Lewis Karrick: Low Temperature Carbonization of Coal



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**Lewis C.
KARRICK**

**Low-Temperature
Carbonization
of Coal**

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**Oil from Coal --- Free!**
  

**The Karrick LTC Process**

by **Robert A. Nelson**

**America** has been called the Saudi Arabia of Coal because
it contains 28% of Earth's known reserves, enough to last more
than a thousand years. Coal accounts for 90% of our national
energy reserves, but only 30% of our energy consumption. Coal is
a logical target for a national effort to achieve energy
independence. The environmental hazards of burning coal limits,
however, its use in raw form. It is therefor urgent that we
develop the production of synthetic liquid fuel from coal.
America alone of the major industrial nations has increased its
reliance on Middle East oil since the OPEC embargo of 1973.

Early in 1980, President
Carter gained Congressional approval of a $20 billion synfuel
program including an Energy Mobilization Board to cut
bureaucratic red tape and speed the approval of high-priority
projects including plants to manufacture oil from coal and
shale. The U.S. Department of Energy placed great emphasis on
the Bergius process (direct liquefaction by hydrogenation) to
produce synfuel. The Bergius process has been justly
criticized by ecologists and economists; it is impossibly
expensive, impractical, and dangerous, consumes a lot of
water, and its waste products pose a grave threat to the
environment.

The Bergius process combines
heated hydrogen under 3000-5000 psi pressure with coal to
produce oil. The synthesis requires about 7000 cu. ft.
hydrogen per barrel of oil it produces, plus 1500 cu. ft. of
hydrogen per 1000 cu. ft. of synfuel it produces.

It is ironic that the major
source of chemical hydrogen is natural gas. In terms of
industrial chemical requirements and economics, natural gas
has served this need well. But where hydrogen is considered as
a means of conserving fossil fuels or producing synfuel, a
much less costly and more abundant source must be sought. The
logical choice is water, and an intensive search is underway
to find economical ways of splitting that molecule to generate
hydrogen and "hyfuel".

A far superior method exists
to manufacture oil from coal. It is a little-known but very
attractive, proven method called Low-Temperature Carbonization
(LTC). The process was perfected by Lewis C. Karrick, an oil
shale technologist at the U.S. Bureau of Mines in the 1920s.

LTC is a pyrolysis process
that involves heating coal, shale, lignite, or any other
carbonaceous material, including garbage) to about 800o
F. in the absence of oxygen. Oil is thus distilled from the
material, rather than burning as it would if oxygen were
present.

After treatment by the
Karrick process, a ton of coal will yield up to a barrel of
oil, 3000 cu. ft. of rich fuel gas, and 1500 lb. of solid
smokeless char (semi-coke). The economics of the process are
such that the oil is obtained for free! The smokeless char is
an excellent substitute for coal in utility boilers, and for
coking coal in steel smelters. It yields more heat than raw
coal, and it can be converted to water gas. That gas can be
converted to oil by the Fischer-Tropsch synthesis-process. The
coal gas produced by Karrick-LTC yields more BTUs than natural
gas because it contains a greater amount of combined carbon,
and there is less dilution of the combustion gases with water
vapor. The phenolic wastes are used by the chemical industry
as feedstock for working up into plastics, etc.. The process
produces no pollutants other than carbon dioxide.

Electrical energy can be
co-generated at minimal cost, in addition to coal products. A
Karrick-LTC plant with a daily capacity of 1000 tons would
produce enough steam to generate 100,000 KW-hours of
electrical power at no extra cost other than the capital
investment in electrical equipment and steam temperature
losses in the turbines.

No such claims can be made
for any other coal or shale oil project in practice or theory.
Nor can anyone demonstrate any other process that is
manufacturing oil, gas, and semi-coke from coal commercially
and without government subsidy, as is was done in England by
the National Coal Carbonizing Co., Ltd. For 40 years, until
the NCCC became catastrophically involved in North Sea oil in
the 1970s, the company operated five LTC retorts producing
Rexco-brand smokeless fuel (plus oil and gas) for use in
England's official clean air zones. Other LTC plants have been
operated in Estonia and a few other countries, but they are
obsolete or are over-managed (as in India).

Lewis Cass Karrick did not
invent LTC of coal; he perfected it. In America before 1860,
more than 50 plants were extracting oil and gas from coal.
Boston had five LTC plants that produced oil and gas for heat,
light, axle grease, and paraffin. But by 1873, the surfeit of
Rockefeller's then-cheap petroleum had forced the last
coal-oil plant to shut down. Free enterprise could revive the
art, for the Karrick process is most amenable to private
enterprise initiative. Oiligarchists fear this possibility and
have very nearly entirely suppressed this elegant technology.
According to Webster, suppress means "to keep from public
knowledge --- to refrain from divulging."

In 1926, Secretary of
Commerce Herbert Hoover (who later became President) made
Karrick custodian of the government's coal-oil research data.
Hoover advised Karrick to file patents, thus rendering the
broadest public service and giving the government full credit.
Sixteen patents were issued to Karrick outright. One, covering
the underground distillation and gasification of coal and oil
shale, was held jointly with brother Samuel, and another with
Douglas Gould. All of the patents have expired since then.
Karrick died in 1962. The patents now are in the public
domain.

As soon as Karrick and his
associates proved they could produce oil from coal cheaper
than the oil wells could pump it (plus gain major yield of gas
and semi-coke), the government stopped all work on the
processes at the pilot plants in Rifle, Colorado, and
dismantled them.

Why? The major companies
that mined coking coal for use by the steel-smelting industry
pressured the Bureau of Mines to suppress Karrick's LTC
process. It was feared that the cheap semi-coke char would
replace coking coal and thus devalue hundreds of thousands of
acres of coking-coal reserves, held by the coal-mining
industry and worth billions of dollars. Coking coal cannot be
used for LTC processing because it agglomerates upon heating
and plugs the retort. Coking-coal comprise less than 5% of our
national coal reserves and are in short supply. The other 95%
are non-coking coals.

In 1926, Germany's I.G.
Farben chemical combine announced the invention of the Bergius
process for making synthetic liquid fuel from coal by
hydrogenation. But as Farben's president explained to a
committee of the Reichstag, "The field of petroleum industry
is so tremendous, and is so absolutely under the command of
three large concerns, that the consideration of a new
production in the fight against these concerns would have been
very difficult... and the financial needs... beyond any
expectation." The German corporate directorate concluded that
in order to ensure the development of the Bergius process,
their best course of action was to cooperate with Standard
Oil.

After months of talks
between Karrick and patent broker Leo Ranney (and on the very
day in 1929 that Standard Oil announced that it had paid $35
million for the Bergius process), SO officials tendered
Karrick the positioned of vice-president and chief engineer,
plus 1/3 of the stock in a chartered subsidiary entitled Oil
& gas Development Company. In exchange, Karrick was to
relinquish control of his patents and supporting data. Thus,
the oil cartel was on the verge of controlling both methods of
converting coal into oil: Bergius hydrogenation and Karrick
LTC.

Federal anti-trust lawyers
advised Karrick not to sign with Standard Oil. They believed
that the cartel intended to suppress his patents until they
had expired and the country had run out of oil. Only then
would they implement Karrick's LTC technology, particularly
the underground gasification of coal.

Karrick was advised to
return to Utah to teach and develop his methods at the
University of Utah. He founded the Utah Research Foundation
for the endowment of the University of Utah, and several
student theses were written about the research they developed.
In 1934, one of Karrick's students, S. Clark Jacobson,
received the Mechanical Engineering Honor for the best
undergraduate thesis of the year, bestowed by the Utah Chapter
of the American Society of Mechanical Engineers. The thesis,
co-authored with George Carter, was abstracted in several
scientific and industrial journals. **(1)**

So-called experts have
criticized that a commercial-scale plant designed according to
the principles established by Karrick would not be practical
or mechanically feasible. Yet in fact, no difficulty
whatsoever was encountered with the successful operation of
the pilot plant built by Karrick and his students at the
University of Utah, as they showed in their graduate theses.

A witness for the Bureau of
Mines told the Senate Interior Affairs Committee that the
Karrick retort is fundamentally different in construction and
operation from any other design. The retort was used to
process large amounts of bituminous material, and appeared to
have the best record of performance of any available retort
that had been developed. Every variety and mixture of shale
available was used, and all types of charges were retorted
successfully. The last run was made with the worst coking
shale available. Although two-thirds of the spent shale was in
the form of large clinkers, the retort was discharged easily.
The KLTC retort is self-cleaning, has no moving parts, is
automated, and is continuous feeding. **(2)**

It is further possible to
make watergas in the Karrick retort. The LTC char is
especially well suited for the purpose. In other LTC
processes, the feedstock must be brought to an incandescent
state in a separate operation. The charge in a Karrick retort
is in an incandescent state at the end of a run, and means of
removing the water-gas are an integral part of the design.

In 1947, after completing
commercial-scale runs on Appalachian coal, Karrick presented
the Keynote address to the Convention of the Ohio Society of
Professional Engineers. He said, "Great coal-oil and shale-oil
industries have existed and do now exist in foreign countries,
and many successful plants have existed in the state of Ohio
and other states. Recent studies have shown that oil from
coals of Ohio can be manufactured by distillation, not
hydrogenation, at less than the average price of petroleum."

Ohio bituminous coal then
was selling for $3.50/ton, and natural crude was selling at
the Persian Gulf for 34 cents per barrel, and domestic crude
for around $2.53. The economics of the Karrick process were
such that he was able to claim:

"If the solid smokeless fuel
residue from the LTC process was assumed to sell at the same
price as the average price of prepared sizes of raw coal, then
the cost of the crude oil would be zero dollars per barrel.
This condition now exists in Ohio, and there can be made
available plenty of low-cost fuel, excellently suited for
domestic uses and industrial plants as a by-product of the
manufacture of oil from coal. Also, the gas made from coal by
these distillation methods is of about the same heating value
as average natural gas."

The economic claims for LTC
coal-oil processes have been demonstrated on a commercial
scale in England by the National Coal Carbonizing Co., Ltd.,
which manufactured the Rexco brand of char in its Snibston
plant at Coalsville, Leicestershire. The NCCC developed five
LTC plants in Scotland and England, producing smokeless fuel
for industrial and domestic use in England's official
clean-air zones. The highly-efficient plants carbonized 1,000
tons of coal daily, 750 tons of which a recovered as smokeless
char. The NCCC's 35-ton capacity retorts also produced 3
million cubic feet of fuel gas and between 650-700 barrels of
oil daily. No smoke or odor were discernible. The tars and
phenol wastes were sold to the chemical industry as feedstock
for plastics. The Rexco process was patented by Wallace, and
is not to be confused with that of Karrick.

The conveying and processing
part of the plant involves the services of three men and a
supervisor per shift. All were easily trained from scratch.
Adding a few more retorts in line would not require any
additional personnel. NCCC's Snibston plant originally was
designed for six retorts, but the sixth was not installed
because the British government limited NCCC's coal
allocations. Unfortunately, NCCC became involved in Britain's
North Sea oil project and was forced to cease its LTC
operations in the 1980s due to political and economic
machinations. The coampany's coal gasification plant now is a
toxic cleanup site.

The official DOE position on
LTC maintains the lie that "about 50% of the energy in feed
coal remains in the total residue or char, and this residue is
no better than the original." If the char is no better than
the original coal, then why is it that in Britain's industrial
centers, where the burning of non-smokeless fuel is
prohibited, birds and plants that have not been seen for 100
years have returned?

The DOE and oiligarchists
discourage private enterprise and venture capital by issuing
absurd, false statements about the technical and economical
feasibility of Karrick's LTC technology. The DOE has
suppressed the truth about the commercial capability of KLTC
and its environmental advantages. Meanwhile, the major oil
companies have been subsidized with billions of dollars to
hydrogenate coal, even though the Bergius process and its
variations will cost the public at least twice as much per
barrel as OPEC charges.

Enter Harlan Trott, who for
more than 20 years was a staff member of the *Christian
Science Monitor*. He also served as chief of the *CSM*'s
San Francisco bureau,. His articles also have appeared in such
journals as *The American Banker*, *The London
Observer*, *The Economist*, and others. Harlan
Trott met Lewis Karrick in 1949:

"Mr. Karrick was calling our
home office, protesting and claiming that the Bureau of Mines
was suppressing this technology, this cheaper and more
efficient method to produce coal-oil. The editors picked me to
talk with Mr. Karrick and see if we could sort out the facts.
I thought it wouldn't take very long to do this, so I made
arrangements for Mr. Karrick to come into the office around
3:30 in the afternoon there in Washington. I figured he'd be
out of the way by four o'clock and I'd get ahead of the crowd
going home to Alexandria. Mr. Karrick came in at the appointed
time and we started talking. And then I suddenly noticed the
city lights had come on and the office was deserted. We
discovered it was about eight o'clock. I had been spellbound
by this story he had to tell about oil from coal and the way
he alleged it had been suppressed. We went out and had a quick
bite to eat and came back to the office and talked until about
11:30 that night. And then I made a report, evaluated and
sorted out the information, and suggested to the editors that
we write a story about it. So the *Monitor* gave me
about three months to concentrate and dig into this thing from
all angles, and then we went to press and came out with a
full-page copyright story in the March 20, 1950 issue of the *Christian
Science Monitor*."

The perceptive and
challenging story aroused so much attention and controversy,
the Bureau of Mines felt obliged to publish a 5,000-word
statement, full of misinformation, in which emphatic mention
was made of the supposed "high cost of first producing the
high-temperature steam to be used in carbonizing the coal and
then condensing it to recover the tar product."

On May 12, 1950, two months
after the publication of Trott's article, Lewis Karrick set
the record straight when he testified at a Congressional
hearing on the future use of the Minnesota peat bogs as an
energy resource:

"The simple and relatively
inexpensive processes developed by me in the government
service during the 1920s were designed for use as adjuncts to
steam power plants so that there would be no need to invest
new capital to produce steam. The LTC process would use
off-peak steam from the power plant.

"When you heat coal just to
the temperature we call 'destructive distillation', oils form.
If you don't let the temperature rise above that point, which
is the same temperature used in cracking petroleum (700o-800oF.), you get oil from coal, not tar."

"If the Bureau of Mines
recognized this as oil instead of appearing dumb and calling
it tar, then it should have been developed under the Synthetic
Liquid Fuels Act. We can crack it into 50-odd percent
gasoline, which is very good gasoline. It is better oil than
you can get out of shale oil. It gives you as much oil per ton
and gives you valuable by-products of smokeless fuel, which
makes it cheaper than shale oil. So by not calling it oil,
which it is if shale-oil is oil, its development has been
obstructed.

"The present Bureau of mines
won't recognize this cheap source of oil. They will spend vast
sums of money on the German methods, but not a cent on
distilling oil out of coal by the way we made oil in the U.S.
once.

"In fact, all the oil in the
U.S. was made out of coal up to the time of the first oil well
in 1859. There were 55 companies at one time, all listed in
one of our government publications, manufacturing all of the
oil used in the U.S., and it was not coal tar, it was oil!

"When I was in the shale oil
work and had the title of shale oil technologist for the
bureau of Mines, we estimated that we could distill the oil
shales underground and produce oil for a good deal less than a
dollar a barrel, or if we used either of the two commercial
plants that we built at Rifle, Colorado (1920-1926), we could
make oil for $1.50 or $2 a barrel with either of those
processes. Those are the figures, and we can prove it now.
Since then, I have directed research at the School of Mines
and Engineering in Utah for 8 years to prove these things, to
offset information put out by the Bureau of Mines and others
to the effect that you can't do it.

"Capital costs would be
somewhere around $2,000 to $2,500 per ton of daily capacity,
present prices [1950]. When we first figured this back in the
Bureau of Mines, way back in 1927 to 1930 when we finished
this study, it was as low as $800.

"Rocky Mountain coals... all
yield from 35 to 45 gallons of oil per ton. You could get from
2,000 to 2,700 cubic feet of gas out of it, but we learned to
heat until just the last trace of oil is out. Then it can't be
made to smoke under any conditions. It burns with a very long,
clear blue flame. The gas yields can be varied. The more gas
you drive out of this smokeless fuel, the lower the BTU of the
gas; so you can boost it up to 6,000 cubic feet of 800 BTU gas
per ton of coal processed.

"Then it was demonstrated
that all of the solid smokeless fuel could be made into
water-gas. In that case you could get about 40,000 cubic feet
of 300 to 350 BTU gas from a ton of processed coal. And out of
that water-gas you could make four barrels of oil by the
Fischer synthesis process.

"If you use some other gas
such as hydrogen, rather than steam to distill oil from coal,
that gas will be permanently mixed with the gas you make from
coal and will make the new gas very low in BTU's and probably
not salable. If you were to use a gas in place of steam, it
would take power to compress the gas to force it to circulate
through the coal. The power used to compress the hydrogen
probably will be steam, and you would use nearly as much steam
just to circulate the gas as you would if you used steam in
the first place.

"The thing to do is to
distill the oil out of the coal, while making a smokeless fuel
and high-BTU gas. In a national crisis you would quickly go to
converting this reactive, solid smokeless fuel to oil... Those
who have been using this smokeless fuel (i.e., industries and
power plants) will then go to burning raw coal for the
duration of the emergency. That's the way we think the
national fuel economy ought to be handled..."

And yet, even after such
explicit and unarguable testimony, the Bureau of Mines refused
to change its position which defines coal-oil as tar.

Harlan Trott's article in
the *Christian Science* *Monitor* was read by
Hubert Humphrey, then freshman Senator from Minnesota. In
testimony at a Congressional hearing on July 13, 1950,
Humphrey stated that he had read Trott's article and discussed
it with eminent scientists at the University of Minnesota and
at the School of Mines at Rapid City, South Dakota. Humphrey
said that he had come to be dissatisfied with the attitude
which the Bureau of Mines held toward the Karrick LTC process:

"Mr. Karrick believes that
the merits of his cheap, domestic oil-from-coal process are
unlikely to interest oil companies, or the Department of the
Interior for that matter, until the companies run out of
sources of cheap foreign oil."

Shortly after the *Monitor*published Trott's article about the Karrick process, Trott
received a hand-written note from Watson Snyder, the Justice
Department's chief oil investigator, saying:

"The world oil cartel
prevents the cheap production of oil from coal as it might
bring about a reduction in prices in the U.S."

In 1952, the governmental
suppression of the truth about the Karrick process
precipitated a crisis of confidence within the Bureau of
Mines. In an effort to clarify the technical controversy over
the relative merits of hydrogenation and LTC of coal, Dr.
Eugene Ayres (Director of Research of the Chemical Division of
Gulf Oil and the foremost fuel economist on President
Eisenhower's cartel-stacked Paley Commission) was invited to
address 30 members of the Bureau of Mines coal research staff
over dinner at the Cosmos Club in Washington DC. Dr. Ayres
proceeded to refute every point of the Bureau's position
against Karrick's work in no uncertain terms:

"The hydrogenation of coal
is unnecessary and too expensive in terms of dollars and coal,
and the process uses much precious water. About half of the
thermal value of coal is destroyed in the Bergius process.
Hydrogenation need not be used to any large extent in the
future because there exist simple, continuous LTC techniques
(such as the Bureau of Mines developed) in which moderate
yields of oil are accompanied by major yield of char
(smokeless fuel). The oil can be converted to liquid fuels
while the char is an excellent fuel for steam boilers in
electrical generating plants. The Karrick-LTC method ---
including the conversion of oil to motor fuel --- destroys
only 25% of the thermal value --- half as much as the Bergius
hydrogenation process."

According to Dr. E.R.
Mellinger, a leading expert on LTC, the Karrick process has a
cyclic efficiency higher than 90%.

In 1933, Germany imported
85% of its oil, but Hitler then instituted the most intensive
synfuel program ever attempted. By the end of the WW2, Nazi
Germany produced 75% of its own fuel by means of both the
Bergius process and LTC of coal.

Harlan Trott located
documents recording the opinion of Dr. Adolf Thau, Germany's
leading synfuel expert. In 1945, Dr. Thau told Dr. Frank Reed
of the U.S. Technical Oil Mission, which went to Germany to
study the Nazi's synfuel technology, that the Bergius process
was "very expensive and accident-prone due to hydrogen
explosions... Based on the coal introduced, only a very small
amount of oil was obtained. Far better results were obtained
by the simpler LTC methods." Dr. Thau produced a copy of a
statement made in 1944 by British Minister of Fuels David
George, disclosing that "oil from coal produced at home during
the war had displaced fuel oil to a large extent in Great
Britain... Further development of LTC is expected by the coal
industry as a result of the experiences gained during the war,
while the prospects for the hydrogenation of coal are judged
less positively." Dr. Thau told Dr. Reed that, "The facts
stated by the British government are fully confirmed by the
experience gained in Germany."

Despite all the facts to the
contrary, the DOE assiduously ignores the Karrick LTC process:

"A major emphasis... is
being placed on the hydrogenation of coal because [the DOE
believes] this type of process can produce the maximum yield
of liquid fuel products. Hydrogenation promises to be the most
efficient and economical means of making synfuel..."

The Federal government built
a $10 million, 30,000 barrel/day pilot plant to test the
Bergius hydrogenation process, but the Secretary of the
Interior ordered the plant dismantled in 1953, saying it was
"useless to keep trying to get more than a quart of water in a
quart jar." Yet again, in 1978, Congress awarded a $75 million
grant to Gulf Oil Company for development of the Bergius
process, which cannot be made to stand on its own financial
feet. Much more public money has been wasted on the same folly
since then. Oiligarchists insist that the public must
subsidize the program, which only the largest corporations are
sophisticated, experienced, and foolish enough to exploit in
this pork-barrel fashion. The oil cartel finds it easy and
profitable to obtain Federal funds for the Bergius process,
rather than institute the free Karrick-LTC technology.

During an interview with
this writer in March 1980 at radio station KPFA (94.1 FM,
Berkeley CA), Harlan Trott said:

"You see, the threat here,
to the oil cartel, is decentralization. Karrick-LTC lends to
independent local control. Any co-op in this country wherever
there's a coal mine can do this. In effect, every coal tipple
can be an oil well."

To illustrate the point, Mr.
Trott told of a group of merchants in Sydney, Australia, who
cooperated during World War 2 to make shale oil to supply
their needs. Australia was then on strict gasoline rationing.
The group selected the Karrick-LTC process and purchased for
$10,000 the 30-ton capacity retort developed by Karrick for
the Santa Maria Railroad at Casmalia, CA. The group began
distilling oil from shale near Sydney, and they were so
successful that they installed two more retorts without
employing extra help. The co-op also developed adapters to
allow the use of shale-oil on their fleet of trucks. In
England today, some trucks are operated by char-fueled steam
power at one-fourth the cost of gasoline. During the 1930s,
Karrick's students at the University of Utah drove their cars
on gasoline made from coal in their campus pilot plant..

In 1979, one of Karrick's
students, Biard Anderson, was interviewed on a tv program at
the NBC studio in Salt Lake City. The moderator asked, "Do you
envision this [Karrick-LTC] process being used in conjunction
with power generating plants?" Anderson replied:

"I can see that somebody
like Utah Power and Light could take coal on its way to the
generating plant, process and take the oil and gas out, and
then send the smokeless coal on, and burn that. And I believe
that they could sell the oil and gas at a profit. In other
words, it could be that they can't afford to burn the raw coal
anymore."

Lewis Karrick's patents have
expired and now are in the public domain. They can be used by
anyone, and no one can monopolize them. The process is
relatively cheap, and does not need to be subsidized. The
construction of a Karrick-LTC plant would cost only a quarter
as much as a Bergius hydrogenation plant. Yet the technology
lies utterly dormant today, no thanks to its suppression by
oiligarchists.

Let them eat coke. Give us
oil for free, thanks to Lewis Cass Karrick!

---

**References
& Bibliography**

(1)   Jacobson, S.
Clark, & Carter, George: *Energy Factors Relating to
Production of Synthetic Fuel, Oil & Gas from Rocky
Mountain Coals by Low-Temperature Carbonization;* Thesis,
University of Utah (May 15, 1934).   
(2)   *Senate
Internal Affairs Committee Hearings on S-1243* (3 August
1943); Senator O'Mahoney's Sub-Committee of the Committee of
Public Land & Surveys.   
(3)   *House of
Representatives Hearings* #7330, p. 136 (12 May 1950).
  
(4)   *DOE
Position Letter* (31 August 1979) from George Fumich, Jr.
(Program Director for Fossil Energy) to Representative Bill
Nelson (FL).   
(5)   Trott,
Harlan: *Christian Science Monitor* (20 March 1950).
  
(6)   Trott, H.: *Progressive*
(June 1974).   
(7)   Trott, H.: *Newsreal*(June
1977).   
(8)   *Congressional
Record*, pp. E-5196-8 (23 September 1978).   
(9)   Gentry, Frank
L. *The Technology of LTC*; 1928, Williams & Wilkins,
Baltimore.   
(10) Carter, Dr. George W.
& Jacobsen, S.C.: "Solid Smokeless Fuel"; *Mechanical
Engineering*, May 1935.   
(11) *Christian Science
Monitor* (13 August 1951); "Fuel Plant Plan: How Story
Was Bared".   
(12) Darrah, W.A.: "Economics
of LTC Coal Treatment"; Vol. I, *Proc. 2nd World 
Conference on Coal*(1928), Carnegie Tech. (1928); pp.
242-282.   
(13) Fieldner, A.C.: "LTC of
Coal"; *Tech. Paper* # 396 (1936), Dept. of Commerce.
  
(14) Graves, R.L., & Fox,
E.C.: *Diesel Fuels from [LTC] Processed Coal*; Oak
Ridge National Lab., August 1984.   
(15) *Golden Years: 50
Years of Rexco (1932-1982)*; Ratcliff & Roper
Printers, UK.   
(16) *Los Angeles Times*,
23 October & 3 November, 1951.   
(17) McKee, Ralph H.:
"Fundamentals of Shale Oil", *Monograph* #25 (1925),
American Chemical Society, NY.   
(18) Reid, W.: "LTC of Coal
in Japan"; *Information Circular* # 7430 (February
1948), U.S. Bureau of Mines.   
(19) Carter, G.W. (ed.): "LTC
of Utah Coals"; *Report to the Utah Conservation &
Resources Fdn., the Governor & the Legislature*; May
1939.   
(20) *Congressional Record*,
22/23 March, 1950, pp. A-2242-2245 & 3960-3961.

---

**U.S.
Patents Issued to Lewis C. Karrick for LTC of Coal**

1,835,878 (Cl. 2-268), 8
December 1931; "Leaching & Treating Apparatus".   
1,894,691 (Cl. 202-7), 7
January 1933; "Destructive Distillation of Carbonaceous
Material".   
1,899,154 (Cl. 251-29), 28
February 1933; "Valve".   
1,901,169 (Cl. 202-15),14
March 1933; "Distillation of Carbonaceous Material".   
1,901,170 (Cl. 48-206), 14
March 1933; "Gasification of Carbonaceous Material".   
1,906,755 (Cl. 202-9), 2 May
1933; "Method of Improving the Properties of Solid Fuel by
LTC"   
1,913, 395 (Cl. 262-1);
"Underground Gasification of Carbonaceous Material- Bearing
Substances".   
1,919,636 (Cl. 262-1), 25
July 1933; "System of Mining Oil Shales"   
1,923,213 (Cl. 203-3), August
1933; "Process & Apparatus for Carbonizing Coal".   
1,938,596 (Cl. 202-221), 12
December 1933; "Retort".   
1,942,650 (Cl. 202-17), 9
January 1934; "Apparatus for Coking Bituminous Coal"   
1,945,530 (Cl. 202-16), 16
February 1934; "Destructive Distillation of Solid Carbonizable
Material".   
1,950,558 (Cl. 202-15), 13
March 1934; "Process for the Production of gas, Oil &
Other Products".   
1,958,918 (Cl. 202-15), 15
May 1934; "Process of Destructively Distilling Solid
Carbonaceous Material".   
2,011,054 (Cl. 202-6), 13
August 1935; "Process of Destructive Distillation of
Carbonaceous Material".   
2,268,989 (Cl. 202-15), 6
January 1942; "Process for Improving Fuel".   
2,283,556 (Cl. 221-145), 19
May 1942; "Valve".

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