Acceleware Ltd. (“Acceleware” or the “Company”) (TSX-V: AXE), a
leading innovator of transformative technologies targeting the
decarbonization of industrial heating, provides an update regarding
its commercial-scale RF XL pilot project at Marwayne, Alberta (the
“Pilot”).
Previously announced in the third quarter 2023
financial and operating results on November 23, 2023, Acceleware
encountered subsurface challenges in redeploying upgraded
components during the RF XL heating well workover at the Pilot. As
a result, Acceleware paused the workover to review Pilot
performance data, continue inspection of the heating well, and to
further consider solutions to the challenges encountered in the
workover program. In consultation with industry partners, options
to resume testing were developed, discussed, and finalized. It was
determined that the most practical path forward involves a
redeployment of all subsurface components incorporating the
multiple improvements and upgrades that Acceleware has made to the
RF XL downhole system. Acceleware is actively sourcing an
additional $5 million of funding to complete the redeployment. The
redeployment is expected to enable higher power to be injected into
the reservoir for a sustained period in a second phase of
heating.
The Pilot performance data confirms the
successful operation of the Clean Tech Inverter (“CTI”), which is
the radio frequency (“RF”) ‘engine’ critical to Pilot success. A
primary objective of the Pilot was to demonstrate the operation of
the CTI and its effectiveness in transmitting temperature downhole
to increase oil production. Other significant milestones
achieved include:
- Acceleware
drilled and completed the first of its kind multilateral heating
well and associated production well in a previously produced heavy
oil reservoir.
- The RF XL system
(including the CTI) demonstrated unprecedented performance with the
longest continuous run (142 days) and highest power (up to 250 kW)
of any RF heating system.
- Maximum design
current was transmitted from the CTI, through the proprietary
transmission line, and radiated to the reservoir.
- Increased reservoir
temperature and oil production were observed in the
Pilot.
- The temperature
profile and oil production increase matched simulated predictions
given the levels of power radiated.
Additionally, critical components of the
proprietary RF XL subsurface technology functioned as designed and
expected.
The workover was undertaken to address a
distributed temperature sensing system (“DTS”) failure, during
which time the engineering team took the opportunity to examine
downhole components. As the workover progressed, an issue was
discovered with the downhole RF XL system resulting from water
ingress into the RF transmission line during deployment and
operation of the Pilot. Some moisture had been anticipated and was
initially addressed via the Pilot’s nitrogen purge and
pressurization system which is designed to remove and prevent the
return of fluids. Further analysis following the workover suggests
that this system was not able to manage the moisture levels
encountered, resulting in degradation of some proprietary downhole
components. For clarity, the moisture ingress issue pertained to
tubing connections, not to core RF XL technology nor RF XL
electronics. Acceleware has recreated the problem in lab tests and
has designed and tested a solution. The damage is believed to be
the primary impediment to Acceleware’s ability to achieve full
power in the first phase of heating at the Pilot. As mentioned on
November 22, 2023, Acceleware planned to develop several solutions
to this challenge and proceed with the option with the highest
probability of success and the lowest risk. The Acceleware team, in
consultation with industry partners, has developed what is believed
to be a permanent, resilient solution for the issue.
Acceleware now plans to continue a second phase
of heating after a significant subsurface upgrade plan to address
the moisture ingress issue. Subsurface components not removed
during the workover will be removed, refurbished, or upgraded, and
then redeployed along with the components already upgraded during
the original workover program. This plan was developed in
consultation with industry partners and service providers and among
the alternatives examined, it is expected to have the highest
probability of achieving higher power injected into the reservoir
for a sustained period. An additional $5 million of funding is
required to complete the redeployment, and Acceleware is actively
working to raise these funds. The final timing and cost of the
redeployment and subsequent heating remains dependent on financing,
partner investment, and the successful deployment of repairs and
components. Additional risks include the availability of service
rigs, weather conditions at site, supply chain reliability, and
material delivery timing. Upgrades have been specifically designed
to eliminate the moisture ingress issue. In addition, measures will
be taken to add resilience to the system to ensure long-term
operation if moisture does return. Upgrades will also be made to
augment success of the CTI function, including providing more
accurate monitoring of broadband voltage, current and power.
“With the depth and extent of the analysis,
design work, and lab testing that we have done since the workover
was paused, the Acceleware team feels strongly that the next
iteration of RF XL subsurface structure addresses all known issues
encountered in the first phase of the Pilot,” said Geoff Clark,
Chief Executive Officer of Acceleware. “We’re extremely pleased
that the clean-tech inverter exceeded expectations prior to the
Pilot workover and that data continues to show that RF XL can heat
the reservoir and improve oil production. Acceleware is going to
continue to pursue avenues of industry and other financial support
to see the pilot through to commercialization. At this time, the
project will be on pause until we secure the financial support
required for the upgrades and updates to the technology.”
RF XL is expected to be a transformative
decarbonization technology for heavy oil or oil sands production.
Not only can it eliminate direct GHG emissions from production,
meaning it requires no carbon capture, but it would also eliminate
the requirement for fresh water and significantly reduce land
footprint. RF XL is also expected to lower capital costs by 50
percent and operational costs by 40 percent, providing the
potential for this decarbonization technology to play a key role in
the energy transition.
RF XL is the first of several electrification of
industrial heating applications that Acceleware is commercializing
with CTI, including electromagnetic heating for mining.
E-house at Acceleware's RF XL Commercial-Scale
Pilot Test at Marwayne, AB. July 2023
About Acceleware
Acceleware is an innovator of clean-tech
decarbonization technologies comprised of two business units: Radio
Frequency Heating Technology and Seismic Imaging Software.
Acceleware is piloting RF XL, its patented
low-cost, low-carbon production technology for heavy oil and oil
sands that is materially different from any heavy oil recovery
technique used today. Acceleware's vision is that electrification
of heavy oil and oil sands production can be made possible through
RF XL, supporting a transition to much cleaner energy production
that can quickly bend the emissions curve downward. With clean
electricity, Acceleware’s RF XL technology could eliminate
greenhouse gas (GHG) emissions associated with heavy oil and oil
sands production. RF XL uses no water, requires no solvent, has a
small physical footprint, can be redeployed from site to site, and
can be applied to a multitude of reservoir types. Acceleware is
also actively developing partnerships for RF heating of other
industrial applications using the Company’s proprietary CTI.
Acceleware and Saa Dene Group (co-founded by Jim
Boucher) have created Acceleware | Kisâstwêw to raise the profile,
adoption, and value of Acceleware technologies. The shared vision
of the partnership is to improve the environmental and economic
performance of the energy sector by supporting ideals that are
important to Indigenous peoples, including respect for land, water,
and clean air.
The Company’s seismic imaging software solutions
are state-of-the-art for high fidelity imaging, providing the most
accurate and advanced imaging available for oil exploration in
complex geologies. Acceleware is a public company listed on
Canada’s TSX Venture Exchange under the trading symbol “AXE”.
Disclaimers
This news release contains “forward-looking
information” and “forward-looking statements” (collectively,
“forward-looking statements”) within the meaning of the applicable
Canadian securities legislation. All statements, other than
statements of historical fact, are forward-looking statements and
are based on expectations, estimates and projections as at the date
of this release. Any statement that involves discussions with
respect to predictions, expectations, beliefs, plans, projections,
objectives, assumptions, future events or performance (often but
not always using phrases such as “expects”, “anticipates”, “plans”,
“continues”, “budget”, “scheduled”, “forecasts”, “estimates”,
“believes” or “intends” or variations or negatives of such words
and phrases or stating that certain actions, events or results
“may” or “could”, “would”, “might”, “shall” or “will” be taken to
occur or be achieved) are not statements of historical fact and may
be forward-looking statements.
In this news release, forward-looking statements
relate to, among other things, statements relating to the benefits
of RF XL, future operation of the Pilot, prospective performance of
the Company, the status and advancement upgrades and repairs, the
anticipated development, application and market potential of CTI,
and the expected cost, and timing of the expanded upgrade program.
Various assumptions or factors are typically applied in drawing
conclusions or making the forecasts or projections set out in
forward-looking information. Those assumptions and factors are
based on information currently available to the Company. The
material facts and assumptions include failure analysis conducted
to date is accurate, cost estimates are accurate, and that
conclusions derived from experimental data are accurate. Actual
results may vary from the forward-looking information in this news
release due to certain material risk factors. The Company cautions
the reader that the above list of risk factors is not exhaustive
and additional risk factors risk factors are described in detail in
Acceleware’s continuous disclosure documents, which are filed on
SEDAR at www.sedar.com. The forward-looking information contained
in this release is made as of the date hereof and the Company is
not obligated to update or revise any forward-looking information,
whether as a result of new information, future events or otherwise,
except as required by applicable securities laws. Due to the risks,
uncertainties and assumptions contained herein, investors should
not place undue reliance on forward-looking information. The
foregoing statements expressly qualify any forward-looking
information contained herein.
Neither the TSXV nor its Regulation Services
Provider (as that term is defined in the policies of the TSXV)
accepts responsibility for the adequacy or accuracy of this
release.
For further information:
Geoff Clark, CEO
Tel: +1 (403) 249-9099
geoff.clark@acceleware.com
A photo accompanying this announcement is available at
https://www.globenewswire.com/NewsRoom/AttachmentNg/49798b2c-bb0f-4898-a6c4-283210fdeb28
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