COCONUT HARD SHELL GRANULES SOFTENING METHOD

Information

  • Patent Application
  • 20220145534
  • Publication Number
    20220145534
  • Date Filed
    January 24, 2022
    2 years ago
  • Date Published
    May 12, 2022
    2 years ago
Abstract
A method of softening coconut shell material, includes submerging the coconut shell material in water to produce clean crumb material, boiling the clean crumb material in a salt solution to produce boiled crumb material, steaming the boiled crumb material to produce steamed crumb material, first soaking the steamed crumb material in a solution of water and an alkali material to produce soaked crumb material, second soaking the soaked crumb material in a salt solution to produce second soaked crumb material, rinsing the second soaked crumb material with a stable alkaline solution to product softened wet crumb material, and storing the softened wet crumb material.
Description
BACKGROUND

Synthetic sports fields typically have synthetic turf fibers on top of an infill material. The infill material allows the field to have a slight grade to it from the center of the field to the sides to allow for better drainage, and helps protect the players by providing shock absorption, traction, and foot stability. Currently, most infill material consists of rubber crumbs, which mostly come from recycled tires.


There are several disadvantages to the rubber crumb. It is not very environmentally friendly, being made out of recycled tires. While being able to use the tires for the crumb is better than the tires filling up landfills, the crumbs themselves are not biodegradable either. In addition, there has been some data indicating that they are carcinogenic.





BRIEF DESCRIPTION OF THE DRAWINGS


FIG. 1 shows the parts of a coconut and the hard shell used for crumb infill.



FIG. 2 shows a diagram of an embodiment of synthetic turf with coconut crumb infill material.



FIG. 3 shows an embodiment of a method of producing coconut crumb infill.



FIGS. 4-6 show examples of a hammer mill.



FIG. 7-8 show examples of a shredding machine.



FIG. 9 shows a view of the coconut crumb infill.





DETAILED DESCRIPTION OF THE EMBODIMENTS

The use of infill in synthetic turf fields is governed by the Synthetic Turf Council (www.SyntheticTurfCouncil.org), which has produced several documents including “Guidelines for Synthetic Turf Performance,” published in December, 2011, and “Guidelines for Crumb Rubber Infill Used in Synthetic Turf Fields,” which were approved in October of 2010. Any material replacing the crumb rubber infill will need to meet the same or similar requirements. One issue that arises is that even if the material is intended as infill, it ends up on top of the turf and will come into contact with the people on the field. It is also somewhat intrusive ending up in shoes, equipment bags, inside players' clothes, etc. High levels of contact between the crumb and the users will occur.


While the use of recycled tires as the infill material has some advantages, concerns have been raised about the health effects of tire crumb. Tire crumb is not just used as infill for sporting fields, but is also used as cushioning material in playgrounds. The EPA began a study in 2016 about the health concerns of tire crumbs (www.epa.gov/tirecrumb).


Coconut hard shell material can meet the above standards without the health concerns, being an all-natural substance. Coconut shell has high lignin and cellulose content, and the casing contains materials that resistant to bacteria and fungi. Other uses of coconut shell exists, including in the manufacture of mosquito coils, incense sticks, in plywood manufacturing as a phenolic extruder, and as filler in the manufacture of resin glue.


As used here the term “coconut crumb’ means one or more particles of the hard inner shell of a coconut cut down to particles typically having a size in the range from 4-7 millimeters, inclusive, but may include any crumbs of smaller than 10 mm. The term “coconut chips” means one or more particles of the hard outer shell of a coconut cut down to particles having a size in the range from 20 to 40 mm, inclusive, by may include any crumbs larger than 20 mm. These ranges are estimates but are intended to differentiate between particles that are 20 mm or larger, which are called chips, and particles that are 7 mm or smaller, call crumb. The term “coconut crumb infill” and “coconut crumb” are intended to be interchangeable.



FIG. 1 shows a coconut 10 split open, with its husk 12 next to it. The hard inner shell is what is of interest here, but it helps to clarify by looking at the other portions of the coconut. The white innermost material 14 is typically referred to as its ‘meat’ copra' and contains coconut water. The layer of spongy material 16 between the meat and the outer shell is referred to as ‘pith’ with ‘coir’ and ‘fiber’. Pith is highly absorbent and has uses with shell infill materials that may be appropriate here, as an infill amendment to the coconut shell infill. The hard outer shell 18 is what is also of interest here.



FIG. 2 shows a view of a synthetic turf field using coconut crumb infill instead of tire crumb infill. As can be seen in the diagram, the infill 20 is the second layer from the top and has a grade such that the finished field has a slope from the center of the field to the sidelines to allow for drainage. The synthetic turf lies 22 on top of the coconut crumb infill. Underneath the coconut infill, there may be many layers. In this example, there are layers of a thick, resilient shock and drainage pan 24, a geotextile fabric 26, a compacted aggregate leveling course 28, a compacted aggregate base course 30, a layer of subbase material 32, and the compacted subgrade material 34. The selection and configuration of these materials is left up to the system designer, but in general the coconut crumb and replace the tire crumb as infill with no modifications of the underlying layers of the field.



FIG. 3 shows an embodiment of a process for converting the hard inner shell of coconuts to coconut crumb. This process begins with the outer shell “skin” of the coconut 40. Typically, a coconut shell crusher opens the shells. The process then removes and discards the meat and the water. The shells then typically undergo cleaning and sanitization and dried to under 10% water content, not shown here.


The process starts with the coconut shells being run through some sort of shredding or break down machine at 42, such as a hammer mill and/or a shredder to produce coconut chips and waste material, referred to as ‘fines’ 44. This process typically reduces the coconut shells to chip sizes in the 20-40 millimeter range. The resulting material is then screened at 46 in which the material that is not of the right size, fines, 48, is either designated as waste material, but may be used in other processes. Some of it may be returned to the beginning of the process at 40 for reprocessing.


A conveyor 50 then moves the coconut chips 52 to a second break down process at 54. One should note that the embodiment shown in FIG. 3 shows a hammer mill, but any machine that can break down the hard coconut shell into the desired sizes, referred to here as a ‘break down’ machine, would work in this process. The resulting material 56 from the second breakdown process will typically comprise a mix of coconut crumb and fines. This material then undergoes screening at 58, with the waste materials or fines being recycled or used for other processes. The resulting coconut crumb can then become turf field infill.



FIG. 4 shows a diagram of a hammer mill 70. The mill typically has a chute or other opening 72 to allow delivery of the coconut shells to the inner workings of the mill. The hammers 78 rotate around a rotor with hanging metal knife blades that drives them to break up the coconut shells into the chips and round off the jagged edges. A screen traps such as 78 the chips to undergo further processing and the waste material, also referred to as ‘fines’ are taken away. Note that this screening may comprises the screening process mentioned above, or may be prior to the screening. FIG. 5 shows a photograph of a hammer mill 70, and FIG. 6 shows embodiments of the different screens 78.


Some embodiments of the process may rely only upon a single hammer mill as the breakdown machine, with the hammers changed between the breaking down of the shells into coconut chips and coconut crumb. The user can also adjust the rotor speed to be coordinated with the screen type to ensure the output meets a size specification. For shredders, it may involve changing the size of the blades. Some embodiments may use two of one type of a break down machine such as two hammer mills or two shredders. Some of the embodiments may rely upon a combination of different types of break down machines, using one type to produce coconut chips and another type to turn the chips into crumb.


Returning to FIG. 3, the material trapped by the screen is then removed from the hammer mill and conveyed to another hammer mill. As mentioned above, one should note that the second break down machine may comprise the same break down machine after the machine is recalibrated. In this embodiment, using blunt hammers within a hammer mill, the screens and/or the hammers are changed to reduce the chips to a smaller size, plus round or blunt the sharp edges of the crumbs. The chips, meaning portions of the outer shell having sizes in the range of 20-40 millimeters, undergo further processing to reduce their sizes to ‘crumbs,’ meaning that they have a size in the range of 4-7 mm. The further processing also serves to smooth out the edges and remove sharp corners from the crumbs.


Other methods of reducing or breaking down the coconut outer shells to the hard granular crumbs are of course possible. For example, instead of using a hammer mill, one could employ a shredder as shown in FIGS. 7 and 8.



FIG. 7 shows an example of a shredder machine 80 with its outer layer of blades or teeth such as 82. These can grind up the coconut husks to a first chip size. The user selects the blade size to achieve the desired chip size. Inner teeth or blades such as 84 shown in FIG. 8 can then grind the chips into the crumb size. The shredder 80 may incorporate a screen located at the bottom to perform the screening, or may just have an outlet that produces the coconut crumb to undergo a separate screening process.


Any method that reduces the size of the coconut husks to the crumb size without leaving any sharp corners or loose material behind will suffice to convert the coconut husks into coconut crumbs. These are then useful as infill in the synthetic turf as shown in FIG. 2.



FIG. 9 shows an embodiment of the resulting crumbs. FIG. 9 shows a hand to provide a sense of scale of the resulting crumbs. As mentioned above, the crumbs typically has a size in the 4-7 mm range, but any particle at 10 mm or below falls under the label of ‘crumb.’


In this manner, one can use an environmentally friendly, where otherwise waste product of coconut shells replaces the non-biodegradable tire crumbs currently in use on synthetic turf fields, referred to here as coconut crumb infill. The hard shells of the coconuts do not absorb water in a significant amount when wet, has antifungal characteristics, and while they will over time degrade, it is much less expensive and cost effective to replace them. The material is organic, sustainable, renewable, and safe for people and pets.


In some applications, it may be desirable to soften the hard shell coconut crumb infill. As mentioned above, the hard shells do not absorb water in a significant amount, so softening the coconut crumb shell infill material can become an issue. One method involves using solutions of water with various salts, acids and/or bases, as added ingredients to soften the crumb infill material.


As used here, the term “natural water” refers to untreated water, with not softening agents or purifiers added. Initially, the process cleans the coconut hard shells, referred to here as the shells, by submersion in water. In one embodiment, the water is natural water.


The shells are then boiled for at least one hour in a salt solution. In one embodiment the salt concentration is at least 30 grams of salt or more per liter of water. In another embodiment, the salt concentration is between 30-50 grams of salt per liter of water, and the water may be natural water. After boiling, the shells are steamed for at least eight hours.


After steaming, the shells undergo a first soaking in an alkali solution of water and an alkali material, such as sodium hydroxide (NaOH) or one of its hydrates such as sodium hydroxide monohydrate, all of which are referred to here as sodium hydroxide. The water may comprise natural water. The solution with the coconut material in it will typically have a pH in the range of 5.8 to 6.8, prior to the addition of the alkali material.


The shells then undergo a second soaking in a salt solution of 5% magnesium chloride (MgCl2) or other salt, including other halide salts, for at least an hour. After soaking, the shells are rinsed with a solution of natural water, and a mix of acids and bases to ensure stable alkalinity of the solution between 100 to 150 ppm. In one embodiment, the acids include distilled vinegar at a concentration of 25%, and muriatic acid (HCl), and the base or alkali materials may comprise soda ash also known as sodium carbonate (Na2CO3).


Once rinsed, the shell material is then aged and stored, stored, wet with no drying.


It will be appreciated that variants of the above-disclosed and other features and functions, or alternatives thereof, may be combined into many other different systems or applications. Various presently unforeseen or unanticipated alternatives, modifications, variations, or improvements therein may be subsequently made by those skilled in the art which are also intended to be encompassed by the below claims.

Claims
  • 1. A method of softening coconut shell material, comprising: submerging the coconut shell crumb material in water to produce clean crumb material;boiling the clean crumb material in a salt solution to produce boiled crumb material;steaming the boiled crumb material to produce steamed crumb material;first soaking the steamed crumb material in a solution of water and an alkali material to produce soaked crumb material;second soaking the soaked crumb material in a salt solution to produce second soaked crumb material;rinsing the second soaked crumb material with a stable alkaline solution to product softened wet crumb material; andstoring the softened wet crumb material.
  • 2. The method as claimed in claim 1, wherein submerging the coconut shell material in water comprises submerging the coconut shell material in natural water.
  • 3. The method as claimed in claim 1, wherein boiling the clean crumb material in a salt solution comprises boiling the clean crumb material in a solution of natural water and salt having a concentration of at least 30 grams of dissolved salt per liter of water.
  • 4. The method as claimed in claim 1, wherein boiling the clean crumb material in a salt solution comprises boiling the clean crumb material in a solution of natural water and salt having a concentration in the range of 33 to 50 grams of dissolved salt per liter of water.
  • 5. The method as claimed in claim 1, wherein boiling the clean crumb material comprises boiling the clean crumb material for at least an hour.
  • 6. The method as claimed in claim 1, wherein steaming the boiled crumb material comprises steaming the boiled crumb material for at least eight hours.
  • 7. The method as claimed in claim 1, wherein steaming the boiled crumb material comprises steaming the boiled crumb material in a pressurized vessel.
  • 8. The method as claimed in claim 1, wherein first soaking the steamed crumb material comprises soaking the steamed crumb material in a solution of sodium hydroxide and water having a concentration of sodium hydroxide of 20%.
  • 9. The method as claimed in claim 1, wherein second soaking the first soaked crumb material in a salt solution comprises second soaking the first soaked crumb material in a solution have a concentration of magnesium chloride of 5%.
  • 10. The method as claimed in claim 1, wherein rinsing the second soaked crumb material comprises rinsing the second soaked crumb material with a solution of water, distilled vinegar at a concentration of 25%, muriatic acid and sodium carbonate as required to have a stable alkalinity in the range of 100 to 150 parts per million.
  • 11. The method as claimed in claim 1, further comprising aging the softened wet crumb material before storing.
CROSS REFERENCE TO RELATED APPLICATIONS

This application is a continuation-in-part of U.S. patent application Ser. No. 17/287,075 filed Apr. 20, 2021, which is a § 371 of PCT/US2019/060760, filed. Nov. 11, 2019, which claims priority to and the benefit of U.S. Provisional No. 62/767,567 filed Nov. 15, 2018, all of which are incorporated herein by reference n their entirety.

Provisional Applications (1)
Number Date Country
62767567 Nov 2018 US
Continuation in Parts (1)
Number Date Country
Parent 17287075 Apr 2021 US
Child 17582242 US