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12/14/17 11:24 PM

#43045 RE: mr_sano #43043

INCORRECT. I would NOT want to be SHORT on QS Energy. I notice the SHORT POSITION in QS Energy is increasing as per the EVIDENCE in the short report below.

http://otcshortreport.com/company/QSEP?index=qsep&action=view#.Vc0xR17ovIU

That is true, I have far lower margin requirements than 250k, so at 250k it doesn't make a lot of sense.

I am short and wouldn't like be long

I have been short since 2014, and will keep my short position up
just to keep me interested in the story

If orders materialize and the company starts generating cash flow commensurate with the current market capitalization, I am more than willing to admit that I am wrong and cover my short position.

but I still have a residual short position left to keep my interested. If the stock goes up more, I might increase my short position.


I just think that this is a worthless POS pump-and-dump scheme that has been fleecing shareholders for years, and that is the reason I've been short this name for a few years.


The FACT is right now it is very evident that major material events are in the works. Events that will change the face of the company when any of them come to fruition. QS Energy has that exciting feel at the moment. Many ducks are lining up. Which duck will be first ?

CENOVUS
KINDER MORGAN
TRANSCANADA

Energy Tech
Middle East
Statoil
Norrant
China
North America
South America
Ireland
Russia, cold old Russia
Africa
IRAQ
Southern California Edison
Pacific Gas & Electric
TAL OIL
AWP Petro (operator of the Adria-Wein pipeline, which is connected to the Transalpine pipeline)

KM how many units would they want on that condensate line ?

Middle East, imagine them, what if they want 40 banks of 4, that would be 160 units. How many units would you use on the oil platform?

All this company needs is just one thing to go right and it will explode to the upside.

I'm looking forward to it !!!































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zerosnoop

12/14/17 11:27 PM

#43046 RE: mr_sano #43043

ABSOLUTELY FALSE according to all the GEMS & FACTS in the latest 10Q filing. This is more ACCURATE & FACTUAL about the PROVEN AOT & KINDER MORGAN. NEXT

In February 2016, the modified AOT equipment was installed at Kinder Morgan’s facility. Pre-acceptance testing was performed in April 2016, culminating in more than 24 hours of continuous operations. In-field viscosity measurements and pipeline data collected during this test indicated the AOT equipment operated as expected, resulting in viscosity reductions equivalent to those measured under laboratory conditions. Supervisory Control And Data Acquisition (“SCADA”) pipeline operating data collected by Kinder Morgan during this test indicated a pipeline pressure drop reduction consistent with expectations. Kinder Morgan provided the Company with a number of additional crude oil samples which were tested in the laboratory for future test correlation and operational planning purposes. Based on final analysis of in-field test results, SCADA operating data and subsequent analysis of crude oil samples at Temple University, Kinder Morgan and QS Energy are considering moving the AOT test facility to a different, higher-volume pipeline location.

The Company is in discussions with a large Middle Eastern oil company regarding AOT technology in the Middle East, having tested multiple oil samples provided by this oil company at Temple University in 2015 and 2016. In 2017, the Company tested multiple oil samples provided by the Middle Eastern oil company, the most recent of which was completed in October 2017. These tests demonstrated AOT viscosity reductions on the subject samples of 20% to 50% in a laboratory setting.


In the fourth quarter 2016, the Company entered a contract to provide onsite testing services to a Canadian oil producer and pipeline operator at a fixed price of $50,000. The testing service was performed in January 2017 and was completed in March 2017.

During the third quarter 2016, the Company developed a new onsite testing program designed to accelerate the AOT sales cycle. This program utilizes a fully functional laboratory-scale AOT device designed and developed by the Company in 2015, and tested at the Southern Research Institute. Under this new program, Company engineers will set up a temporary lab at the customer’s site to test a full range of crude oils. Fees charged for providing this service will be dependent on scope of services, crude oil sample to be tested, and onsite time requirements. This program has received a positive response from potential customers. In the fourth quarter 2016, the Company entered a contract to provide these onsite testing services to a Canadian oil producer and pipeline operator over a one-week period in early 2017 at a fixed price of $50,000. This initial test was performed in January 2017; data analysis and final report was completed in March 2017.

In July 2017, the Company filed for trademark protection for the word “eDiluent” in advance of rolling out a new marketing and revenue strategy based on the concept of using AOT to reduce pipeline dependence upon diluent to reduce viscosity of crude oils. A primary function of AOT is to reduce viscosity by means of its solid-state electronics technology; in essence providing an electronic form of diluent, or “eDiluent”. The Company plans to market and sell a value-added service under the name eDiluent, designed to be upsold by the Company’s midstream pipeline customers in an effort to provide the Company with long-term recurring revenues.

During the third quarter 2017, the Company built a dedicated laboratory space at its Tomball Texas facility, and now has the capability to perform onsite testing utilizing our laboratory-scale AOT device, among other equipment. We restarted AOT Upstream development in September 2017, and plans to resume Joule Heat development in the future depending on the availability of sufficient capital and other resources. Also during the third quarter 2017, the Company built an outdoor facility at its Tomball Texas facility for onsite storage of AOT inventory and other large equipment.

We are in discussions with several oil companies regarding installation of a demonstration AOT unit. The Company recently received an oil sample from U.S. midstream oil company, and is preparing to test this oil sample at Temple University during the fourth quarter 2017. The Company is in active discussions with a number of prospective customers in the South American market operating in areas highly reliant on naphtha, on a very expensive crude oil product, as diluent to achieve required viscosity reduction.

Southern Research Institute (SRI) was engaged by QS Energy in 2015 to investigate the root cause of the crude oil condensate impedance issue by replicating conditions experienced in the field utilizing a laboratory-scaled version of the AOT and crude oil condensate samples provided by Kinder Morgan. In addition, QS Energy retained an industry expert petroleum pipeline engineer to review the AOT design and suggest design modifications to resolve the crude oil condensate impedance issue. This engineer has studied design details, staff reports and forensic photographs of each relevant AOT installation and test. Based on these investigations, specific modifications were proposed to resolve the impedance issue, and improve the overall efficiency of the AOT device, resulting in a new value-engineered design of certain AOT internal components.

QS Energy, Inc. (“QS Energy” or “Company” or “we” or “us” or “our”) develops and commercializes energy efficiency technologies that assist in meeting increasing global energy demands, improving the economics of oil extraction and transport, and reducing greenhouse gas emissions. The Company's intellectual properties include a portfolio of domestic and international patents and patents pending, a substantial portion of which have been developed in conjunction with and exclusively licensed from Temple University of Philadelphia, PA (“Temple”). QS Energy's primary technology is called Applied Oil Technology™ (AOT), a commercial-grade crude oil pipeline transportation flow-assurance product. Engineered specifically to reduce pipeline pressure loss, increase pipeline flow rate and capacity, and reduce shippers’ reliance on diluents and drag reducing agents to meet pipeline maximum viscosity requirements, AOT is a 100% solid-state system that reduces crude oil viscosity by applying a high intensity electrical field to crude oil feedstock while in transit. AOT technology delivers reductions in crude oil viscosity and pipeline pressure loss as demonstrated in independent third-party tests performed by the U.S. Department of Energy, the PetroChina Pipeline R&D Center, and ATS RheoSystems, a division of CANNON™, at full-scale test facilities in the U.S. and China, and under commercial operating conditions on one of North America’s largest high-volume crude oil pipelines. Recent testing on a commercial crude oil condensate pipeline demonstrated high correlation between laboratory analysis and full-scale AOT operations under commercial operating conditions with onsite measurements and data collected by the pipeline operator on its supervisory control and data acquisition (“SCADA”) system. The AOT product has transitioned from laboratory testing and ongoing research and development to initial production and continued testing in advance of our goal of seeking acceptance and adoption by the midstream pipeline marketplace. We continue to devote the bulk of our efforts to the promotion, design, testing and the commercial manufacturing and operations of our crude oil pipeline products in the upstream and midstream energy sector. We anticipate that these efforts will continue during 2017 and 2018.

Between 2011 and 2012, the Company transitioned from prototype testing of its AOT technology at the U.S. Department of Energy Rocky Mountain Oilfield Testing Center, Midwest, Wyoming (“RMOTC”), to the design and production of full-scale commercial prototype units. The Company worked in a collaborative engineering environment with multiple energy industry companies to refine the AOT Midstream commercial design to comply with the stringent standards and qualification processes as dictated by independent engineering audit groups and North American industry regulatory bodies. In May 2013, the Company’s first commercial prototype unit known as AOT Midstream, was completed.

In 2014, the Company began development of a new suite of products based around the new electrical heat system which reduces oil viscosity through a process known as joule heat (“Joule Heat”). The Company is designing and optimizing the Joule Heat technology for the upstream oil transportation market. The Company filed two provisional patents related to the technology’s method and apparatus in the second quarter and fourth quarter of 2013, respectively. The first of the two provisional patents was finalized and submitted to non-provisional status on April 29, 2014. The second of the two provisional patents was finalized and submitted to non-provisional status at the end of the third quarter 2014.

















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zerosnoop

12/14/17 11:31 PM

#43047 RE: mr_sano #43043

NOT TRUE. So the Chief Operating Officer of the Natural Gas Pipeline business unit of Kinder Morgan has joined the BOD of QS Energy. This CONFIRMS KINDER MORGAN wants the PROVEN AOT.

https://ir.qsenergy.com/all-sec-filings/content/0001683168-17-001142/qsenergy_8k.htm

Gary Buchler, Director

Gary Buchler is Chief Operating Officer of the Natural Gas Pipeline business unit of Kinder Morgan, Inc. (NYSE: KMI) and operator of one of the largest interstate pipeline systems in the United States. With oversight of a combined annual expense/capital budget of $1.3 billion, Mr. Buchler is responsible for all Engineering, Operations, Environmental, Health and Safety (EHS), and Land Management functions for roughly 70,000 miles of transmission and gathering pipelines. Mr. Buchler is responsible for the day-to-day management of 3,900 employees, evaluation and oversight of expansion projects, and the evaluation of potential acquisitions. As Chief Operating Officer of the KM Gas Pipelines, Mr. Buchler has been instrumental in the acquisition and integration of more than $45 billion in pipeline assets at Kinder Morgan. Mr. Buchler has held various management positions at Kinder Morgan since 1979, including Vice-President Engineering/Operations Pipeline Group, Vice-President Eastern Pipeline Operations, Vice-President Engineering and Operations Kinder Morgan Gas Treating/Kinderhawk Field Services, and Director of Pipeline Integrity. He earned a Bachelor’s Degree in Electrical Engineering from the University of Iowa and an MBA from the Keller Graduate School of Management.

Richard Munn, Director

Richard W. Munn is one of the top players in the royalty and mineral arena as demonstrated over the last 15 years with 39 years of industry experience. Of note, he managed the royalty acquisition teams at Noble Royalties and other companies, closing on the acquisition of approximately $450 million worth of Royalty and Mineral Interests involving over 50 separate transactions. Mr. Munn has a solid reputation and extensive relationships with private and public U.S.-based energy producers and mineral holders. He has also managed his own exploration and production companies. From 2005 to 2007, Mr. Munn chaired the IPAA Business Development Committee and from 2007 to 2009, he chaired the IPAA Business Development/ Membership Committee. From 2005 to 2007, Mr. Munn chaired the Society of Petroleum Engineers Business Development Committee. In addition, to his network of oil and gas industry relationships, Mr. Munn is a licensed registered professional geologist in Wyoming with a B.A. in Geology from the University of Colorado.

William Green (Independent Director)

if elected, will begin his term on the Board as of July 14, 2017, subsequent to his planned retirement from his position as Vice President of Natural Gas Sales for Devon Energy Corporation effective July 5, 2017. His Devon Energy organization is charged with all U.S. Domestic Natural Gas Sales and Transportation activities. Mr. Green has over 30 years of experience in natural gas marketing with Devon and Mitchell Energy Corporation, both major “Shale” players. Mr. Green is a graduate of Niagara University with a Bachelor’s Degree in Business Administration. He served as Chairman of the Natural Gas Supply Association (NGSA) until March 1, 2017, a member of the National Energy Service Association (NESA) and a member of the Texas Pipeline Association (TPA), and recently served a three-year term on the Oklahoma University Energy Institute Advisory Board.
















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zerosnoop

12/14/17 11:37 PM

#43048 RE: mr_sano #43043

INCORRECT. Not only does TRANSCANADA want the PROVEN AOT, so do CENOVOUS. Sales of the PROVEN AOT are FAST APPROACHING. FURTHER EVIDENCE the PROVEN AOT will be going to CENOVUS in CANADA as per the FACTS in the 10k below. The big players in the oil industry want the PROVEN AOT as per the EVIDENCE below. This is about the PRESENT, NOW & the FUTURE, not what happened 15 years ago.

The Company generated $50,000 in revenue from the viscosity reduction license during the six-month period ended June 30, 2017.

In November 2016, the Company executed an agreement with Cenovus FCCL Limited (“Cenovus”), a Canadian company, for the field testing of the Company’s AOT equipment at a fixed cost of $50,000. As the part of the agreement, Cenovus will pay the Company $25,000 in January 2017. The balance of $25,000 will be due upon completion of the test analysis and final report. The field testing was performed in January 2017. Final analysis and test report is scheduled to be completed in April 2017. Upon completion of the field testing and collection of the amount due, the Company will recognize the $50,000 as revenue.


More EVIDENCE below that PROVES CENOVUS wants the PROVEN AOT

https://ir.qsenergy.com/press-releases/detail/2031


QS Energy Completes AOT Testing on Alberta Bitumen, Establishing Benchmarks for Opex Savings and Environmental Benefits in Oil Sands Market

SANTA BARBARA, CA -- (Marketwired) -- 02/10/17 -- QS Energy, Inc. (the "Company") (OTCQB: QSEP), a developer of integrated technology solutions for the energy industry, today announced the successful demonstration of a modified AOT (Applied Oil Technology) system to measurably reduce the viscosity of Canadian synthetic crude oil, offering pipeline operators the potential to improve flow volume, reduce reliance on diluents, meet carbon emission reduction goals, and other measurable operational efficiencies. The field tests were conducted on Alberta oil sands dilbit using a miniaturized AOT system which replicates QS Energy's full-scale vessels designed for use on high volume commercial crude oil pipelines.

"Through collaboration with an upstream customer we've established a strong performance benchmark for AOT on oil sands products, achieving results on par with laboratory testing conducted at Temple University by Dr. Rongjia Tao, a leading researcher in the development of technologies based on the use of electrorheological principles," commented Greggory M. Bigger, QS Energy Chief Executive Officer and Chairman. "In the lab, we have routinely attained viscosity reduction of similar degree on super heavy, heavy, and ultra-light crude oils ranging from 15% to more than 40%. Though we are restricted from disclosing specific details of this in-field test, we can report that they correlated well with laboratory results and full-scale testing performed on closed-loop and commercial pipelines."

Developed in collaboration with crude oil producers and transporters to optimize the performance of the global pipeline infrastructure, AOT was originally field tested on a closed-loop pipeline by the U.S. Department of Energy at the Rocky Mountain Oilfield Testing Center during which viscosity reductions greater than 56% on a medium crude oil product were recorded. A more recent commercial deployment of a four-vessel AOT Midstream system on a high-volume, mid-continent pipeline achieved viscosity reductions better than 20% on heavy crude oils, results that were independently verified by third parties.

"This month's successful benchmark test on diluted crude oil from oil sands sources demonstrates strong potential for reducing operational overhead costs for our customers and helping them meet CO2 and methane reduction goals which is particularly relevant with the availability of tax credits, rebates, and other financial incentives through carbon levy and carbon pricing programs," Mr. Bigger stated. "Because AOT is designed specifically to increase pipeline efficiency and throughput and reduce reliance on diluent and other additives, it can deliver substantial savings by lessening the degree by which these thinning agents displace feedstock and take up valuable pipeline capacity. This factor alone can drive tens of thousands of dollars a day to the bottom line of producers when AOT is in use on a high-volume pipeline transporting 100,000 to 200,000 barrels per day."

Mr. Bigger added that with the introduction of Alberta's Carbon Levy on January 1st of this year, the retrofitting of AOT for use in treating Alberta oil sands could not be more timely.

"By improving flow, countering pipeline pressure drop, and increasing pipeline capacity, AOT can potentially lower pump station power consumption and thereby reduce greenhouse gas (GHG) emissions," he stated. "Based on the support of Alberta's Climate Leadership Plan by the largest producers active in the oil sands, we agree that revenue generated from market-driven carbon pricing programs will encourage the development and use of GHG-reducing technologies and position Alberta as a recognized global leader in the application of clean technologies in the oil and gas industry."

Home to the third largest oil sands deposits in the world, the Province of Alberta and the companies active in the region have made finding solutions to improve the flow of the thick, asphalt-like bitumen a central focus of research and ongoing capitalization. Despite a reduction in new projects following a drop in spot prices in 2014, oil sands output is still projected to reach 3,000,000 barrels per day by 2020. The growing use of new extraction and processing technologies also hold the potential for bitumen production to become profitable at the current oil benchmark prices of $50 USD per barrel, according to a report issued last month by CIBC World Markets, the research arm of the Canadian Imperial Bank of Commerce.

Covering an area of roughly 54,800 square miles in northern Alberta, the Athabasca, Peace River, and Cold Lake oil sands deposits contain an estimated 315 billion barrels of recoverable oil, approximately 80% of which is extracted through drilling and other forms of in-situ production. The bulk of the bitumen and dilbit produced in the region and diluent used as a thinner are primarily transported by the Cold Lake, Corridor and Polaris pipeline systems. With AOT's efficacy now tested on a variety of oil sands samples, its ability to significantly reduce the viscosity of bitumen and its derivatives could help maximize the intended benefits of carbon-pricing within the Alberta energy sector which contributes in excess of $50 billion annually to Canada's gross domestic product of $1.5 trillion

For further information about QS Energy, Inc., visit www.QSEnergy.com, read our SEC filings at http://ir.stockpr.com/qsenergy/all-sec-filings and subscribe to Email Alerts at http://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: http://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 demonstrated 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 motivated to improving their takeaway capacity during an historic surge in upstream output resulting from enhanced oil recovery techniques, the technology now represents what we believe to be 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.(OTCQB: 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

Image Available: http://www.marketwire.com/library/MwGo/2017/2/9/11G129904/Images/MultimediaAsset1-378075462.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 February 10, 2017