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Home My WebLink AboutNCS000583_2019 Staff Report_20200401NC Division of Energy, Mineral and Land Resources Review for Permit — NCS00583 Metallix Refining Facility Activities and Processes: • New Permit — Submitted in 2015 • SIC Code — 3341: Secondary Smelting and Refining of Nonferrous Metals • The facility performs precious metal recovery from scrap. • Metallix is a specialty company that recovers and precious metals from various types of industrial and commercial waste products. Some of the precious metal is refined to high purity for sale, and some is sold at lower purity to others for refining and further processing. The precious metals recovered include: gold, silver, palladium, platinum, and rhodium. The sources of the raw materials used in Metallix's processes are diverse industries manufacturing and/or recycling materials used by consumers on a daily basis. Examples of the types of products involved, but my no means a comprehensive list of them, include automotive, fine china, photography, medical imaging, consumer electronics, and jewelry. • The raw materials received include dry solids, sludges containing both solid and liquid fractions and liquids. These materials are purchased based on the precious metal content of the material and the seller is paid based on the amount of precious metal that can be recovered. The different raw materials are processed through the plant based on their physical and chemical characteristics. There are many variations possible in the process used, but the following characterization is typical: o Solid Materials: Sludges, film, wiping rags from the manufacture of fine china, and other solid materials that contain precious metals, are processed in high temperature furnaces in the absence of oxygen. The ash from these furnaces is sent to milling where it is reduced to a fine powder that may be blended, assayed and sold. Selected lots may be sent to the Liquids Department where it is dissolved, and the precious metals plated out. Selected metals may also be melted and formed into ingots, which are sold. The fine dust from this process, a potential air pollutant, is captured in a high (>99%) efficiency bag filter and is returned to the process. A liquid scrubber cleans the exhaust gasses in accordance with the plant's air quality permit. o Liquid Materials: spent plating baths from gold of silver-plating operations are processed to recover the traces of precious metals remaining. They may be plated out or may be separated chemically by selective precipitation and filtration. The sludges and filters are processed through the furnaces. Spent liquids are treated to remove any other metals, such as copper or arsenic that may be present. The resulting sludge is disposed of a s a hazardous waste. If the residual liquid contains cyanide, it is shipped off site for treatment and disposal. Residual liquids that are not hazardous wastes and that meet the criteria established by Greenville Utilities are discharged to the public sewers after testing and approval. o Raw Material and Intermediate Product Handling: The raw materials received are handled properly to insure that they are processed in the most efficient manner to allow the recovery of the precious metals they contain. Raw materials are received by truck and are unloaded at a covered loading dock and are stored inside the building where they are staged for processing. No raw materials are stored outside or in an uncovered area where they may be contacted by rainfall. Intermediate products are also handled totally inside the building with two possible exceptions. The first exception is the dust from baghouses. The captured dust contains precious metals and it is returned to the process so that these metals can be recovered. However, the handling of the dust creates the possibility that the dust may be contacted by rainfall. The baghouse dust is discharged into a closed container underneath the baghouse. Each container is picked up and moved into the building as it becomes full. It is possible that during the switching of the containers, a small amount of dust may escape and be discharged to the ground. If this occurs, then it could be contacted by rainfall and be washed into the stormwater discharge. The blowdown from the liquid scrubbers that control the emissions from the furnaces is also captured and is currently returned to the process where it is evaporated. Normal practice is to store the captured liquid inside the building, but is has been stored outside for short periods of time. This raises the potential that any residue on the storage container could be washed off by rainfall and be discharged with the storm water. Future flows of the scrubber blowdown will increase as the new furnace achieves full operation, so Metallix is investigating the feasibility of discharging the scrubber blowdown to Greenville Utilities. o Empty Containers: Empty containers that held raw materials are normally stored inside the building. On rare occasions, some have been stored outside. These containers are normally clean, but if any residue of the raw material were present, it could be contacted by rainfall and introduce a pollutant to stormwater runoff. o Site Description: The site drains to ditches on the west and east sides of the site, which then drain to a ditch along the north side of the site. This drainage ditch system is part of an area -wide ditch system that is a UT to Parker Creek. The grassy area of the site is not impacted by any industrial activity. A broad drainage swale is located through the grassy area that collects rainfall runoff and conveys it to the north property line. Since this drains an area not impacted by industrial activity, and since it is a grassed drainage feature, it is not listed as a stormwater outfall point. All of the stormwater impacted by industrial activity discharges to the drainage ditch along the east side of the property. The paved areas and roof surface areas are drained to drop inlets, which in turn discharge to the drainage ditch. The point where this ditch leaves the property at the northeast corner is considered the stormwater outfall point. o There are no vehicle maintenance operations conducted on site that could result in the discharge of pollutants to the stormwater drainage system. Monitoring Information: • The site has one industrial outfall that drains to Parker Creek. • Scrap metal is used at the facility: TSS, COD, Copper, Zinc, and pH have been added to the permit. • The facility discharges to nutrient sensitive waters. Phosphorus and nitrogen have been added to the permit. • The facility recovers gold, silver, palladium, platinum, and rhodium. Silver has been added to the permit. Impairment: • Parker Creek is an impaired water, experiencing problems with benthos, fish community, and fish tissue mercury. • The 2004 basin wide plan for the Tar -Pam basin shows impacted water quality in Parker Creek; however, data from 2007 shows significant improvement for most all indicators surveyed.