Replies to post #35338 on QS Energy Inc (QSEP)

[zerosnoop]

NOT TRUE. The sec has VERIFIED & APPROVED the INDEPENDENT reports provided by ATS RheoSystems, RMOTC & PETROCHINA. The INDEPEDENT results are published in the 10k about the PROVEN AOT. This is why the DRA & DILUENT companies & their AGENTS, LAWYERS & PARASITES are very concerned about the PROVEN AOT & the damage it will do to their industry & profits. The DRA & DILUENT companies have FAILED to stop the progress of the PROVEN AOT.

http://journals.aps.org/pre/abstract/10.1103/PhysRevE.91.012304

Laboratory and Scientific Testing

From 2010 through 2013, the Company worked with the U.S. Department of Energy (“US DOE”) to test its technology at the Department of Energy’s Rocky Mountain Oilfield Testing Center (“RMOTC”), near Casper, Wyoming. This third-party testing independently verified the efficacy of the Company’s technology operating in a controlled facility, using commercial-scale prototype of our AOT equipment. These tests were summarized in the US DOE Rocky Mountain Oilfield Test Center report dated April 4, 2012 (“ROMRC Report”), which reported AOT measured pressure loss reduction of 40% (RMOTC Report, Fig. 1, page 4) and viscosity reduction of 40% (RMOTC Report, Fig. 2, page 4); and reported observed reductions in line-loss and gains in pump operation efficiency across the entire length of the 4.4-mile test pipeline. A copy of the RMOTC April 4, 2012 Report is available on the Company website at: https://qsenergy.box.com/DOE-STWA-RMOTC-Report. A subsequent long-duration (24-hour) test at the RMOTC facility tested the effectiveness of AOT in treating oil overnight, as pipeline oil temperatures and viscosities drop. In its report dated May 3, 2012 to May 4, 2012, US DOE engineers recorded 56% reduction in viscosity of the AOT-treated oil versus untreated oil, with AOT effectively stabilizing oil viscosity throughout the overnight run despite dropping temperatures. A copy of the RMOTC May 3, 2012 to May 4, 2012 report is available on the Company website at: https://qsenergy.box.com/DOE-STWA-RMOTC-Overnight.

Laboratory testing of our AOT technology has been conducted by Dr. Rongjia Tao. Testing of the technology as applied to crude oil extraction and transmission has been conducted at Temple University in their Physics Department, in addition to the US DOE, at their Rocky Mountain Oilfield Testing Center, located on the Naval Petroleum Reserve #3 Teapot Dome Oilfield, north of Casper, Wyoming. In addition, a group led by Dr. Rongjia Tao, Chairman, Department of Physics of Temple University conducted experiments, using the laboratory-scale Applied Oil Technology apparatus at the National Institute of Standards and Technology (NIST) Center for Neutron Research (CNR). NIST is an agency of the U.S. Department of Commerce, founded in 1901 in Gaithersburg, Maryland.

Independent laboratory testing was also conducted as a collaborative effort by Temple University and PetroChina Pipeline R&D Center (“PetroChina”) in 2012. In its report dated June 26, 2012 (“PetroChina Report”), PetroChina concluded, “The above series of tests show that it is very effective to use AOT to reduce the viscosity of crude oil. We can see that AOT has significantly reduced the viscosity of Daqing crude oil, Changqing crude oil, and Venezuela crude oil, and greatly improved its flow rate.” (PetroChina Report, page 15). A copy of the PetroChina Report is available online at: https://qsenergy.box.com/PetroChina-STWA-Report

As previously reported in 2014, QS Energy installed and tested its commercial AOT equipment, leased and operated by TransCanada on TransCanada’s high-volume Keystone pipeline operation. The first full test of the AOT equipment on the Keystone pipeline was performed in July 2014, with preliminary data analyzed and reported by Dr. Rongjia Tao of Temple University. Upon review of the July 2014 test results and preliminary report by Dr. Tao, QS Energy and TransCanada mutually agreed that this initial test was flawed due to, among other factors, the short term nature of the test, the inability to isolate certain independent pipeline operating factors such as fluctuations in upstream pump station pressures, and limitations of the AOT device to produce a sufficient electric field to optimize viscosity reduction. Although Dr. Tao’s preliminary report indicated promising results, QS Energy and TransCanada mutually agreed that no conclusions could be reliably reached from the July 2014 test or from Dr. Tao’s preliminary report. As a result of this test, the Company modified its testing protocols and contracted with an independent laboratory, ATS RheoSystems, a division of CANNON (“ATS”), to perform follow-up tests at the TransCanada facility. This independent laboratory performed viscosity measurements at the TransCanada facility during subsequent testing in September 2014. As detailed in its field test report dated October 6, 2014, ATS measured AOT viscosity reductions of 8% to 23% depending on flow rates and crude oil types in transit. Over the duration of a 24-hour test intended to measure the recovery of the AOT treated oil from its reduced-viscosity treated state to its original pre-treated viscosity, ATS measured viscosity reductions of 23% three hours after treatment and 11% thirteen hours after treatment, with the crude oil returning to its untreated state approximately twenty-two hours after treatment. In its summary report dated February 5, 2015, ATS concluded that i) data indicated a decrease in viscosity of crude oil flowing through the TransCanada pipeline due to AOT treatment of the crude oil; and ii) the power supply installed on our equipment would need to be increased to maximize reduction in viscosity and take full advantage of the AOT technology. A copy of the ATS summary report dated February 5, 2015 is available on the Company website at: https://qsenergy.box.com/ATS-AOT-SummaryRpt. A copy of the ATS field test report dated October 6, 2014, with certain confidential information redacted, is available on the Company website at: https://qsenergy.box.com/ATS-AOT-Detailed-Report.

Although, as reported by ATS, the efficacy of the AOT technology operated in the TransCanada field test was constrained due to limitations of the electric field applied by that unit’s power supply, subsequent analysis by QS Energy personnel of ATS test results compared against laboratory tests performed at Temple University on oil samples provided by TransCanada revealed a single test run in which the electric field generated by the AOT was sufficient to fully treat the oil given operating conditions at the time of the test. In this test run, ATS measured a 23% reduction in viscosity three hours after AOT treatment. Laboratory tests at Temple University performed on a sample of crude oil provided by TransCanada of the same type treated in that specific field test measured a 27% reduction in viscosity in the laboratory immediately following treatment. Allowing for the actual three-hour of recovery time of the field test measurement, the resulting field test viscosity reduction of 23% correlates very well to the 27% viscosity reduction achieved in the laboratory setting.

[zerosnoop]

INCORRECT. The PROVEN AOT, AOT XL, JOULE HEAT & ELEKTRA technologies are all here to stay as per the RECENT PR below. NEXT

http://ir.qsenergy.com/press-releases/detail/2026


SANTA BARBARA, CA -- (Marketwired) -- 10/17/16 -- QS Energy, Inc. (OTCQB: QSEP) The following is a shareholder update from Greggory M. Bigger, Chief Executive Officer, QS Energy, Inc.

As we enter the final quarter of what has been a year of re-alignment for the global energy sector, I'd like to provide an update on how our business strategies have evolved to capitalize on this unique period of transformation and opportunity.

It gives me great pleasure to confirm that we are engaged in AOT provisioning discussions under Non-Disclosure Agreements with multiple crude oil producers and pipeline operators here in the U.S., Canada, and the Middle East. Thanks to the tireless efforts of our project manager John Valenti, QS Energy has expanded our engineering capabilities in response to requests for detailed technical AOT deployment proposals and to meet the growing scope of potential applications for our technology.

From the onset of the value engineering of AOT and continuing today in our ongoing design process to further optimize its performance, along with myself and our engineering team, John is currently managing our collaboration with Temple University, our supply chain system fabricators, and current industry partners in North America and the Middle East. I can state without hesitation that there is no one else as exceptionally qualified as John to manage these complex and intensely detail-oriented projects and for that reason he continues to have the fullest confidence of the Board and myself.

Although the AOT technology is now nearly fully engineered and it has become less important to staff engineering support internally, we continue to benefit greatly from these in-house resources and industry partnerships. Based on what we are currently working on with industry partners, both domestic and international, I've never been more optimistic about our technology, our industry, and our relationship with Temple University and the interrelated role they are playing in the commercialization of the AOT system.

We're especially appreciative of the outstanding laboratory testing and R&D capabilities of Temple University's Department of Physics and Dr. Tao's team. Since my tenure as Chief Executive Officer began, our focus on intensely managing expenses while maximizing the fiscal and human capital resources available to us has been integral to positioning our solutions for today's new energy industry landscape and will continue to be central to QS Energy's path forward in developing and commercializing the AOT system. The present supply chain can handle 20 unit orders at a time, however additional facilities are available for larger orders.

As you are aware, in the first quarter of this year the Company embarked on an acquisitions strategy targeting undervalued assets. Over the past six months we have issued four Letters of Intent to a select group of crude oil and natural gas producers that met our stringent criteria. One of these letters was issued to the U.S. Federal Bankruptcy Court in Houston. While QS Energy is not abandoning this strategy, we are paying very close attention to crude oil pricing to gauge the most opportune time when conditions are optimally favorable to exercise a buy-side acquisition of cash flow positive entities.

It goes without saying that few industries are as prone to the "boom and bust" cycle of expansion and contraction as the oil and gas industry. Not unexpectedly, following the steep drop in oil spot prices in Q4 of 2014 the industry has been forced to recalibrate. Currently domestic and foreign markets appear to be slowly emerging from the price trough which triggered a widespread retrenchment and consolidation. While the U.S. rig count is gradually recovering, the tens of thousands of jobs lost will only return when spot prices recover more fully.

However, as we've documented previously, our experience has been that interest in AOT continues to grow as a result of this down cycle as producers and transporters adjust their operations to trim costs, remain solvent and survive until prices inevitably recover. By offering laboratory viscosity reduction tests of crude oil samples supplied by prospective customers, we've uniformly been able to predict efficiencies that can be gained in their pipeline infrastructures. In performing hydraulic analysis based on the specific crude oil being transported and the physical properties and operational metrics of the targeted pipeline, we are providing highly specific economic models of the bottom line benefits AOT can be expected to deliver.

We believe these factors explain why oil producers in many of the world's highest production regions are requesting proposals documenting how AOT can assist in their plans to increase crude oil flow volume and improve their ability to move hydrocarbons to market. Furthermore, as we have now definitively confirmed through commercial pipeline installations and the SCADA (Supervisory Control and Data Acquisition) records we have collected as well as crude oil samples we have analyzed in the Temple laboratory, the value engineered AOT has documented efficacy across the full spectrum of grades of crude oil, from super heavy bitumen to super lightweight and ultralight condensates.

Our ongoing deployment of a customized AOT system on a condensate line and the well-documented efficiencies it is bringing to the movement of ultralight feedstock, a category of crude oil that is currently just under 18% of all U.S. output, is evidence of the versatility of our technology.

From our perspective, two overarching market influencers explain this heightened awareness of AOT and the measurable benefits it can potentially provide. Both of these trends are responsible for redrawing the map of oil and gas markets over the past two years and a third, the increasing focus on reducing emissions in the production and transport of hydrocarbons, holds the promise to deeply affect the oil sector in the coming years.

First, and perhaps most significantly, U.S. and foreign producers have now endured nearly nine quarters of depressed oil prices. Last week's uptick to just over $50, the first time that barrier has been eclipsed since July 2015, may portend a slow return to previous highs which could improve margins and re-ignite E&P activity. However, even a surge to the $60s or $70s would not alter some of the new realities facing the industry. The shakeout and re-alignment that began last year has resulted in a leaner and more efficient industry, a mindset that will persist for the foreseeable future. As a result, we continue to see an increased focus among pipeline operators on lowering Opex and squeezing out higher flow volume and stronger tariff income, all of which make a case for AOT deployment.

Secondly, the bright side of the continuation of OPEC's intransigent production policies has been an intense focus on infrastructure by virtually all members of the consortium. Many of these nations are almost entirely dependent on oil revenue and have been driven to near insolvency due to the global supply glut and downward pressure on prices. In response, member nations Saudi Arabia, Iraq, Iran, and Venezuela, and petro-states such as Colombia, Brazil, and Ecuador have embarked on ambitious and capital-intensive modernization programs, much of this aimed at harnessing efficiency-centric technologies which provide innumerable of opportunities for AOT and Joule Heat.

Throughout the year we have documented how these efforts to expand existing infrastructure and improve delivery to markets may offer a broad range of potential applications for AOT technology. For example, in an Update on AOT Opportunities in the Middle East and South America and an August 15 2016 news release we discussed that we have issued a Letter of Intent to a national oil company in Western Asia and have produced an AOT Case Study for a sole and separate operator in the Middle East based on hydraulic analysis using crude oil samples and pipeline data provided by this prospective customer.

Thirdly, as international markets gear up to develop economically viable alternative and renewable energy sources to supplement fossil fuel, political leadership here and overseas seems poised to resurrect the idea of incentives to reduce CO2 emissions and other forms of greenhouse gas. What's changed in the equation is that some of the talk about carbon tax credits and the ability to buy and sell them on an open market is now coming from within the energy industry. For example, ExxonMobil has been lobbying Washington to develop carbon tax credit legislation and foreign energy giants which include BP Plc, Royal Dutch Shell Plc, Total SA, Statoil ASA, and others, are calling for incentive programs they believe will remove uncertainty from the investment markets and bring order and transparency to the global push to reduce emissions.

Although we have long considered the "clean tech" aspects of our patent-protected industrial hardware worth noting as seen in this August 15 2014 news release, it has yet to prove prudent as a business development strategy in the absence of sufficient and tangible customer benefit. However, should a carbon tax credit incentive pass into law we believe it may offer significant opportunities for QS Energy's technologies. During my tenure as Chief Executive Officer I have had countless discussions about the role our solutions could play in achieving the twin goals of reducing CO2 output and our customers securing financial advantages through research funding and tax credits.

More often than not the topic of carbon credits has been brought up as an ancillary benefit of AOT or Joule Heat by our prospective customers. Even though such incentives were at the time purely speculative, executives at midstream companies, technologists at engineering firms, and elected officials in regulatory and economic development agencies in Utah and Louisiana made clear their interest in investigating this intently. To fully explore carbon tax credit offset benefits AOT and Joule Heat could potentially offer to producers, transporters, and operators of offloading facilities and refineries, QS Energy commissioned a Carbon Markets research paper by Loyola Marymount University. Completed in December 2014, the study documents the emerging markets for the buying and selling of carbon emission allowances or permits ("carbon trading") and the fiscal benefits that may be gained by our customers through U.S. and international tax credits.

It is also worth noting that we have just wrapped up a reengineering of our patented Joule Heat System. As a result of the testing of a new prototype, we are in the process of further refining the performance of this innovative direct heat technology. While our patents remain in force with our intellectual property attorneys Jones Walker LLP, the Company is amending and resubmitting designs and additional patentable engineering characteristics for this energy-efficient upstream heating product.

Now that the value engineering of AOT and Joule Heat are nearing completion, we are reviewing Company-owned technology, patents, and other assets related to ELEKTRA, a clean tech hardware system designed to increase fuel efficiency and improve performance of diesel engines. According to multiple industry and government studies there is potentially a strong and growing demand for technology able to mitigate CO2 and other pollutants produced by the millions of diesel engines in use today in electric plants, marine vessels, and Class I locomotives in the U.S. We will be developing additional ELEKTRA design drawings and engineering schematics for the second quarter of 2017.

As our extensive protocols of controlled loop and commercial pipeline testing has borne out, AOT can be effectively customized for virtually any crude oil viscosity reduction and flow volume improvement application producers or transporters anywhere in the world can envision. An excellent example of this can be seen in a recent request for a modified system required for a high volume offloading facility. In response to this need we are currently developing the AOT XL, a vertically mounted, multi-vessel, modular unit designed for offshore applications.

We thank our shareholders for their loyalty and support, and our industry partners and supply chain suppliers for their collaboration. As noted throughout the year in our previous Shareholder Updates, news releases and SEC filings, we remain steadfast in our belief that AOT and Joule Heat have the potential to optimize the world's massive pipeline infrastructure at a time when operational efficiency, bottom line performance, and competitive advantages are paramount objectives of the industry.

Best regards,

Greggory M. Bigger
Chief Executive Officer
QS Energy, Inc.
Toll-Free: +1-877-872-7892
Main: +1-805-845-3581

Safe Harbor Statement:
Some of the statements in this letter may constitute forward-looking statements under federal securities laws. Please visit the following link for our complete cautionary forward-looking statement: http://www.qsenergy.com/site-info/disclaimer

Image Available: http://www.marketwire.com/library/MwGo/2016/10/15/11G118183/Images/greggory_m_bigger-f43f31771636b019a81b3340c6b426d6.jpg

Investor Relations & Media Contact:
QS Energy, Inc.
Tel: (805) 845-3581
E-mail: investor@qsenergy.com

Source: QS Energy, Inc.

Released October 17, 2016

[FML2013]

Recommend you read it again

Accept the facts

[zerosnoop]

ABSOLUTELY FALSE according to KINDER MORGAN. IT'S NOW CONFIRMED that KINDER MORGAN wants the PROVEN AOT as per the EVIDENCE below. NEXT

http://ir.qsenergy.com/press-releases/detail/2020


QS Energy's AOT Crude Oil Friction Reduction Hardware in Review Phase for Systemic Integration With Condensate Pipeline

SANTA BARBARA, CA -- (Marketwired) -- 06/06/16 -- QS Energy, Inc. (the "Company") (OTCQX: QSEP), a developer of integrated technology solutions for the energy industry, today announced its AOT (Applied Oil Technology) system will be benchmarked on a variety of super-light and ultra-light crude oil due to its ongoing positive evaluation on a major crude and condensate pipeline serving the Eagle Ford Shale in South Texas. In making the announcement, Greggory M. Bigger, QS Energy Chief Executive Officer and Chairman, stated, "In collaboration with our partner, we've mapped out the path forward to most effectively meet their objectives, which include laboratory testing of additional crude oil products followed by hydraulic analysis based on those results to determine the appropriate friction and viscosity reduction goals for our AOT system."

Designed to be installed adjacent to pipeline pumping stations, AOT subjects crude oil to a high-voltage/low-amperage electrical field to reduce its viscosity, which permits it to flow in higher volume. By integrating the AOT power supply with the hardware that controls and monitors a pipeline, typically situated in a remotely located control room, AOT will provide pipeline operators with the ability to monitor and react to real-time data to gain the best possible operational efficiencies.

"Upon delivery of our detailed use case study and cost-benefit projections, we anticipate integrating the AOT power supply with the pipeline's SCADA (Supervisory Control and Data Acquisition) system to provide remote operation of the AOT unit and automate its operation according to changes in the product transported," Mr. Bigger added. "QS Energy has also been asked to develop an installation-specific operational and systems handbook to gain maximum performance from the continuous AOT on a batch condensate system."

Initially installed on the condensate line last year, the customized AOT unit has undergone a rigorous value engineering process to achieve flow rates at levels predicted in earlier laboratory testing of samples of the ultra-light crude carried by the pipeline. Further viscosity reduction assessments of additional condensate samples are scheduled to be conducted at Temple University's Department of Physics, with hydraulic analysis of the additional data to be performed by QS Energy engineers.

"We're delighted that the recent performance review of AOT has resulted in an opportunity for us to demonstrate its friction reduction capabilities in a batched, multi-grade environment," Mr. Bigger added. "The industry's drive toward greater efficiencies and carbon neutrality demand technologies capable of reducing emissions related to the production and transport of crude oil while improving the economics of doing business in a lower spot price market. We believe AOT can play an important role in supporting our customers' commitment to producing energy more cost-efficiently and in an environmentally responsible manner."

For further information about QS Energy, Inc., visit www.QSEnergy.com, read our SEC filings at ir.stockpr.com/qsenergy/all-sec-filings and subscribe to Email Alerts at ir.stockpr.com/qsenergy/email-alerts to receive company news and shareholder updates.

Safe Harbor Statement:
Some of the statements in this release may constitute forward-looking statements under federal securities laws. Please visit the following link for our complete cautionary forward-looking statement: www.qsenergy.com/site-info/disclaimer

About AOT (Applied Oil Technology)
Developed in partnership with scientists at Temple University in Philadelphia, AOT (Applied Oil Technology) is the energy industry's first crude oil pipeline flow improvement solution using an electrical charge to coalesce microscopic particles native to unrefined oil, thereby reducing viscosity. Over the past four years AOT has been rigorously prepared for commercial use with the collaboration of over 30 engineering teams at 19 independent oil production and transportation entities interested in harnessing its proven efficacy to increase pipeline performance and flow, drive up committed and uncommitted toll rates for pipeline operators, and reduce pipeline operating costs. Although AOT originally attracted the attention of pipeline operators interested in improving their takeaway capacity during an historic surge in upstream output resulting from enhanced oil recovery techniques, the technology now represents the premiere solution for improving the profit margins of producers and transporters during today's economically challenging period of low spot prices and supply surplus.

About QS Energy, Inc.

QS Energy, Inc. (OTCQX: QSEP), provides the global energy industry with patent-protected industrial equipment designed to deliver measurable performance improvements to crude oil pipelines. Developed in partnership with leading crude oil production and transportation entities, QS Energy's high-value solutions address the enormous capacity inadequacies of domestic and overseas pipeline infrastructures that were designed and constructed prior to the current worldwide surge in oil production. In support of our clients' commitment to the responsible sourcing of energy and environmental stewardship, QS Energy combines scientific research with inventive problem solving to provide energy efficiency 'clean tech' solutions to bring new efficiencies and lower operational costs to the upstream, midstream and gathering sectors. More information is available at: www.QSEnergy.com

Source: QS Energy, Inc.

Image Available: www.marketwire.com/library/MwGo/2016/6/6/11G101475/Images/qsenergyphoto-881fea6ce8f4afcebc00f78dfe9b8200.jpg

Company Contact
QS Energy, Inc.
Tel: +1 805 845-3581
E-mail: investor@QSEnergy.com

Investor Relations
QS Energy, Inc.
Tel: +1 805 845-3581
E-mail: investor@QSEnergy.com

Source: QS Energy, Inc.

Released June 6, 2016

[zerosnoop]

NOT TRUE. REVENUE is FAST APPROACHING. From Fridays 8K filing about the "large" Canadian oil company & REVENUE :

http://ir.qsenergy.com/all-sec-filings/content/0001683168-16-000840/qsenergy_8k-120116.htm

On November 28, 2016, QS Energy, Inc. (the “Company”) entered into a Field Test Agreement (“Agreement”) with a large Canadian oil company, located in Calgary, Alberta (“COC”). The Agreement confirms COC’s desire to field test (the “Field Test”) the Company’s AOT Viscosity Reduction System (the “AOT Technology” or “AOT”) at a COC facility utilizing a fully functional laboratory-scale AOT device (the “AOT-Lab”) to assess the technical capability of the AOT Technology under field operating conditions. Toward this end, the Agreement provides, among other things, that the Company shall deliver and setup, and thereafter Field Test, the Company’s AOT-Lab equipment at a suitable location to be provided by COC (the “Services”). The Field Test shall be conducted and completed over a consecutive five (5) day period, by a date no later than March 31, 2017. As compensation for the Company’s Services, COC has agreed to pay the Company a fixed sum of $50,000 (USD), payable in two (2) equal installments of $25,000 (USD), each due no later than 30 days from COC’s receipt of the Company’s invoice, the first of which was issued by the Company upon execution of the Agreement, and the second of which shall be issued upon delivery of the Company’s Final Report to COC. The Final Report shall contain, among other things, the results of the Field Test, including technical information and data related thereto, preliminary specifications for a full-scale AOT configuration optimized to pipeline operating parameters supplied by COC, and a pro forma benefit analysis applying the Field Test results to the Company’s recommended AOT configuration and operating parameters provided by COC.

The above description of the Agreement is qualified in its entirety by reference to the Agreement, a copy of which is attached hereto as Exhibit 10.1, and incorporated herein by reference. The name of the COC has been redacted on confidentiality grounds.

This is why TRANSCANADA is showing "CONTINUED INTERESTS" in the PROVEN AOT. This is ABSOLUTELY TRUE. From the Business Plan. AOT Case Study. This is clearly in reference to TransCanada & the PROVEN AOT.

http://content.stockpr.com/sec/0001019687-15-004373/0001019687-15-004373.pdf


AOT CASE STUDY

QS Energy / ATS RheoSystems Joint Testing of
Commercial Beta Deployment on Mid-Continent High Volume Pipeline

In September 2014, a four-vessel AOT system was installed on a newly constructed, high-volume North-South, mid-continent pipeline under the terms of an Equipment Lease-Option to Purchase Agreement. Fabricated by QS Energy supply chain partners in 2013, the solid-state, 110-ton AOT system was shipped by freight truck and positioned on a gravel substrate on the equipment’s self-contained steel skid-mount at a pumping station of the customer’s choosing.

This commercial deployment and beta test opportunity was the result of extensive collaboration between QS Energy and executives and engineers from multiple producers, pipeline operators and supply chain partners. Following installation, pressure testing and calibration, the AOT system was interfaced with the extant SCADA (supervisory control and data acquisition) to provide a detailed overview of the system’s performance, including real time monitoring of flow rates, back flow pressure and other relevant metrics. Preliminary tests were conducted over a period of several weeks, under a variety of operating conditions and multiple grades of crude oil and diluent mixtures.

During the preliminary test cycle, it was determined that the electric field within the AOT pressure vessel was insufficient to fully treat heavy crude oils at flow rates expected under full-scale operating conditions. The power supply provided with the AOT device had been specified and approved by Temple University based on infrastructure and operating parameters, as well as on laboratory tests performed on crude oil samples provided by the pipeline operator. Detailed investigation verified the AOT power supply had been manufactured to, and was operating at, specifications as provided by Temple University, but was generating an electric field approximately 10% of that required to optimize treatment under full-scale operating flow rates 16 . It was further determined that replacing the AOT power supply with a more powerful unit would likely correct the situation. However, due to time constraints, all parties agreed to go forward with the testing using the installed power supply.

In its most extensive testing during this deployment, the AOT was operated under full-scale commercial operating conditions over a two-day period. Operations were overseen by the pipeline operator and QS Energy engineers, while engineers from ATS RheoSystems, a division of the CANNON Instrument Company (“ATS”), were on-site collecting data for subsequent analysis. Oil samples were taken from the pipeline both before and after treatment by the AOT. Viscosity measurements were conducted on three grades of heavy crude oils over the two-day testing period. Data collected and analyzed before and after AOT treatment demonstrated a decrease in viscosity of approximately 23 percent 3 hours after treatment, and a decrease in viscosity of approximately 11 percent 13 hours after treatment; 22 hours after treatment, the crude oil had returned to its original pre-treated viscosity.

[SoxFan]

Notice they don't identify the company. This could be all smoke and mirrors

[PumpersExposed]

Sano, by "extensions" are you talking about the terms, or the type of cords tangled and run end to end in Tao's 'lab'?