Recovering oil and precious metals from wastewater creates new revenue streams

June 23, 2014
According to Lux Research, recovery of resources from wastewater streams is becoming increasingly feasible -- especially oil, precious metals and industrial fats, oils and greases -- with rising commodity prices.

BOSTON, MA, June 23, 2014 -- According to Lux Research, recovery of resources from wastewater streams is becoming increasingly feasible -- especially oil, precious metals and industrial fats, oils and greases (FOG) -- with rising commodity prices.

Over the past decade, crude oil prices have risen nearly three-fold while the value of precious metals has soared over 250 percent, making recovery of these commodities attractive. Growing demand for biodiesel amid a restricted supply of feedstocks drives recovery of industrial FOG. However, current economics don't favor lithium and phosphate recovery.

"Many current wastewater streams contain resources worth billions of dollars of lost product and lost opportunity," said Tess Murray, research associate and author of the report titled, "Recovering Valuable Resources from Wastewater." Further, "As the value of resources rises, recovery technologies are beginning to make sense for even parts-per-million traces of materials such as precious metals and oil," she added.

Lux Research analysts evaluated the emerging landscape of recovery technologies and found that:

  • Spiraling oil price drives recovery. Oil prices over $100/bbl help make recovery of oil from wastewater streams viable. Drillers using new techniques, like hydraulic fracturing (fracking), have not caught up to established best practices for oil recovery, and commonly lose 6 to 10 percent of their extraction via wastewater. An investment of up to $7 million in recovery for these drillers pays for itself in the very first year of operation.
  • Soaring use of biodiesel makes FOG recovery attractive. Skyrocketing biodiesel production -- from 14 million gallons in 2003 to 17.1 billion gallons globally in 2013 -- is the chief driver of FOG recovery. Promising technologies include new methods to recycle FOG-water mixtures and processes to convert recovered FOG into animal food, soaps, or other inedible products.
  • Regulation can aid unviable segments. Regulation can enhance recovery technologies by providing support to segments that are currently economically unviable. The "zero discharge" policies of Norway, for example, brought about recovery of virtually all oil from water used in drilling. Argentina and Chile are pursuing similar methods in mining, aiding recovery of less expensive metals.

See also:

"The top global water research institutes"

"Frack water market to reach $9B in 2020, spur water treatment innovations"


About Lux Research

Lux Research provides strategic advice and ongoing intelligence for emerging technologies. Leaders in business, finance and government rely on us to help them make informed strategic decisions. Through our unique research approach focused on primary research and our extensive global network, we deliver insight, connections and competitive advantage to our clients. For more information, visit www.luxresearchinc.com.

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