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Method for economically viable and environmentally friendly central processing of home laundry

a technology for home laundry and processing, applied in the field of central processing of home laundry, can solve the problems of generating gray water, devices, and lack of any form of recycling system, and achieve the effects of increasing water recovery and chemical recovery, and reducing the production of gray water

Inactive Publication Date: 2006-06-15
RANEY KIRK HERBERT +5
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Benefits of technology

"The present invention is a system and method for washing laundry using recycled water from previous washes. The system filters the water to create a wash retentate and a wash permeate. The wash permeate can be reused in subsequent washes, providing water and chemical recovery. The system also uses rinse retentate as make-up water in the wash loop, increasing water and chemical recovery. This invention reduces the production of gray water, minimizes the discharge of potentially harmful detergent ingredients, and recovers chemicals used in the laundering process."

Problems solved by technology

The United States is increasingly burdened with higher potable water demands and more costly downstream water treatment processes.
These devices generate gray water and typically lack any form of recycling system.

Method used

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  • Method for economically viable and environmentally friendly central processing of home laundry
  • Method for economically viable and environmentally friendly central processing of home laundry
  • Method for economically viable and environmentally friendly central processing of home laundry

Examples

Experimental program
Comparison scheme
Effect test

example 1

[0075] A new consumer Kenmore™ compact wash vessel was used in the initial experiments. Only the wash water was treated and reused. The rinse cycle used fresh water. The wash water was microfiltered with a 0.1-micron pore size filter in a tubular membrane. The pore size treated was expected to remove particulate and emulsifier oily soil, as well as insoluble builders (zeolites), when present. A tubular membrane was resistant to fouling by particulate matter.

[0076] Standard test strips containing swatches of different soils were used to test cleaning ability. Redeposition swatches that were initially clean were used to test soils redepositing onto fabric. The reflectance of clothes before and after washing yields the measure of soil removal. This is the standard test in the industry.

[0077] A variety of measurements were made on the water at several points in the process to aid in understanding the fate of important chemicals originally present in the detergent. In order to simulate...

example ii

[0095] Active matter titration was used to determine the anionic surfactant concentrations (both sulfonates and sulfates) of the experimental solutions as well as a blank. The surfactants were reacted with an aqueous solution of dye. About 20 ml of dimidium bromide / disulphine blue indicator (“DI”) stock solution, obtained from Gallard-Schlesinger Industries, Inc., was added to about 200 ml of distilled water in a one liter glass-stoppered mixing cylinder. About 3 ml of concentrated sulfuric acid mix was added and then diluted to one liter with distilled water and again mixed thoroughly. Reagent grade chloroform (Fisher Scientific) was added and the two-phase mixture was titrated with a standard aqueous solution of Hyamine 1622 (Benzethonium chloride, 98%, Lancaster synthesis).

[0096] Standard 0.0004 molar Hyamine solution was prepared by dissolving about 1.8 grams of Hyamine 1622 in distilled water and diluting to one liter. Using a 10-ml pipette, about 10 ml of sodium lauryl sulfat...

example iii

[0110] Two 0.1 micron membranes (PEF 4172, area 0.17 m2) from Stork were used in these experiments. These membranes should produce a flux of 1000 L per m2 per hour (=2.8 L / min) for pure water at the operating pressure of about 100 KPa. Initial tap water flux for these membranes was determined to be about 1 L / min at 30 psig feed pressure when they were installed in the filtration system.

[0111] The first membrane was previously used for the treatment of wash water effluents from the wash vessel. Because of this, the first membrane was washed, treated with 100 ppm bleach, and back flushed with tap water. Four filtration experiments with the first membrane and two experiments with the second membrane were performed.

[0112] The second membrane had previously been used to filter the wash sequence with Liquid Tide™ detergent in soft water. The second membrane was not bleach treated or back flushed since it was a new membrane when the liquid Tide HE™ detergent in soft water was filtered. H...

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PUM

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Abstract

An economically viable process and system for centrally processing multiple loads of laundry with minimum environmental impact. A system and method of laundering whereby successive loads of laundry may be washed while continuously providing effective soil removal comprising at least partially recycled wash water from at least one previous wash cycle. The system and the method of using the same comprises filtering wash water with at least one filter to form wash retentate and wash permeate. The use of wash permeate in successive washes provides for reuse of chemicals and water recovery. A similar arrangement may be used with regard to the rinse water. Advantageously, one embodiment of the invention provides for the use of rinse retentate as make up water in the wash loop which increases water recovery and chemical recovery. Ultimately, the invention can reduce the production of gray water and recover chemicals used in the laundering process.

Description

FIELD OF THE INVENTION [0001] The present invention relates to a process for central processing of home laundry that improves efficiency and reduces environmental impact by recycling water and chemicals. BACKGROUND OF THE INVENTION [0002] The United States is increasingly burdened with higher potable water demands and more costly downstream water treatment processes. As a practical matter, the costs for water treatment and supply are ultimately borne by the consumer. Reductions in these costs, where economically feasible, draw strong political and commercial support. [0003] Military, industrial, and residential sources generate voluminous quantities of “gray water” from dishwashers, wash vessels, sinks, showers, and bathtubs. These devices generate gray water and typically lack any form of recycling system. A large number of states have adopted codes for reuse of gray water. Therefore, the impetus for developing robust and economical separation strategies is a reality. The Departmen...

Claims

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Application Information

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Patent Type & Authority Applications(United States)
IPC IPC(8): D06F35/00D06F39/00A47L15/42
CPCA47L15/42A47L15/4236C02F2103/002D06F39/00
Inventor RANEY, KIRK HERBERTTUCKER, EDWIN E.SCAMEHORN, JOHN FREDERICKCHRISTIAN, SHERRIL DUANECHRISTIAN, DOLORESCAPPS, STEPHEN FRANKLIN
Owner RANEY KIRK HERBERT
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