Costa Mesa, California, (July 19, 2017) Clean Energy Technologies, Inc. (OTC: CETY) is proud to be a member of the Pacific Power Association and exhibiting at this year’s 26th Annual PPA Conference which will be hosted by Electric Power Corporation in Apia, Samoa.

The PPA is an inter-governmental agency and member of the Council of Regional Organizations in the Pacific (CROP). The PPA conference is the largest energy conference in the region, focusing on all aspects of electricity in the Pacific Islands. The PPA’s objective is to improve the quality of power in the region through a cooperative effort among the utilities, private sector and regional aid donors. This year’s conference will be held at the Sheraton Aggie Greys Hotel in Apia, Samoa, from 31 July – 4 August 2017.

The Pacific countries lack or have limited indigenous energy resources while the high cost of imported fossil fuels means that Pacific Islands require an increased focus on energy efficiency and alternative sources of energy. CETY’s Clean Cycle TM waste heat recovery solutions are aligned with the Island Nations overall strategy to reduce dependency on fossil fuels, CO2 emissions, while cutting the overall cost of producing electricity.

CETY will have a unique opportunity to offer the delegates and the Utility Board members from across the pacific series of technical presentations and Trade Exhibition of its products and services.

“CETY is looking forward to participating at the PPA Conference and is honored to be among the recognized class of Trade Exhibitors. The PPA provides direct links between us and member utilities. We will be able to demonstrate to the Pacific Island utility companies how CETY will structure its projects with the Island Nations so that customers will increase their profitability, by paying us only a portion  of the fuel savings the Clean Cycle units create,” said Kam Mahdi, CEO of CETY.

About Clean Energy Technologies, Inc. (CETY)

Clean Energy Technologies, Inc. designs, builds, and markets clean energy products focused on energy efficiency and environmentally sustainable technologies.  The Company’s principal product is the Clean CycleTM generator, offered by CETY’s Clean Energy HRS, or Heat Recovery Solutions, subsidiary, www.heatrecoverysolutions.com.  The Clean Cycle™ captures waste heat from a variety of sources and turns it into electricity that can be used or sold back to the grid.  CETY’s proven, reliable technology allows municipal, commercial, and industrial users with heat sources, such as from industrial processes or energy production, to boost their overall energy efficiency with no additional fuel, no pollutants, and little ongoing maintenance.  CETY’s engineering and manufacturing resources support the Heat Recovery Solutions business, as well as CETY’s other technologies.  Headquartered in Costa Mesa, California, CETY’s common stock is currently traded on the OTC Market under the symbol CETY.  For more information, visit www.cetyinc.com or www.heatrecoverysolutions.com.

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This release contains certain forward-looking statements within the meaning of Section 27A of the Securities Act of 1933, as amended, and Section 21E of the Securities Exchange Act of 1934, as amended.  Because such statements include risks, uncertainties and contingencies, actual results may differ materially from those expressed or implied by such forward-looking statements.  These risks, uncertainties, and contingencies include, but are not limited to those relating to: changes in general economic and market conditions; future technology performance; market acceptance and adoption of CETY’s products and competitive products; the acquisition and integration of business assets and operations, technologies, or companies; and other risk factors as outlined in CETY’s periodic reports, as filed with the U.S. Securities and Exchange Commission.  Forward-looking statements in this document speak only as of the date on which such statements were made, and we undertake no obligation to update any such statements that may become untrue because of subsequent events. 

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