Monthly Archives: June 2009

Out of the ditch and on the road

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I have decided to continue scribbling in this blog. Th’ Gaussling has cut loose some psychic energy sinks that have been bogging me down.  There are too many problematic characters in my work life to welcome them gladly into a volunteer life as well. Many of us (i.e., large, irritable animals) aren’t cut out to be happy and compliant volunteers.

Writing is something I need to do on a regular basis. Writing in a private diary isn’t nearly exciting enough. I enjoy the trickle of commentary and the colorful characters out there in the blogosphere.

Mollie Kathleen Mine, Part 2.

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Underground Air Locomotive

Underground Air Locomotive

In Part 1 of my post on the Mollie Kathleen Mine in Cripple Creek, Colorado, I described the ride down to the 1000 ft level.  Having been in mines considerably less developed, I was impressed with the quality of the skip lift equipment and the general state of the mine workings above and below ground. The mine make heavy use of pneumatic equipment to minimize ignition sources.  The air locomotive above features a pressure tank which energizes an air motor to drive the contraption. It works quite well.

Mechanized Mucking with Pneumatic Equipment

Mechanized Mucking with Pneumatic Equipment

Once at the bottom of the shaft, the mine appears to be little more than a hallway with steel tracks on the floor. In fact, it is a series of hallways, or drifts, and shafts. The goldbearing formation that the Mollie Kathleen mine has penetrated is a volcanic formation called a diatreme and it is composed of highly disturbed rock from ancient volcanic activity. The district contains gold in varying abundances. Certain features of the formation are more enriched than others.

In general, one does underground hardrock mining to exploit a network of veins enriched in value, in this case, gold.  By definition, an ore is a body of rock or mineral that contains commercially exploitable value such as gold. 

Blasting pattern prior to a shot

Blasting pattern prior to a shot

Solid rock is fragmented with explosives and loaded into ore carts. The rubble accumulated from blasting activity is called “muck”. Muckers were very important workers in a mine and the mines productivity hinged on their ability to load the ore carts as fast as possible. Until carbide lamps arrived, miners toiled in very low light levels in candle or kerosene lamplight.

With the advent of better technology came more effective and safer blasting agents, fuse cord capable of adjusting the timing of a blast sequence, and more efficient ejection of fragmented rock.  Near the center of the photo above is a pattern of holes filled with blasting agent. Well, except for one hole in the center of the pattern. This empty hole is placed specifically to provide for space for expansion relief.  A shot is timed to trigger the charges around the empty hole first, followed by concentric detonation of the blast pattern. Finally, a set of charges low in the pattern lift the muck out of the hole and onto the floor.

Pneumatic hammer for pounding a drilling steel into the rock wall.

Pneumatic hammer for pounding a drilling steel into the rock wall.

According to the tour guide, the Mollie Kathleen mine is fairly rich in gold but lacks access to a milling facility. Without milling and refinement, there is no point in pulling the ore out of the ground. So, until a scheme for beneficiation of the ore comes along, the gold will have to sit in the formation and make money for its owners as a tourist attraction.

As is common in mine tours, the staff is well versed in the history and mechanics of getting ore out of the formation. What seems to be glossed over or wholly ignored is the process of getting purified gold out of the ore. Being a chemist, I was naturally interested in the isolation process. The refining process I was able to “extract” from the mine tour operators was a simple but inefficient method.

Gold ore was pulverized and heated to high temperature in a way that resembles calcination. Diffuse wisps and pieces of elemental gold in the ore would melt and agglomerate so as to produce larger pieces of gold. The roasted ore could then be exposed to a mechanical/slurry agitation process that would dislodge the now larger pieces of gold and classify them by density much like the gold panning process.

The roasting process apparently oxidized the tellurium in the ore, resulting in a purification. The question is, did the roasting process just oxidize the free tellurium or did it free the gold from the gold telluride (Calaverite)?

Another process can be used to extract gold from the ore. It grossly resembles the mercury amalgamation method. Metallic lead is combined with gold ore and heated to some high temperature in a special container. A lead-gold alloy is formed which can be poured away from the gangue. The molten alloy is then exposed to air oxidation, forming litharge (PbO) and metallic gold which phase separate and can be separated mechanically. Assayers use a process called fire assay or cuppelation to extract refined gold for an assay.

Chlorine extraction was used to oxidize metallic gold to the soluble NaAuCl4 salt which could reduced by contact with carbon or by electrolysis. Chlorine water was used prior to the cyanide extraction methodology now in common practice.

Old Headworks by the Mollie Kathleen Mine

Old Headworks by the Mollie Kathleen Mine

Tripping the Web Fantastic

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First, my apologies to John Milton for my self-indulgent bastardization of a line of his prose.

Gaussling’s TOE (theory of everything) suggests that the universe will continue to exist until every strange occurrence that can happen, will happen. Perhaps the Hindu’s thought of this first … I don’t know. Anyway, we are one bit of strangeness closer to doom now that Snoop Dogg and Buzz Aldrin have cut a hip hop song. If I weren’t too cheap to pay for a download, I’d comment further on it.

Roger Ebert has captured the words I have been searching for to describe Bill O’Reilly and his ilk. My hat is off to Mr. Ebert for getting it right.  I think it is time to thin out the herd.

Eruption of Sarychev Volcano as seen from ISS

Eruption of Sarychev Volcano as seen from ISS

The photo above is from Nasa’s Earth Observatory web site and was taken by an ISS astronaut. Note the whitish pyroclastic flow radiating to the 5 o’clock direction. The Sarychev volcano is located on the Kuril Islands north of Japan.

Touring the Mollie Kathleen Mine, Part 1.

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By way of a prelude to this post let me say that, as a child, I was plagued with nightmares about elevator shafts. A tallish building in a nearby city had an elevator that, in the style of WWI-era buildings, was comprised of an open cage controlled by a matronly operator. On each floor the entrance to the elevator shaft was guarded by a collapsible metal gate that allowed the visitor to see, hear, and smell the greasy workings of the elevator in all its cabled creepyness.

I would stand next to the gate as the elevator went about its single-minded business and peer down into the dark shaft with its writhing black cables, fascinated yet deeply in tune with the prospects of what a fall down this hole would mean.  Like most young boys, I had bitter experience with the unblinking and impersonal side of gravity.

It was this memory that flashed into my mind yesterday as I stood in a manlift the size of a large domestic refrigerator, crammed tightly into the cramped cage with 6 other people. We looked like a can of vienna sausages.  The lift was a double-decker, with an identical cage of sausages below.

Crammed in Manlift

Crammed in Manlift

There we stood- a squashed parcel of humanity and hard hats in the orange lift, dangling above a 1000 ft column of air. Outside I could see the town of Cripple Creek, Colorado, sitting in the valley 400 ft below us. In two minutes, we would be 600 ft below the level of the town. As we began the descent and as daylight fell to darkness, I felt a my autonomic system select “Panic Mode”. But it was too late, we were committed. After 30 seconds, a graveyard calm replaced my momentary panic and all was well.

Double Decker Manlift at Mollie Kathleen Mine

Double Decker Manlift at Mollie Kathleen Mine

This was my first entry into the Mollie Kathleen Mine outside of Cripple Creek, CO. The tour begins in a drift 1000 ft below surface level. A “drift” is just a horizontal tunnel in an underground mine. I have toured a number of mines and caves and the common attribute to all of them is the absolute silence that is found underground. Today’s tour would be different.

The Mollie Kathleen Mine sits on the side of a mountain adjacent to the mammoth Cripple Creek and Victor (CC&V) open pit gold mine. The operators of both mines have independent claims to different parts of the same confined geological formation. The Mollie Kathleen is one of a great many underground mines in the area, of which only a very few are in operation today. It is presently open only for tours.  The CC&V mine is the only large gold mining operation in the area.

The CC&V mine is an open pit operation. Large hauling trucks carry 300 ton loads of ore rubble from the pit to nearby crushers which reduce the rock to 3/4 inch pebbles in preparation for the cyanide extraction process on the heap.  The rubble is the result of large scale bench blasting with ANFO blasting agent.

The CC&V does blasting on a regular basis. That day, while we were underground about 1-3 miles distant (my estimate), they set off a blast. We were down in the mine when the underground rumble hit. There was no ramp-up to maximum force- it began as a loud, strong rumble seemingly from every direction. We stopped in our tracks and instinctively looked at the ceiling trying to decide if this was a normal or off-normal event and, oh golly, will the the tunnel collapse? After 30 to 40 seconds the rumble subsided and the mine was silent again except for a few heartfelt expressions of relief. Clearly there was no danger for anyone, but the abruptness and the magnitude of the explosion only serves to remind one of the compromises made and the options lost while working underground.

1000 Ft down into the Mollie Kathleen Mine

1000 Ft down into the Mollie Kathleen Mine

The tour guide was a young ex-miner from Montana who explained mining practices and demonstrated the numerous pneumatic tools used by hard rock miners.  In part 2, we will look at some of the mine workings and other features of the Mollie Kathleen Mine.

Hard Rock Placard. Photo Copyright 2009 Th' Gaussling.

Hard Rock Placard. Photo Copyright 2009 Th' Gaussling.

The Bitter Barn

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At the recent San Francisco APA meeting, a call was made to define bitterness as a pathological condition. The proposed acronym is PTED – Post Traumatic Embitterment Disorder. I guess it covers the range from pissy to postal. Maybe our pharma friends can find an enzyme to inhibit for the treatment of PTED. Better yet, perhaps there is an animal model out there- say, badgers or wolverines. Sounds like a market opportunity!

Proterozoic Contact

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My search continued today for an exposed contact between the upthrusted proterozoic igneous rock of the Rock Mountains and the Fountain sandstone formation. I returned to an obscure roadcut site I had examined a few months ago. Three (male) cyclists outfitted in expensive cycling couture (Spandex) were standing there nibbling on dainty little energy snacks next to the spot I needed to be as I pulled up and exited my vehicle with a rock hammer in hand. One seemed taken aback momentarily as I walked towards them with the chisled masonry hammer. It didn’t dawn on me until after they left why they were acting strangely- I startled them. Sorry fellas!  \;-)

With rock hammer in hand I scrambled up a steep and unstable scree slope adjacent to what appeared to be disturbed layer next to a gneiss formation. Down below, along the roadcut, a contact was visible between the gneiss and what appeared to be schist.  This dark material has a preponderance of mica with little gross evidence of stratification. I wrongly concluded that I was not near the proterozoic contact.

But as I followed this discontinuity further up the mountain I found clear evidence of a stratified sedimentary formation adjacent to the igneous rock. On a ledge high above the road I found an actual contact between what appears to be modified sandstone and gneiss. I found a sample that has the gneiss fused onto the layered rock that fractures into thin sheets much like sandstone or shale. Regrettably, I left the camera in the Jeep.

What appears to have happened is that the sandstone layer has been thermally modified along the interface due to the intimate contact with the upthrusted igneous rock. I had half-expected to see a simple interface between sandstone and an igneous rock. Instead, what I seem to be seeing at this site is a modified sedimentary layer that shows evidence of some localized metamorphic modification.

A nearby thin layer of rock in the interface zone appears to be glassy or vitrified, as though it has been partially melted. I do not interpret this to be a result of weathering. A rapidly approaching lightning storm forced me to cut my exploration short and run for cover.

So, I have some hypotheses beginning to take shape. Now the question is, how do I falsify my interpretations? I certainly have much to learn about petrology.

Freeman Dyson- Climate Skeptic

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An excellent entry into interesting and high quality articles on the net can be found at Arts & Letters Daily. I found an interview of physicist Freeman Dyson. In the interview, the writer is trying to understand how someone of Dyson’s stature could be skeptical of anthropogenic global warming. Basically, Dyson is skeptical of the models used and is skeptical of the assumption that the pre-industrial climate is automatically a valid baseline climate. Dyson accepts that there may be more desirable climate scenarios and that climate change is not automatically bad.

What is lost in most of the public discussion is the history of climate over the past million or so years. The fossil and geological record does not support the assumption that the global climate is static. We’re presently 10 or 12 thousand years past the latest glaciation episode in a series of glaciation episodes. As I recall, the interglacial periods in North America have averaged something like 10-15 thousand years.

What happens to atmospheric CO2 levels as the temperature rises or falls? Does rising atmospheric CO2 lead to a temperature rise or is it a result of a temperature rise? I have not encountered an adequate explanation taking into account the temperature sensitivity of carbonate equilibrium.

CO2 is not an inert substance. It reacts strongly with water to form carbonate.  Obviously CO2 will get absorbed by the biosphere. Do the atmospheric models take the various carbon sinks into account? Perhaps a reader knows.

Water vapour is a potent greenhouse gas and is certainly more abundant than CO2. It must account for some aspect of atmospheric temperature change. Do cloud aerosols and sea spray absorb significant CO2? It’s kinda complex.

National Organic Symposium. Wender Wednesday.

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My final attendance at the National Organic Symposium was Wednesday evening. An award was presented to editor-in-chief, Scott Denmark, on behalf of the monograph series Organic Reactions. The original editor was none other than Roger Adams. Denmark presented a retrospective slide show on the history of Organic Reations.

The speaker for the evening was Prof. Paul Wender from Stanford.  Wender presented a long but fascinating talk on his work with several complex molecules including bryostatin. I have to say that I was rather blown away by this work. I guess I’ve been living on a desert island.

Wender has the great fortune of having access to facilities and people who can do complex chemical synthesis and biological assays and all of the other wondrous things that are necessary to rapidly expose a valuable biopharmaceuticals. The payoff is that questions relating to the biological activity of particular derivatives can be answered rapidly and productive leads can be isolated and further cultivated.

This confederation of resources is perhaps as important to Wender’s productivity as anything. My point is that to be a Wender, you need more than just smarts and money. You need a network of like-minded coworkers whose particular strengths can mesh with yours to produce these kinds of results.  I think that his ability to pull together these kinds of resources is just as impressive as his native ability with chemistry.