Jupiter Launch Vehicle Proposal. Safer, Simpler, Sooner.

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The Space Shuttle Program is scheduled for shutdown sometime in 2010. At that time the reusable, tiled spaceplane concept (STS) will be put to rest in favor of the capsule-on-a-rocket design.  According to plans, there will be a 5 year interlude between the retirement of the shuttle and the implementation of a new man-certified lifter. Many have suggested that this idle period with no manned launch activity could lead to a brain drain in the ranks of skilled aerospace workers.

The successor to STS is the Ares Launch system consisting of a man lifter (Ares I) and a cargo lifter (Ares V).  Ares I is a two-stage system that will take a crew of 4 to 6 into low earth orbit. This vehicle will carry  55,000 lbs of provisions and astronauts to the ISS.  Additionally, it will be used to lift a lunar exploration team into orbit for docking with the lander module placed into orbit by the Ares V lifter. 

Ares V is a heavy lifter and is expected to be able to place 414,000 lbs into low earth orbit or send 157,000 pounds of payload to the moon.  Ares V uses two solid rocket boosters derived from STS and a central H2/O2 liquid fueled rocket using a cluster of 6 engines derived from the Delta IV system.

Ares I & V. Photo Credit- NASA

NASA has awarded contracts for this program and work is underway.

What has recently transpired is an alternative system proposed by a group of engineers. This system is called DIRECT, and involves the use of a single lifter called Jupiter.  The Jupiter lifter is derived directly from the STS lifter which consists of two solid rocket motors and a central H2/O2 tank which feeds the shuttle engines.  The DIRECT system would take advantage of existing technology, but with the addition of an O2 tank extension, a cargo section, and a cluster of engines to the existing liquid fuel tank. The proponents of this system claim that their system could get the next phase of manned space flight going sooner, simpler, and safer.

It is an interesting proposal. I hope it gets some serious consideration by the Congress.

InBev Chugs St Louis Utility Beer Maker

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It is surely a sign of the End Times. Just as sure as the Four Horsemen of the Apocalypse and cats sleeping with dogs. A Belgian company buys Anheuser-Busch.  Wow.  Just the thought of it is too much for me to get my arms around. Michelob now has a kissin’ cousin named Stella Artois. 

What was that old brain teaser an Austrian colleague once asked-

Can you name 10 famous Belgians? 

I agree. It is a bit outrageous. I’m sure there are as many as 20 famous Belgians.

Who knows? This may be the European connection NASCAR has been looking for.  Watery beer, fast cars, and drunken hooligans. It’s universal.

Nuclear Chemistry Article in Daily Kos

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For those of use who carry around an interest in nuclear science, there is a short but interesting article in the Daily Kos written by a chemist on the topic of the Hanford site in Washington.  Of particular interest is the link describing a radiological assay of a chemist who died at age 76 of cardiovascular disease.  At the time of death they found 540 kBq of activity in his body- 90 % in his skeleton. The gentleman had been involved in a glovebox explosion involving exposure to 241-Am at age 64.

What do you do with a radioactive corpse? One option is to donate your body to science. The WSU College of Pharmacy maintains a registry of data culled from uranium and plutonium workers. A recent description of donated bodies is found in this pdf. One donation is from a plutonium worker who was present in the 1965 fire at Rocky Flats. He retained an estimated 6.8 kBq of lung burden. They did not specify how this was determined.  Rocky Flats did have state of the art whole-body monitoring and a substantial health physics department.

Pu detection is a little tricky because one of the important markers for Pu contamination is 241-Am, an alpha and gamma emitter (Pu is a bad actor mostly because of internal alpha exposure).  Residual and highly active 241-Pu (104 Ci/g) beta decays to the highly active 241-Am.  Unfortunately, not all Pu isotopes decay into Americium. This Am isotope allows for gamma ray spectra to be gathered so an estimate of Pu exposure can be calculated. The ever popular 239-Pu isotope alpha decays to 235-U without much gamma emission. So, the calculation of Pu exposure and dose depends on knowing the purity of the Pu at issue.

Virgin Galactic’s 200 k$ Shuttlecock Ride

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Pack your bags, boys and girls. Virgin Galactic is going to display their SpaceShipTwo at the upcoming AirVenture show in Oshkosh.  For 200 k$ you can strap a reusable rocket plane to your backside and take a suborbital flight. The AirVenture website has an animated video of a flight that is worth seeing. (The animators left out the floating vomitus that is sure to be a part of the experience.)

The designer and builder is none other than Burt Rutan’s Scaled Composites. This second generation suborbital vehicle uses the same reentry stabilization scheme that the first vehicle used. The lifting craft has 4 engines- two outboard of each of the twin fuselage sections. It has 4 engines instead of two to protect against the undesirable situation of loss of thrust from one side of the plane. With the engines so far from the centerline, the asymmmetric thrust that would result would make the plane difficult to fly.

The space vehicle is carried to a suitably high altitude (ca 50,000 ft) for release followed by an 80 second boost from the rocket motor. The boost phase sends the craft into a suborbital arc carrying the craft to a projected 361,000 ft peak altitude.  The passengers are treated to a period of weightlessness between the moment the rocket motor quits and when the reentry phase begins to encounter significant atmospheric drag.

At some point after the boost is complete, the tail booms pitch into an elevated position quite far from the centerline of the craft. The craft has reaction motors that stabilize the flight attitude during the phase in which the aerodynamic control surfaces are ineffective.

The reentry attitude is one in which the underbody of the craft faces in the direction of motion so as to provide maximum drag. The elevated, or “feathered” tail elements serve to stabilize the motion of the craft as it accelerates belly first into the ever thickening atmosphere.  The stabilization that the feathered empannage provides is much like the stabilization afforded a shuttlecock.

The feathering configuration helps the crew manage the kinetic energy developed during reentry to the atmosphere. The scheme includes a deadstick landing, so energy management is quite important.  Eventually, the tail booms retract to the in-line position and the craft transitions to a gliding condition with conventional flight control surfaces.

A critique on scale-up suitability

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In my quest to stimulate bench chemists to think like industrialists, I like to bring examples of chemistry from the literature to highlight a point I’m trying to make. The literature is full of transformations and research that serve as positive and negative examples of good scale-up thinking.

There are examples, however, that are less than choice in terms of green processing or good scale-up thinking. As I have said previously, green chemistry and good scale-up principles may not be equivalent concepts, but they can and often do run in parallel.

An interesting transformation is featured in the recent article entitled Efficient 1,2-Addition of Aryl and Alkenylboronic Acids to Aldehydes Catalyzed by the Palladium/Thioether-Imidazolinium Chloride System, by Kuriyama, Shimazawa, and Shirai, J. Org. Chem., 2008, 73, 1597-1600. [My apologies to the authors for their unanticipated role in this analysis.]

In this article a bond forming reaction between 1.5 eq of a boronic acid and 1.0 eq of an aldehyde is described affording a secondary alcohol. The transformation is catalyzed by 0.5 % Palladium allyl chloride dimer with 1 % of a custom imidazole carbene precursor in the presence of 2 eq CsF as base. The reaction mixture is heated to 80 C in dioxane and the chemistry is reported to be over in ca 20 minutes.

I am somewhat reluctant to be critical of chemistry that is done catalytically and is high yielding. But this transformation, solid science though it may be, would be difficult to justify taking to scale-up without an examination of alternative schemes.  Let me explain my thinking.

First, on the basis of atom efficiency alone, this process requires that a lot of different elements find their way into the pot. The tally is C, H, N, O, Cl, B, Pd, Cs, F, and S to just make a C-C bond to produce a benzyl alcohol. A scale-up chemist would have to ask, why not use a Grignard and the aldehyde? Granted, there may be incompatible functional groups on either Ar1 or Ar2 that would not tolerate a Grignard reagent. However, it is worth pointing out that the conventional way of making boronic acids is by addition of a boronic ester or fluoride to RMgX or RLi followed by hydrolysis. Compatibility is an issue there as well.

One might object that many of the diverse atoms used in the reaction are at a catalytic level and as such may not constitute a major cost or environmental insult. True enough for the user of the process. But the metal complex must be manufactured somewhere at a larger scale for distribution. Pd mining and beneficiation requires energy inputs and generates wastes. The same idea applies to the imidazolinium salt.

The reaction does seem to require 1.5 equivalents of boronic acid and 2 equivalents of cesium fluoride. Boronic acids are specialty synthetic intermediates whose manufacture generates its own waste stream. Furthermore, boronic acids can be on the expensive side. The use of a boronic acid as a latent nucleophile for a straightforward addition to an aldehyde seems somewhat extravagant.

Cesium fluoride residues (2 equivalents) will find their way into the aqueous waste stream and possibly to an incinerator where the solids may end up in roadway pavement or a landfill. While fluoride is an efficient base in this case, common sense suggests that carbonate may have a more benign fate in the environment owing to the fact that it decomposes to water and CO2. Unfortunately, the best yields are with cesium as cation.

Chemists seeking to apply this kind of coupling chemistry would be well advised to be extra careful in their IP diligence. The use of metal catalyzed coupling reactions may already be patented or applications may be pending for patents. The same comment applies to the use of imidazolinium carbenes. Industrial chemists would be well advised to look deeply into the carbene species for process and composition of matter claims. Ever since the Bayh-Dole Act, university patents have been popping up like dandelions.

I do not want to be too critical of this chemistry. It is an interesting transformation and certainly may be of use for some kind of product. But for scale-up, at first pass it seems too far from earth, air, fire, and water. I would say that for maximum profit, this process is more of a Plan B or Plan C scheme.

Mt. Kraznydang Climbers Perish in Avalanche

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5 July, 2008. Boulder, Colorado. The climbing community mourns today as the recovery of six bodies continues from the 2008 Mt Kraznydang expedition.  A makeshift morgue was set up in the capital city of Bleeny, in the Zapore Islands off the Kamchatkan coast near Gnoyniechok, Siberia. The international climbing team was lead by Gon Anandachopbalmanchoda, well known Thai explorer, climbing apparel designer, and raconteur.

Mt Kraznydang is the tallest mountain in the Podguznik range in the volcanic Zapore island chain. Also known as Stalin’s Carbuncle, 33,459 ft Mt Kraznydang has resisted several attempts at its summit since its height was revised in 2005 by satellite radar, making it the second tallest peak on earth.

The Anandachopbalmanchoda team was reportedly near the summit when an earthquake loosened a bank of snow, bringing the team careening down to the 9000 ft level in the avalanche. The last radio transmission was from an unidentified climber who exclaimed ” … Oh, for Petes sake!! … Son of a(garbled) … refund! (static)….”.

Bleeny is the Sister City of Boulder, Colorado. Services will be held at the Podguznik Mountaineering Center on the Pearl Street mall. Donations are appreciated.

Dinner, a movie, and fireworks

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It is our custom to view the fireworks show from a certain spot. It is not the best possible spot for viewing. It is a very convenient spot, however. Th’ Gaussling has a deep aversion to crowds. Near the local fairgrounds where the fireworks are launched is a movie theater. We park near a grassy spot and then go to the 7 pm showing so that, when the movie is over, we just stroll out to the grassy spot and wait 15 minutes for the fireworks to begin.  Last nights movie was “Hancock“. 

My subjective and after-the-fact test for the value of a movie is this binary criterion- is it worth a regular admission ticket, yes / no? In the case of Hancock, I would say yes to the ticket. I would caution that it may not be worth an additional US$14.75 worth of soda and popcorn.

On the other hand, I would say that Wall*e is worth both the price of a ticket and an obscenely priced coke from the snack bar. But continue to sneak in the Milk Duds.

From NIMBY to BANANA

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The 2005 government report entitled Peaking of World Oil Production: Impacts, Mitigation and Risk Management, by Hirsch, Bezdek, and Wendling, is a sobering tally of the current picture of oil production and consumption in the world today. Often referred to as the Hirsch Report, the authors take a “now shot” of the global oil production scene and speak directly to the matter of mitigating the approaching economic disruption that must usher an unprepared nation into a future of peak and declining oil production.

If you read the Hirsch Report and pay attention to current events, you may be gripped by a kind of cognitve dissonance, or a haunting sense resembling a schizophrenic episode of contradictory voices in the collective consciousness.  While the global warming showboat is paddling up and down the Mississippi blowing steam and calliope music, nationalized oil producers are failing to answer calls for increased production in reply to a dramatic ramp-up in petroleum demand. Some call for increased exploration and others call for drop in replacements for petroleum. All the while, evidence accumulates that the ecosystem suffering from consumption and waste generation.

As with any discussion involving economics, it is possible for people to speak imprecisely when discussing supply and demand. Econobrowser takes Hirsch to task in this manner. It seems that many of us confuse demand with desire.

Supply equals demand today, supply will equal demand in 2025, and supply will equal demand in 2050. Whatever Hirsch means by “peaking of world conventional oil production,” it certainly isn’t the condition that “production will no longer satisfy demand.”

Our news media, now almost fully morphed into a perverse mix of gibbering Bill O’Reilly clones and entertainment news programming, prattles endlessly about the hurtful gasoline prices and truncated vacation plans. Government makes flatulent noises about more drilling, but hardly a peep about reduced consumption.  Where is the journalist corps? Who is asking the tough questions?

In isolation, either climate change or an exponential oil shock are more complex than nimrods leaders in the Bush administration can process. Together, these stresses add up to a major challenge to the way we live.  Maybe the situation is more complex than any nation can reasonably respond to. With global prosperity comes global demand for resources.  Western nations have built a house of cards based on cheap petroleum. Instead of wage growth in the past 20 years, we have been given easier access to credit. Instead of increased savings, we have found ways to burn up discretionary income.

A major part of what has to happen to adapt to the new reality of petroleum scarcity is a remodel of our infrastructure. We need more passenger rail lines and terminals with the necessary right-of-way issues taken care of. Workers need to live closer to their place of employment. The airlines have to figure out how to operate profitably with reduced passenger miles. We must upgrade our electric power distribution system to accommodate the increasing reliance on electrical energy. If wages do not change, we must adapt to having less discretionary income to spend. 

But a remodel of infrastructure will require that we adapt to living nearer to it. In the past, a proposal to build a power plant is met with a chorus of outrage or “concern”. It used to be called NIMBY- Not-In-My-Back-Yard.  The latest acronym is BANANA- Build-Absolutely-Nothing-Anywhere-Near-Anything. New power transmission lines and generating plants will have to go up and it will have to happen somewhere. People naturally fret about real estate prices and their view from the dining room window. I foresee more exercise of eminent domain in the future.

July 4th, National Explosives Day

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The one day of the year when it is acceptable to discharge fireworks and openly show a fascination with all things pyrotechnical is July 4th, National Explosives Day.  This day of national deflagration and detonation comes only once per year outside of Disney themeparks.  For our pious environmentalist friends, there is even a green fire available for a more righteous, earthy, celebration.