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1. MINORU KURATA SMART TRASH CAN UPGRADE
2. MINORU KURATA SMART TRASH CAN FULL
3. MINORU KURATA SMART TRASH CAN PC

Screening tests have been completed, which identified the most promising adsorbents for each waste stream. Eight adsorbents have been identified for testing, covering a wide range of cost and capability. Four aqueous wastes were chosen for lab-scale testing a high-salt, acidic waste currently stored at Idaho National Engineering Laboratory (INEL) a high-salt, alkaline waste stored at the Savannah River Site (SRS) a dilute lithium hydroxide solution stored at the Oak Ridge Y-12 Plant and a low-salt, neutral groundwater generated at the Y-12 Plant. This project is providing an assessment of new sorbents for removing mercury from wastes at US Department of Energy sites. Potential application of the reduction process inside The Netherlands lies in the IC and galvanic industry, where small waste streams containing aqueous The main goal of the project was the development of a plug flow reactor for the reduction of heavy metals (Cu2+) from industrial waste streams. Sorption studies were used to determineĭesign of a static mixer reactor for copper recovery from waste streams For this purpose, a new solvent was developed, synthesized and impregnated in Amberlite XAD4. Solvent impregnated resins (SIRs) were evaluated for the recovery of pyridine derivatives from an aqueous waste-stream containing also acetic acid and succinonitrile. Selective recovery of a pyridine derivative from an aqueous waste stream containing acetic acid and succinonitrile with solvent impregnated resinsīokhove, J. The Aqueous PUREX waste stream from Tanks 33 and 35, which have been blended in Tank 34, has been identified for possible processing through the Saltstone Processing Facility for disposal in the Saltstone Disposal Facility International Nuclear Information System (INIS) The objective of this work has been to develop such a method to recover uranium and plutonium from such off-standard waste streams in a form whereby the uranium send plutonium can be returned to the process line and subsequently purified and separated.Įvaluation of Proposed New LLW Disposal Activity: Disposal of Aqueous PUREX Waste Stream in the Saltstone Disposal Facility If the loss is excessively high, and such lost material can be recovered by some additional method, then if economical and within reason, the recovered materials ran be returned to a ISF column for further processing. These losses will naturally accumulate in the waste streams, particularly in the aqueous waste streams. In the operation of countercurrent extraction columns as in the Redox process, it is possible, and probable, that from unexpected behaviour of a column, operator error, colloid formation, etc., there will result from time to time excessive losses of uranium and plutonium in the overall process.

MINORU KURATA SMART TRASH CAN UPGRADE

I want to either improve the sensor, or upgrade the control by reducing the error through a program.Recovery of uranium and plutonium from Redox off-standard aqueous waste streamsĮnergy Technology Data Exchange (ETDEWEB)

MINORU KURATA SMART TRASH CAN FULL

Even making full use of the current sensor, it still has errors.

“The probability that the trash will go in is not very high, only 10-20%. Right now, I’m working to patent the technology for the Smart Trash Can.” “I’ve received inquiries about turning this into a commercial product. If the center of gravity is high, the can will fall over, so I made the can low, narrow, and compact, to keep the center of gravity as low as possible.”

That mechanism, the circuitry, and the motor controller all fit within the diameter of the can. So even if the wheels rotate, the position of the can itself doesn’t change. To achieve that, I created a special mechanism, with a single axis for both the wheel rotation and the change in angle.

MINORU KURATA SMART TRASH CAN PC

The PC calculates where the trash will fall, and communicates it to the can via wireless connection.” “When you toss trash at it, a sensor detects the position of the trash, and sends the information to a PC. This Smart Trash Can, developed by Minoru Kurata, an engineer at a Japanese auto maker, won an Excellence Award at the Japan Media Arts Festival.