§ 63.1444 - What emissions limitations, work practice standards, and design standards must I meet for my copper concentrate dryers, smelting vessels, slag cleaning vessels, copper converter departments, anode refining departments, process fugitive emissions from roofline vents, and bypass stacks?  

(1) For each existing copper concentrate dryer, you must not cause to be discharged to the atmosphere from the dryer vent any gases that contain total filterable particulate matter in excess of 50 milligrams per dry standard cubic meter (mg/dscm) as measured using the test methods specified in § 63.1450(a).

(2) For each new copper concentrate dryer, you must not cause to be discharged to the atmosphere from the dryer vent any gases that contain total filterable particulate matter in excess of 23 mg/dscm as measured using the test methods specified in § 63.1450(a).

(1) For each smelting furnacevessel, you must not cause to be discharged to the atmosphere any process off-gas that contains nonsulfuric acid particulate matter in excess of 6.2 mg/dscm as measured using the test methods specified in § 63.1450(b). Process off-gas from a smelting furnace vessel is generated when copper ore concentrates and fluxes are being smelted to form molten copper matte and slag layers.

(2) For each smelting furnacevessel, you must control the process fugitive emissions released when tapping copper matte or slag from the smelting furnace vessel according to paragraphs (b)(2)(i) and (ii) of this section.

(1) For each slag cleaning vessel, except as provided for in paragraph (c)(2) of this section, you must not cause to be discharged to the atmosphere any process off-gas that contains nonsulfuric acid particulate matter in excess of 6.2 mg/dscm as measured using the test methods specified in § 63.1450(b).

(2) As an alternative to complying with the emission limit for nonsulfuric acid particulate matter in paragraph (c)(1) of this section, for each existing slag cleaning vessel you may choose to comply with the emission limit for total filterable particulate matter specified in this paragraph (c)(2). You must not cause to be discharged to the atmosphere any process off-gas that contains total filterable particulate matter in excess of 46 mg/dscm as measured using the test methods specified in § 63.1450(a).

(3) For each slag cleaning vessel, you must control process fugitive emissions released when tapping copper matte or slag from the slag cleaning vessel according to paragraphs (c)(3)(i) and (ii) of this section.

(1) You must operate a capture system that collects the process off gas vented from each batch copper converter. At all times when one or more batch copper converters are blowing, you must operate the capture system according to the written operation and maintenance plan that has been prepared according to the requirements in § 63.1447(b).

(2) If your copper converter department uses PiercePeirce-Smith converters, the capture system design must include use of a primary hood that covers the entire mouth of the converter vessel when the copper converter is positioned for blowing. Additional hoods (e.g., secondary hoods) or other capture devices must be included in the capture system design as needed to achieve the opacity limit in paragraph (d)(4) of this section. The capture system design may use multiple intake and duct segments through which the ventilation rates are controlled independently of each other, and individual duct segments may be connected to separate control devices.

(3) If your copper converter department uses Hoboken converters, the capture system must collect all process off-gas vented during blowing through the side-flue intake on each converter vessel.

(4) You must operate the capture system such that any visible emissions exiting the roof monitors or roof exhaust fans on the building housing the copper converter department meet the opacity limit as specified in paragraphs (d)(4)(i) and (ii) of this section.

(5) You must not cause to be discharged to the atmosphere from any PiercePeirce-Smith converter primary hood capture system or Hoboken converter side-flue intake capture system any process off-gas that contains nonsulfuric acid particulate matter in excess of 6.2 mg/dscm as measured using the test methods specified in § 63.1450(b).

(6) You must not cause to be discharged to the atmosphere from any secondary capture system any gases that contain total filterable particulate matter in excess of 23 mg/dscm as measured using the test methods specified in § 63.1450(a).

(1) You must not cause to be discharged to the atmosphere from any combination of stacks or other vents any captured process off-gas that contains filterable particulate matter greater than a daily (24-hour) average of 0.031 pounds of particulate matter per ton of copper concentrate feed charged to the smelting vessel as measured using the test methods specified in § 63.1450(a).

(2) You must operate a capture system that collects the gases and fumes released from converting vessels and conveys the collected gas stream to a control device.

(1) If the anode refining department process exhaust gases are combined with the Hoboken converter process fugitive capture system, you must demonstrate compliance with the emission limitation and work practice standards in paragraph (g) of this section.

(2) For each new and existing anode refining department, you must not discharge to the atmosphere captured process exhaust gases from the anode refining furnaces containing filterable particulate matter emissions in excess of 5.8 mg/dscm as measured using the test methods specified in § 63.1450(a).

(3) You must operate a capture system that collects the process off-gases and fumes released from the anode refining department and convey the collected gas stream to a control device.

(1) You must not discharge to the atmosphere gases from the combination of the anode refining department and Hoboken converter process fugitive capture system filterable particulate matter emissions in excess of 4.1 mg/dscm as measured using the test methods specified in § 63.1450(a).

(2) You must operate a Hoboken converter process fugitive capture system that collects the process off-gases and fumes released from the copper converter department.

(3) You must operate a capture system that collects the process off-gases and fumes released from the anode refining department and convey the collected gas stream to a control device.

(1) You must select one or more operating parameters, as appropriate for the control device design, that can be used as representative and reliable indicators of the control device operation.

(2) You must maintain the hourly average value for each of the selected parameters at or above the minimum level or at or below the maximum level, as appropriate for the selected parameter, established during the initial or subsequent performance test in accordance with § 63.1450(a)(5).

(1) You must select one or more operating parameters, as appropriate for the control device design, that can be used as representative and reliable indicators of the control device operation.

(2) You must maintain the hourly average value for each of the selected parameters at or above the minimum level or at or below the maximum level, as appropriate for the selected parameter, established during the initial or subsequent performance test in accordance with § 63.1450(d)(3).

(1) Roofline emission limit for the Peirce-Smith converter department, Inco flash furnace, and anode refining department. You must not discharge to the atmosphere process fugitive gases from any combination of existing roofline vents associated with the Peirce-Smith copper converter department, Inco flash furnace, and the anode refining department containing lead emissions in excess of 0.326 lb/hr as measured using the test methods specified in § 63.1450(g).

(2) Design standards for the Peirce-Smith converter department, Inco flash furnace, and anode refining department. You must comply with design standards in paragraphs (p)(2)(i) through (iii) of this section at all times when the primary copper smelter is operating, except as provided herein.

(1) In the case of planned control device or process maintenance, feed to the smelting vessel must cease; power to the electric furnace must be lowered, and a crust allowed to form on the surface of the slag; the operation of the converters must cease and the converters rolled out; and the operation of the anode vessels must cease.

(2) If the fan to the anode refining point source baghouse is functioning, then the residual process gases must be redirected to the control device. If the process gas from a device being maintenanced can be rerouted to a different control device instead of the bypass stack, it must be redirected to the control device. Control devices must be used until emissions are minimized.

(3) If there is a shutdown or emergency shutdown event, the control devices should continue to run until process emissions cease. If the control devices are shut down before the process emissions cease and the bypass stack is used to vent the process gas to the atmosphere, there will be a violation of the emission and work practice standards.