Replies to post #37588 on QS Energy Inc (QSEP)

[zerosnoop]

INCORRECT 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]

ABSOLUTELY FALSE. Below is the 8k confirming KINDER MORGAN wants the PROVEN AOT.

http://www.otcmarkets.com/edgar/GetFilingHtml?FilingID=10103717


The FACT is Don Dickson a director of QS Energy & employee of Kinder Morgan RECENTLY participated in the convertible note with his own $70,000 funds.

The DRA & DILUENT companies & their AGENTS, LAWYERS & PARASITES are most fearful about the PROVEN AOT & what will happen to their industry & revenue. The DRA & DILUENT companies have FAILED to stop the progress of the PROVEN AOT.

FORM 4 FILED BY QS ENERGY in regards to insider buying by QS Energy Director Don Dickson & employee of Kinder Morgan.

http://www.otcmarkets.com/edgar/GetFilingHtml?FilingID=11531609

Don Dickson 08/05/2016
**Signature of Reporting Person Date

Explanation of Responses:
* If the form is filed by more than one reporting person, see Instruction 4(b)(v).
** Intentional misstatements or omissions of facts constitute Federal Criminal Violations. See 18 U.S.C. 1001 and 15 U.S.C. 78ff(a).
(1) Reporting Person acquired Issuer's Convertible Note in the principal amount of $77,000, for a purchase price of $70,000, convertible into 770,000 shares of common stock of Issuer.
(2) Not applicable.
(3) Reporting Person acquired Issuer's Warrants as part of Reporting Person's purchase of Issuer's Convertible Note reported above.

[zerosnoop]

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

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. We plan to initiate this onsite testing program in the fourth quarter 2016, with first tests performed in December 2016 or early 2017.

In 2014, the Company entered into a lease agreement with Kinder Morgan Crude & Condensate, LLC for the manufacture and delivery of our AOT Prototype Equipment. The AOT Prototype Equipment is currently undergoing testing at a Kinder Morgan facility.

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 indicate the AOT equipment is operating 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 has provided the Company with a number of additional crude oil samples to be tested in the laboratory for future test correlation and operational planning purposes. Subject to final review, Kinder Morgan and QS Energy will determine next steps which may include integration of Kinder Morgan’s SCADA system with the AOT control system, 30 days of continued operation during batched pipeline flow, and final installation and acceptance of the equipment under the lease.

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.

Subsequent analysis and testing led to changes in electrical insulation, inlet flow improvements and other component modifications. These design changes were implemented and tested by Industrial Screen and Maintenance (ISM), one of QS Energy's supply chain partners in Casper, Wyoming. Test performed by ISM at its Wyoming facility indicated significant improvements to system impedance and efficiency of electric field generation.

The Company is actively seeking new deployments of its AOT technology. In August, 2015, QS Energy was invited to an offshore oil transfer platform in the Gulf of Mexico. This offshore platform was assessed by QS Energy personnel for a potential deployment of the AOT viscosity reduction technology as a solution for super-heavy crude oil flow assurance issues. Following the site visit, subject to non-disclosure agreements executed by all parties, laboratory testing was performed on crude oil samples provided by the operator, which demonstrated significant AOT viscosity reductions. Detailed hydraulic analysis based on laboratory results and pipeline operating parameters was presented to the operator demonstrating potential benefits of AOT technology within the operator’s specified infrastructure. Based on this analysis, the Company was directed by the operator to prepare a preliminary configuration for AOT units optimized for the operator’s high-volume, space-constrained operations. Company engineers and supply chain partners have prepared an optimized configuration and production budget. Based on this optimized configuration, the operator is considering an onsite pilot test with full scale AOT equipment for deployment in late 2017.

In June 2015, the Company formed a strategic alliance with Norrønt, AS (“Norrønt”), located in Oslo, Norway. Through its affiliation with Norrønt, the Company is currently in the process of negotiating a collaboration agreement with three Norwegian based oil companies as well as a potential research grant with the Norwegian Research Council. Under a strategic alliance formed in 2013, Energy Tech Premier Group is actively marketing AOT technology in Africa and the Middle East. During the first and second quarters of 2015, oil samples from a Middle Eastern oil company were provided to Temple University for testing. These tests demonstrated AOT viscosity reductions of 20% to 35% in a laboratory setting. Discussions with this Middle East oil company are ongoing. Effective May 2016, the Company executed a non-disclosure agreement with a second large Middle East oil company in consideration and evaluation of potential transactions and joint development activities. Effective July 26, 2016, the Company executed a non-disclosure agreement with a significant crude oil pipeline manufacturing and installation company located in Beijing, China, for the purpose of developing a potential sales and distribution relationship targeting the China market.

In October 2014, QS Energy entered into a Joint Development Agreement with Newfield Exploration Company (“Newfield”) to test a prototype of QS Energy Joule Heat equipment, and combined Joule Heat and AOT technology, on a crude oil pipeline serving the Greater Monument Butte oilfield located in the Uintah Basin of Utah. This test of the Joule Heat technology provides ideal conditions to demonstrate efficiency and efficacy. The Uintah Basin is 5,000 to 10,000 feet above sea level with average low winter temperatures of 16ºF. Crude oil pumped from the region is highly paraffinic with the consistency of shoe polish at room temperature. Uintah's black wax crude must remain at a minimum of 95ºF and yellow wax above 115ºF and therefore requires a substantial amount of heat to keep it above its high pour point. Operators in the upstream market often run at temperatures of 140ºF to 160ºF. Newfield, like many other companies in the region, incurs significant operating expense in the form of fuel and power used to heat the waxy crude and counter the cold climate conditions characteristic of Utah. The Company’s first Joule Heat prototype was installed for testing purposes at the Newfield facility in June 2015 and the system is operational; however, changes to the prototype configuration will be required to determine commercial effectiveness of this unit. During the third and fourth quarters of 2015, we worked with Newfield and Dr. Carl Meinhart to modify the prototype configuration based on observed pipeline and Joule Heat operating factors. In addition, QS Energy provided a scaled-down version of the Joule Heat unit for static and flow-through testing at SRI. Testing performed by SRI in September 2015 on a laboratory-scale Joule Heat unit demonstrated the ability of the Joule Heat technology to deliver temperature increases in the laboratory setting.

In 2015, the Company worked in collaboration with Newfield, SRI, Dr. Carl Meinhart, and our manufacturing partner to design and build an AOT prototype unit, for operations in the upstream crude oil pipeline market (“AOT Upstream”), specifically configured for pipeline operating factors observed at Newfield’s Utah site. Our original plan was to retrofit an earlier prototype device previously tested at RMOTC; however, after multiple site visits and discussions with Newfield, it was determined a new, smaller unit, specifically optimized for Newfield operations would be more appropriate for this field test opportunity. We plan to jointly test the AOT Upstream prototype unit under typical upstream commercial pipeline conditions on Newfield’s pipeline in conjunction with the previously installed Joule Heat unit.

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. The AOT product has transitioned from the research and development stage to initial production for continued testing in advance of our goal of seeking acceptance and adoption by the midstream pipeline marketplace.

QS Energy 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. 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.