Eran BANIEL & Aharon EYAL -- HCl Conversion of Cellulose
to Sugar



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**Eran BANIEL & Aharon
EYAL**

**HCl Conversion of
Cellulose to Sugar**

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[**http://www.hclcleantech.com**](http://www.hclcleantech.com)

**HCL
CLEANTECH
- PRESS RELEASE**

**Innovative HCL Recovery Process Revolutionizes the
1930 Bergius Technology for Converting Cellulosic Materials
into Fermentable Sugars - Enabling Ethanol for Less Than
US$1/Gallon**

TEL-AVIV,
Israel, June 11 /PRNewswire/ -- HCL CleanTech
(http://www.hclcleantech.com), an Israeli company co founded by
Prof. Avram Baniel and Prof. Ari Eyal has developed a proprietary
full HCL recovery process, which makes an old, industrially-proven
German Cellulosic to fermentable sugars and Ethanol process
economically very attractive. The new technology can also "clean"
and improve other HCL dependant industries. Modern Chemical
technology makes the implementation straightforward and immediate.

The study and
development of chemical processes which use acids for the
conversion of Lignocellulosic material (biomass) to fermentable
sugars and ethanol have been going on for about a century. The
main reason none of them have been economically viable is that in
most of them yields are low due to the formation of useless
by-products at a significant percentage of the desired sugars.
There is however one particular process that provides near 100%
conversion to constituent sugars and that has been fully proven
through years of operation on a large industrial scale. The only
reason that this excellent process (usually named Bergius after
its Nobel Prize winning developer) was used extensively only
during World War II period were the high operating costs. The use
of fuming acid (HCL gas) in the Bergius process ensures high
yields, but the costs of recovery and reconcentration of the HCL
has made the process costs too high for economic viability - until
now.

HCL-CleanTech
proprietary technology changes this Lignocellulosics to Ethanol
process and makes it economically attractive by dramatically
reducing the most costly part of the process. Recovering HCl in
gaseous form directly from its solutions, by means of the
HCL-CleanTech proprietary process provides for drastic costs
reduction while preserving the high yields of the industrially
proven Bergius cold hydrolysis.

This concept
allows for a large variety of feedstock, requires very little
water and is virtually self sufficient energetically. Calculations
done by a US Chemical Engineering company in a study for HCL
CleanTech indicate that costs per 1 gallon of Ethanol manufactured
using this concept will be below $1 (US).

HCL CleanTech's
technology for the recovery of HCl from aqueous solutions and
industrial processes based on the core technology can provide
complete acid recovery solutions to HCL dependent industries (such
as the PVC industry). This would not only significantly reduce
operating costs, but would make those industries far more
environmentally friendly.  
  
**About HCL CleanTech Ltd**.

Incorporated in
December 2007, HCL CleanTech is a technology licensing company
co-founded by 2 of Israel's most prominent Industrial Chemical
Research scientists. Prof. Avraham Baniel (over 35 years Applied
R&D and Management of IMI - Israel Mining Institute - and
teaching at the Casali Institute of the Hebrew University) and
Prof. Ari Eyal (Prof. of applied Chemistry at the Hebrew
University, senior advisor to many firms worldwide). HCL CleanTech
is about to start its first round of institutional investment.

![](hclcleantech1.gif)

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[**http://www.acs.org**](http://www.acs.org)

***Chemical
& Engineering News***

**HCL Cleantech Wins Venture Funding**

**Israeli start-up touts process for using
hydrochloric acid to make cheap sugar from cellulose**

Biofuels
start-up HCL Cleantech has received a first infusion of venture
capital funding from Burrill & Co. and Khosla Ventures, two
big names in clean energy investing. HCL, based in Tel-Aviv,
Israel, has revived a World War II-era process for converting
cellulosic feedstocks to sugar, a potential biofuel feedstock,
using concentrated hydrochloric acid.

HCL Cleantech was founded in
December 2007 to commercialize technology adapted from an
invention by Nobel Prize-winning German chemist Friedrich Bergius.
The Bergius process was used in Germany during World War II when
the country suffered from a shortage of fuel and sugar. But
difficulties in recovering the concentrated hydrochloric acid made
the process too expensive to commercialize.

HCL CEO Eran Baniel says his company
has figured out how to completely recover 42% hydrochloric acid
through solvent extraction. Baniel claims that using the acid
makes for a simple and low-cost conversion to sugar compared to
other methods such as enzyme-based degradation. He says the
technology can hydrolyze a wide variety of cellulosic feedstocks
without drying or pretreatment, uses little water or energy, and
produces high sugar yields with fewer unwanted byproducts.

Initially, Baniel says, the company
planned to go into ethanol production, but "we promptly realized
we have little to contribute to fermentation technology. We'll go
as far as we can to be the best at producing low cost sugars, and
well find enough partners in the U.S. who can go from sugar to
any end product."

Some of those partners may be other
Khosla-backed ventures in the renewable fuels sector, such as
Amyris, LS9, and Gevo.

Peter J. Reilly, professor of
engineering at Iowa State University's Department of Chemical and
Biological Engineering points out that most cellulosic biofuels
firms use sulfuric acid because its cheap, or enzymes because they
can be engineered for high yields. He says he is intrigued by
HCL's Cleantechs process. "The use of solvent to recycle
hydrochloric acid is interestingthat's the key part of this
story." Reilly says that one possible problem with using
hydrochloric acid would be corrosion in the production vessels,
though the company may resort to using glass-lined tanks.

HCL did not disclose the amount of
funding it has received, but the company plans to invest the money
in a pilot plant in North Carolina that will go on-line by the end
of 2010. The plant will take in 1.25 tons per day of cellulosic
feedstock.

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**WO2008111045**

**A
PROCESS FOR THE RECOVERY OF HCL FROM A DILUTE SOLUTION THEREOF**

Inventor: BANIEL
AVRAM [IL] ; EYAL AHARON

Applicant: HCL
CLEANTECH LTD [IL] ; BANIEL Avram

2008-09-18

**Abstract**
-- The invention provides a process for the recovery of HCI from a
dilute solution thereof, comprising: a) bringing a dilute aqueous
HCI solution into contact with a substantially immiscible
extractant, said extractant comprising: 1) an oil soluble amine
which amine is substantially water insoluble both in free and in
salt form; 2) an oil soluble organic acid which acid is
substantially water insoluble both in free and in salt form; and
3) a solvent for the amine and organic acid; whereupon HCI
selectively transfers to said extractant to form an HCI-carrying
extractant; and b) treating said HCI-carrying extractant to obtain
gaseous HCI.

![](hcl1.jpg)  
![](hcl2.jpg)  

![](hcl3.jpg)

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