Texas nears air permit decision for Neches Station project of Apex Texas

power plant coal pollution elp

Apex Texas Power is nearing a final decision from the Texas Commission on Environmental Quality for issuance of Proposed Air Quality Permit Number 122401 and Prevention of Significant Deterioration Air Quality Permit Number PSDTX1428, which would authorize construction of the Neches Station in Cherokee County, Texas.

The commission said in a Nov. 6 notice, posted to its website on Nov. 10, that its executive director has completed the technical review of the application and prepared a draft permit which, if approved, would establish the conditions under which the facility must operate.

This permit would authorize the following:

Scenario 1 - four natural gas fired combustion turbines to operate in simple cycle from the following options: four Siemens Model F5 turbines, each rated at nominal capability of 232 MW; or four General Electric GE 7FA turbines, each rated at nominal capability of 220 MW.

Scenario 2 - two natural gas fired CTGs to operate in either simple or combined cycle under the following options:

•two Siemens Model F5 turbines, each rated at nominal capability of 232 MW. Each CTG will have a duct fired heat recovery steam generator with a maximum heat input of 532 million British thermal units per hour (MMBtu/hr); or

•two General Electric Model GE 7FA turbines, each rated at nominal capability of 220 MW. Each CTG will have a duct fired heat recovery steam generator with a maximum heat input of 459 million British thermal units per hour (MMBtu/hr).

Apex Texas Power plans to construct and operate the Neches Station near Cuney in Cherokee County. The ancillary equipment includes an auxiliary boiler, a firewater pump, cooling tower, and various support facilities. The CTGs will be fueled with pipeline quality natural gas.

The CTGs will use an aqueous ammonia-based selective catalytic reduction system to control nitrogen oxides emissions. The system will be comprised of aqueous ammonia storage and handling equipment, an NH3 vaporizer, an NH3 injection grid, and catalyst bed modules. The NH3 injection grids and the SCR catalyst beds will be installed in the HRSG housings at locations where exhaust temperatures will promote the NOx reduction reactions.

The aqueous NH3 will be delivered by tanker truck, which will use vapor balance to capture emissions during filling of the storage tanks. In addition, the aqueous NH3 will be stored in pressurized tanks equipped with pressure relief valves to prevent emissions. However, piping and fittings associated with the tanks and the transfer of NH3 throughout the system will be sources of fugitive emissions.

The natural gas-fired auxiliary boiler will have a maximum heat input of 108.4 MMBtu/hr. The boiler will provide system steam requirements.

A condenser/cooling tower arrangement will be used to cool steam exhausted from each turbine train. The condenser will be a surface contact heat exchanger and the cooling tower will be a multi-cell motor driven, mechanical draft, counter-flow tower with film fill. The tower will have a 160,000 gallon per minute circulation rate and a drift eliminator design of 0.0005 percent.

The site will be equipped with one firewater pump. The engine running this equipment will fire ultra-low sulfur diesel fuel, containing no more than 15 parts per million (ppm) sulfur by weight. The firewater pump is limited to 100 hours of non-emergency operation per calendar year.

Said the website of Apex Power Group about this project, which has a 2017 commercial operations target year: "Apex Texas Power is developing Neches Station to support system reliability needed for the growth of wind and other renewable generation resources. The plant will be sized from 450 MW to 900 MW of quick start, efficient, gas fired combustion turbines that are capable of reaching full output in 13 minutes!"

The Apex website also says: "Apex Power Group, was formed in 2007 after the Principals had worked together on development of Panoche Energy Center. The team formed an instant connection and found that our strengths and abilities were comprehensive and complimentary for the ongoing development of power projects. Gary Chandler, David Jenkins and Michael King leveraged their power and electric utility experience to form Apex Power Group. We now have a combined power experience exceeding 100 years."

Did You Like this Article? Get All the Energy Industry News Delivered to Your Inbox

Subscribe to an email newsletter today at no cost and receive the latest news and information.

 Subscribe Now


The Time is Right for Optimum Reliability: Capital-Intensive Industries and Asset Performance Management

Imagine a plant that is no longer at risk of a random shutdown. Imagine not worrying about losing...

Going Digital: The New Normal in Oil & Gas

In this whitepaper you will learn how Keystone Engineering, ONGC, and Saipem are using software t...

Maximizing Operational Excellence

In a recent survey conducted by PennEnergy Research, 70% of surveyed energy industry professional...

Leveraging the Power of Information in the Energy Industry

Information Governance is about more than compliance. It’s about using your information to drive ...

Latest PennEnergy Jobs

PennEnergy Oil & Gas Jobs