In accordance with the present invention, there are provided solar water pasteurizers that are portable, efficient, inexpensive and easy to use. In its simplest form, the solar pasteurizer includes a transparent container such as a bag or envelope that contains at least one energy converting structu
In accordance with the present invention, there are provided solar water pasteurizers that are portable, efficient, inexpensive and easy to use. In its simplest form, the solar pasteurizer includes a transparent container such as a bag or envelope that contains at least one energy converting structure and has sufficient insulation to enable heating water to a temperature of at least 65° C. (and preferably to a temperature of at least 70° C.) for a time sufficient to achieve pasteurization (at 65-70° C., a period of only about 6 minutes is required for pasteurization). Invention solar pasteurizers are particularly useful for pasteurizing water. In additional embodiments, invention solar pasteurizers include additional features, such as, for example, a water pasteurization indicator, and a receptacle for retaining same within the invention container. In accordance with another embodiment of the invention, there are provided methods for pasteurizing water employing solar pasteurizers described herein, as well as kits suitable to convert any transparent water tight container into a solar water pasteurizer.
대표청구항▼
1. A solar water pasteurizer comprising: a flexible water-tight resealable container, wherein said container comprises a top and a bottom,wherein said bottom comprises at least one resealable opening,wherein said resealable opening comprises at least one water-tight spout with a mating resealable ca
1. A solar water pasteurizer comprising: a flexible water-tight resealable container, wherein said container comprises a top and a bottom,wherein said bottom comprises at least one resealable opening,wherein said resealable opening comprises at least one water-tight spout with a mating resealable cap,wherein one or more reuseable temperature indicators for indicating the temperature history of the water contained in said container are positioned within said resealable cap,wherein said one or more reuseable temperature indicator(s) is(are) a glass tube(s) containing wax therein that melts at pasteurization temperatures, andwherein said glass tube(s) is(are) maintained in position within said resealable cap by insertion thereof within an out-of-round receptacle therefor;one or more energy converting structures therein, as an integral part of said container,a first insulation structure on the top of said container, wherein said first insulation structure comprises a matrix containing a plurality of substantially air-tight structures having gas contained therein, andwherein said first insulation structure contains one or more vents in the matrix between said plurality of substantially air-tight structures for releasing moisture that would otherwise collect on the underside of said first insulation structure, anda second insulation structure on the bottom of said container, wherein said second insulation structure is selected from a matrix containing a plurality of substantially airtight structures having gas contained therein, closed cell foam or open cell foam, wherein said insulation structures collectively are sufficient to enable said pasteurizer to achieve water temperatures of at least 65° C., andwherein said insulation structures are an integral part of said container. 2. A water pasteurizer according to claim 1, wherein said container comprises a polymeric material. 3. A water pasteurizer according to claim 1, wherein said energy converting structure is black. 4. A water pasteurizer according to claim 1, wherein said energy converting structure is flexible and expansive. 5. A water pasteurizer according to claim 1, wherein said energy converting structure is pleated, or layered to maximize the surface area thereof. 6. A water pasteurizer according to claim 1, wherein said energy converting structure is a two-sided panel, optionally bonded to one or more interior surfaces of said container, and optionally further comprising flow structure that provides for flow of water from a first side of said panel to a second side of said panel. 7. A water pasteurizer according to claim 6, wherein said panel comprises a perforated polymeric material. 8. A water pasteurizer according to claim 1, wherein said insulating structure(s) comprise at least one inflatable airspace inside of said container, at least one inflatable airspace outside of said container, or at least one inflatable airspace inside, and at least one inflatable airspace outside of said container. 9. A water pasteurizer according to claim 1, wherein said insulating structure(s) are coextensive with said container. 10. A water pasteurizer according to claim 1, wherein said insulating structure(s) on both the front and back of said container are inflatable. 11. A water pasteurizer according to claim 1, wherein said first and/or second insulating structure comprises an energy reflective surface. 12. A water pasteurizer according to claim 1, wherein said container comprises one or more hanging attachments to enable gravitational effects to dispel water. 13. A water pasteurizer according to claim 1 wherein said temperature indicator comprises 2 or more reuseable temperature indicators. 14. A water pasteurizer according to claim 1, further comprising one or more particulate, anti-microbial, or charcoal filters. 15. A water pasteurizer according to claim 14, wherein said filter is associated with said resealable opening, such that water introduced into and/or dispensed from said container passes through said filter. 16. A method for the production of potable water, said method comprising exposing water contained within a water pasteurizer according to claim 1 to a suitable energy source for a time sufficient to pasteurize said water. 17. The method according to claim 16, wherein said suitable energy source is sunlight. 18. A method of assembly of a solar water pasteurizer, said method comprising: stacking first and second sheets of a flexible polymeric material with insulation structure therebetween, wherein said insulation structure is selected from a matrix containing a plurality of air-tight structures having gas contained therein, closed cell foam or open cell foam,bonding said sheets together with at least one water-tight spout inserted therethrough to create a three-ply structure bonded to the water-tight spout(s), wherein said first and second sheets upon bonding to the water-tight spout(s) form the entrance and exit for water to/from said pasteurizer,wherein said first sheet has at least one energy reflective layer thereon,wherein said second sheet is an energy converting structure, andwherein said water-tight spout(s) further comprise a mating cap, wherein said cap comprises an out-of-round receptacle for receiving one or more re-usable temperature indicators for indicating the temperature history of the water contained therein, intimately associated therewith, and thereafterstacking and bonding a third and fourth sheet of flexible polymeric material to said first and second sheets of material along the perimeter thereof, oriented so that the third sheet is adjacent to the second sheet,wherein said third sheet is transparent, andwherein said fourth sheet provides a transparent insulating airspace, wherein said transparent insulating airspace comprises a matrix containing a plurality of substantially air-tight structures having gas contained therein, andwherein said transparent insulating airspace contains one or more vents in the matrix thereof for releasing moisture that would otherwise collect on the side of the fourth sheet adjacent to the third sheet. 19. A method of assembly according to claim 18, wherein said third sheet is perforated. 20. A method of assembly according to claim 18, wherein said fourth sheet comprises a second resealable opening for the inflation of said transparent insulating airspace, wherein said transparent insulating airspace comprises a matrix containing a plurality of substantially air-tight structures capable of containing gas therein within substantially air-tight structures, andwherein said transparent insulating airspace contains one or more vents in the matrix thereof for releasing moisture that would otherwise collect on the side of the fourth sheet adjacent to the third sheet.
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