CLEARSIGN COMBUSTION CORPORATION (NASDAQ:CLIR) Files An 8-K Regulation FD DisclosureItem 7.01
On May 11, 2018 the Company issued a press release announcing the results for the quarter ended March 31, 2018. The press release is included as Exhibit 99.1 to this Current Report and is incorporated by reference in its entirety into this Item 7.01.
The press release is furnished under this Item 7.01 and shall not be deemed filed with the U.S. Securities and Exchange commission for purposes of Section 18 of the Securities Exchange Act of 1934, as amended. The information contained in the press release shall not be incorporated by reference into any filing the Company makes regardless of general incorporation language in the filing, unless expressly incorporated by reference in such filing.
| Item 9.01 | Financial Statements and Exhibits |
| Exhibit 99.1 | Press Release issued May 11, 2018. |
CLEARSIGN COMBUSTION CORP ExhibitEX-99.1 2 tv493867_ex99-1.htm EXHIBIT 99.1 Exhibit 99.1 ClearSign Combustion Corporation Announces First Quarter 2018 Results Hosting Call on May 23rd at 4:30pm ET SEATTLE,…To view the full exhibit click here
About CLEARSIGN COMBUSTION CORPORATION (NASDAQ:CLIR)
ClearSign Combustion Corporation is engaged in designing and developing technologies for managing various performance characteristics of combustion systems, such as emission and operational performance, and energy efficiency. The Company’s Duplex and Electrodynamic Combustion Control (ECC) platform technologies are used to manage the performance of combustion systems in a range of markets, including the refinery, petrochemical, chemical, power and commercial boiler industries. The Duplex burner technology typically consists of a traditional industrial burner and a porous ceramic tile. The ECC technology includes various components, such as a computer, standard software delivering algorithms to a power amplifier (resident outside the combustion chamber) and electrodes inside the combustion chamber. The ECC technology introduces a computer-controlled high voltage electric field into a combustion volume in order to control gas-phase chemical reactions.