A Tale of Two Russian Jets

An account of the 1993 Fairford incident and a classic example of enduring product management

Introduction

On the evening of July 24, 1993, Michael Buerk, the BBC (British Broadcasting Corporation) television newsreader on assignment, laconically reported:

"Two Russian jets have crashed at an air display in Gloucester. The single-seat MiG-29 fighters collided in front of a crowd of a quarter of a million people at Fairford, near Swindon. The pilots ejected safely."

Remarkably there were no fatalities in the air or on the ground.

This misadventure was studied extensively, and special commissions were formed to investigate every possible angle and implication.

One of the lesser-known heroes of this incident, but not overlooked, is a product — the Russian Zvezda K-36D ejection seat.

Origins and Background

The Zvezda K-36D ejection seat's lineage can be traced directly to its German predecessor.

During World War II (WWII), the Heinkel Flugzeugwerke aircraft manufacturing company of Rostock, Germany, developed one of the first-ever airplane ejection seats, the Heinkel 162.

The German Luftwaffe was the first air force in the world to employ ejection seats operationally, and during WWII, there were over sixty German ejections in combat.

The Russians paid great attention to many German military innovations they encountered during the war.

By the end of WWII, the Russian army had assembled a "shopping list" of German military products of interest, which the Russians wanted to learn considerably more about.

Among those products were the Heinkel 162 ejection seat and the German STG-44 assault rifle made by Haenel Waffenfabrik, which later in 1947 would ostensibly reemerge as the AK-47 (Automatic Kalashnikov assault rifle).

Blueprints for the Heinkel 162 ejection seat were taken from the Luftwaffe library in Berlin and shipped to Russia in 1946 during?Operation Osoaviakhim, a post-WWII Soviet operation to transport German military engineers, equipment, and design plans to the east.

Coincidentally, the USA had a similar program named?Operation Paperclip?— the prize catch was the famed German rocket scientist Wernher von Braun and his V-2 rocket team.

Teams of Russian engineers extensively studied the Heinkel 162 ejection seat and its blueprints for several years.

Ownership and development of a Russian ejection seat were later transferred in 1952 to the newly formed?Zvezda?design bureau, specializing in highly advanced projects such as oxygen helmets and spacesuits for spacecraft crews, and aircraft escape and survival systems.

The German Heinkel 162 would eventually transpire as the Russian Zvezda K-36D ejection seat, which is continuously developed and manufactured until today.

Cloudy Haze and Miscalculations

The?Royal International Air Tattoo?(RIAT) annual airshow at RAF Fairford in England is among the world's largest military aviation displays.

For the 1993 Air Tattoo, the Russians had sent two Mikoyan MiG-29 Fulcrum fighter jets, especially decked out for the display circuit in the old Russian imperial colors of blue, yellow, and black.

The pilots were two of the best civilian test pilots the Russians had at the time, Sergey Tresvyatsky and Alexander Beschastnov from the Gromov Flight Research Institute at Zhukovsky (near Moscow). Tresvyatsky was also a cosmonaut.

During the final stages of the demo flight at Fairford, both pilots were expected to position themselves at diametrically opposed points on a loop and chase each other around it.

Unfortunately, it did not work out that way.

At about 1,000 feet (300 meters), a mid-air collision occurred due to a combination of adverse weather conditions, faulty design of the flight plan (parallel loop), and human pilot error.

Both aircraft were destroyed, with Tresvyatsky's jet losing a wing and Beschastnov's jet effectively broken in two.

Both pilots reacted instantaneously and ejected almost immediately as if automatically, further confirming the Western world's notion of the "Russian robotic pilot".

Both pilots landed safely on parachutes, and both crippled jets crashed in unpopulated areas.

Nobody was injured.

Western aviation experts were amazed at how the ejection seats had successfully handled the complex ejection situations that the two Russian pilots had encountered.

Tresvyatsky had ejected while the airplane was inverted (aka "punch-down"), and Beschastnov had ejected while his MiG-29 was in a vortex (simultaneously spinning on all its three axes of movement — vertical, lateral, horizontal).

Aside from the superb and amazing fast reactions of both pilots, recognition eventually set in that it was a truly remarkable product that saved the two Russian pilots' lives — the Zvezda K-36D ejection seat.

Zvezda K-36D Features

The Zvezda K-36D ejection seat is an engineering marvel.

The seat was all mechanical and electric until the mid-1980s, which is part of the reason it had a stellar reliability record. Electronics were added to the seat after the mid-1980s.

Some of the more prominent and notable features of the K-36D include a wind-blast shield to protect the pilot's chest from being crushed in a high-speed ejection, stabilization flow rods to prevent seat tumbling in mid-air (which could prevent proper parachute deployment), massive steel prong that shoots up and shatters the cockpit's glass canopy if needed, booster rockets to raise the seat to an adequate altitude if the ejection is too close to the ground, pilot arm and leg forced restraints in the seat to prevent injury during ejection, the obvious recovery parachute for a safe landing, and more.

This Zvezda K-36D product's mission is to safely remove a pilot from a flying aircraft.

The seat is designed to reliably handle multiple aspects and possible scenarios of this very complex challenge.

To understand the derived benefits that the seat provides and verify functional completeness, a competent tool is needed to describe the ability of the Zvezda K-36D to address the overall market problem by merit of its feature scope and capabilities.

PSFB (Problem, Solution, Feature, Benefit)

Within the?Blackblot PMTK Methodology?, the Blackblot PSFB template describes the product's ability to address the overall market problem by merit of its feature scope.

The outcome of the product being able to solve the market problem is the value which the product provides.

A loose variation of something similar to the PSFB was a process used to design products.

However, that process is now considered an outmoded way to design products, and modern companies now use the market, product, and technical requirements process instead.

Modern companies now use the Blackblot PSFB to document the benefit obtained from each product feature and illustrate the total value derived by using the product to solve the entire market problem.

The Blackblot PSFB components are:

1. Problem?— Describes the market problem facet the customer is facing.
2. Solution?— Describes the general solution category applied to solve the problem.
3. Feature?— On a conceptual or modular level, describes the component(s) built into the product, which provides the solution.
4. Benefit?— Describes the benefit the customer has realized from the feature being able to solve the market problem facet.

Following is a high-level illustrative application of the Blackblot PSFB concept to the Zvezda K-36D ejection seat.

Philosophically, the sum of benefits outlined in the Blackblot PSFB table's right-hand column describes the total value that the product provides.

Summary

There are many primary and secondary considerations to the 1993 Fairford incident, some interesting and others fascinating, and all with profound lessons to be learned.

Tresvyatsky's and Beschastnov's Zvezda K-36D ejection seats performed flawlessly under adverse conditions.

Continuous product management of the Zvezda K-36D over decades has influenced and directed the engineers of this remarkable product to perfect the design and include the required features which save lives.

The 1993 Fairford incident and the Zvezda K-36D ejection seat are one of the carefully selected classic examples included in the?Blackblot Strategic Product Management??professional training program to illustrate various product management concepts part of the?Blackblot PMTK Methodology?.

Learn More…

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Blackblot is the developer of the PMTK? methodology and the premier provider of private training, certification, tools, and expert services for market leaders and innovators worldwide. Blackblot is an IS0 9001:2008 certified business.