Nevada
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0-29185
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52-2088326
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(State or other jurisdiction
of incorporation)
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(Commission File Number)
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(IRS Employer
Identification No.)
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735 State Street, Suite 500
Santa Barbara, CA
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93101
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(Address of principal executive offices)
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(Zip Code)
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NO CHANGE
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(Former name or former address, if changed since last report)
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o
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Written communications pursuant to Rule 425 under the Securities Act (17 CFR 230.425)
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o
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Soliciting material pursuant to Rule 14a-12 under the Exchange Act (17 CFR 240.14a-12)
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o
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Pre-commencement communications pursuant to Rule 14d-2(b) under the Exchange Act (17 CFR 240.14d-2(b))
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o
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Pre-commencement communications pursuant to Rule 13e-4(c) under the Exchange Act (17 CFR 240.13e-4(c))
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99.1
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Press Release dated October 26, 2011.
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10.1
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Final Report of the Rocky Mountain Oilfield Testing Center (RMOTC).
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Date: October 25, 2011
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SAVE THE WORLD AIR, INC.
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By:
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/s/ Cecil Bond Kyte
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Cecil Bond Kyte
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Chief Executive Officer
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Table of Contents
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INTRODUCTION:
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1
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TEST RESULTS:
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2
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OBSERVATIONS:
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2
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CONCLUSION:
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5
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APPENDIX A
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7
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List of Figures
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Figure 1. State Map of NPR-3
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1
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Figure 2. Viscosity Reduction Unit and Test Site Tank Battery
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2
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Figure 3. RMOTC, STWA and Temple University Personnel Gathering Data
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3
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Figure 4, NPR-3 Flowloop Map
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4
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Figure 5. RMOTC and Temple University Personnel briefing
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5
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Figure 6. STWA's Viscosity Reduction Unit, Post-Testing
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6
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Figure 7. RMOTC, STWA, and Temple University Personnel
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6
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·
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The Rocky Mountain Oilfield Testing Center (RMOTC) conducted a field test on the STWA in-line viscosity reduction device at the Naval Petroleum Reserve No. 3 (NPR-3) located 35 miles north of Casper in Natrona County, Wyoming.
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·
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The in-line viscosity reduction device is designed to reduce the line-loss of crude oil traveling through a commercial pipeline and thereby reduce the energy required to transport crude oil through pipelines.
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Gains in pump operation efficiency were observed on the 4.4 mile, 6 inch, schedule 80 buried pipeline test loop.
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·
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STWA, Inc. (STWA) of Santa Barbara, California, together with Temple University of Philadelphia’s physics department, designed and created the AOT device to reduce the energy required to transport crude oil through commercial pipelines.
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·
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The device exposes passing crude oil to a precisely controlled electric field to reduce the oil viscosity. This is intended to reduce line-loss (fluid drag) and pressure, without changing the oil temperature or composition. In a commercial pipeline operation, the intended results would translate into reduced pump power required to maintain constant flow rates, and would thereby deliver energy savings for crude oil transportation.
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·
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Power consumption was observed to decrease by 13.55% when the device was operating at one third its power capacity. After running for 70 minutes, the device was deactivated, and pump motor power consumption returned to baseline pre-treatment numbers within 56 minutes.
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·
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Power consumption was observed to decrease by 13.14% when the device was operating at one fourth its power capacity. After running for 75 minutes, the device was deactivated, and pump motor power consumption returned to baseline pre-treatment numbers within 15 minutes.
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·
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Preliminary test results indicate that the viscosity reduction device operated successfully.
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·
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Pipeline line-loss and pump motor power consumption were reduced for a given flow rate during the observed test.
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·
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The device may hold potential for energy savings and increased pipeline flow rates for the oil production and transportation industry.
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This research was co-funded by STWA, Inc. and the Pipeline Research Council International (PRCI). Work was directed by Clarke Turner, Brian Haight, Wes Lintz, Wes Riesland, and Jeanette Buelt (of RMOTC).
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