AnteyCharacteristic hole from bowtie-shaped shrapnel elements.
Characteristic hole from bowtie-shaped shrapnel elements. - Sputnik International
Characteristic hole from bowtie-shaped shrapnel elements.

This photo taken on July 26, 2014 shows flowers, left by parents of an Australian victim of the crash, laid on a piece of the Malaysia Airlines plane MH17, near the village of Hrabove (Grabove), in the Donetsk region - Sputnik International
Russian Almaz-Antey Delivers MH17 Report (VIDEO)
2. Missile Trajectory

Whether the missile hit the plane from the side or from the front is another issue, as the Almaz-Antey experiment using the DSB theory showed.

A major evidence point for this is the lack of damage to the plane's left engine in the experiment using the Dutch model. However, engine damage occurred on the MH17. Almaz-Antey also conducted an experiment using its own model of the missile trajectory (Zaroschenskoye), in which the engine target was hit by missile shrapnel.

3. Shrapnel Cloud

The shrapnel cloud and damage to the plane's fuselage created more questions for the difference between the two reports.

The Almaz-Antey experiment showed that if the 9N314M warhead with bowtie-shaped fragments was indeed used, it would have left clear bowtie-shaped marks on the fuselage. However, no such marks appeared on the MH17 fuselage cabin.

© Photo : Almaz-AnteyLack of damage on Target 2 (Left Engine).
Lack of damage on Target 2 (Left Engine). - Sputnik International
Lack of damage on Target 2 (Left Engine).

4. Missile Type

The DSB report is more vague about the type of missile used, using Ukrainian information on missile and warhead specifications rather than data from the manufacturer.

This is detailed in Appendix V of the DSB report, detailing the Russian objections to the conclusion that the warhead used was a 9N314M. The Almaz-Antey experiment also showed this.

5. 'Ukrainian Experts'

The DSB report also heavily relies on Ukrainian experts for identifying the missile used, although Ukraine claims to not possess any Buk systems (it renovated one less than two months before the MH17 crash). Citing exclusively the Kiev Research Institute for Forensic Expertise of the Ministry of Justice rather than the manufacturer, Almaz-Antey, the report overruled Russian objections regarding the missile used, reaching a vaguer conclusion than it would have otherwise.

Ukrainian surface-to-air missile system Buk-M1 - Sputnik International
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With that in mind, the Dutch team decided that the the 9M38 and the 9M38M1 missiles could have been used, although Russia said that only 9N314M warhead of the 9M38M1 missile has the characteristic fragments.

The Ukrainian expertise also narrowed down the launch site to the area of a single field, something neither the Dutch projections of a possible missile path nor the Almaz-Antey simulation were able to do.

Most objections to the investigation are detailed in appendices V and W of the final report. While most countries' objections are of a political manner (the US for some reason wanted to get rid of mentions of Itavia flight 870, a plane ruled brought down by a missile in what was apparently a botched 1980 Gadhafi assassination attempt), Russia's objections are mostly based on Almaz-Antey's findings.

In the suggested changes, the Russian Federal Air Transport Agency provided evidence of issues with the conclusions, including the projectiles' weight, speed and angles in the simulations, which were largely ignored by the Dutch report.

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