US20220087287A1

US20220087287A1 - Steam treating of fodder

Info

Publication number: US20220087287A1
Application number: US17/540,790
Authority: US
Inventors: Brian Gordon Fillery; Timothy Michael Oliver
Original assignee: Haygain Ltd
Current assignee: Haygain Ltd
Priority date: 2008-09-30
Filing date: 2021-12-02
Publication date: 2022-03-24
Also published as: GB2477874A; DK2364100T3; EP2364100B1; NZ591912A; US20190261650A1; GB0817846D0; GB2454969A; PL2364100T3; CA2738620A1; WO2010038012A1; CA2738620C; GB201107277D0; AU2009299652A1; AU2009299652B2; US20100080878A1; EP2364100A1; GB2454969B; GB2477874B; US20150118375A1; AU2016201464A1

Abstract

An apparatus for and method of steam treatment of fodder, for example animal fodder which is typically in baled form. The purpose of steam treating is to kill mesophilic and thermophilic mould spores that are either attached to the fodder or detach when disturbed and become airborne. These airborne particles are associated with respiratory problems, infections and allergies to livestock as well as humans. The apparatus for steam treating fodder comprises at least one steam distribution manifold, which has a plurality of lances adapted to penetrate a bale of fodder so that steam is supplied to the interior volume of the fodder.

Description

This application claims priority from GB 0817846.9, filed Sep. 30, 2008 in the UK, the entirety of which is explicitly incorporated herein by reference.

BACKGROUND OF THE INVENTION

1. Field of the Invention

This invention relates generally to an apparatus for and method of steam treating of fodder, for example animal fodder (such as grasses, herbaceous legumes, tree legumes, silage and crop residues), which is typically in baled form, which is intended to include bales as well as retaining nets, baskets or similar receptacles.

2. Background of the Related Art

The purpose of steam treating is to kill mesophilic and thermophilic mould spores that are either attached to the fodder or detach when disturbed and become airborne. These airborne particles are commonly assumed as dust spores, together with any living organisms and can include insects and the like. The purpose therefore of treating the fodder is to kill all the aforesaid prior to the fodder being fed to livestock; thus reducing the risks of creating or aggravating respiratory problems, infections and allergies from such or similar organisms. The problem associated with respiratory conditions, infections and allergies applies to, both livestock being fed as well as humans handling the fodder or when preparing and feeding the fodder to livestock.
Most forms of livestock are fed predominantly on conserved fodder from manmade bales; in their whole, in part, or detached from the whole bale and inserted in a receptacle such as a net or basket.
Fodder is one of the cheapest and most widely available natural forms of feeding livestock and provides most of the nutrients required. When fodder, such as grasses and crop residues, is cut, it is usually compressed into bales for ease of storage and manoeuvrability. All fodder contains leaf shatter, soil, mesophilic moulds, plant particles, fragments of sundry inorganic materials, bacteria, fungi and fungal spores, insects, and other organisms in varying amounts. When the fodder has been cut and stored additional organisms (thermophilic actinomycetes) are also present. All of this matter is generally classified as dust. Much of this dust is present in particles of less than 5 microns in diameter (respirable particles) and these particles can cause an allergic reaction within some livestock (e.g. horses and certain goat species). The allergic reaction is precipitated by a hypersensitivity to the respirable particles which leads to airway inflammation, bronchoconstriction and accumulation of mucoid secretion in the animal's airways.
Clinical signs such as coughing and reduced capacity for exercise are persistent. These conditions include the well known Recurrent Airway Obstruction (RAO)—also known as Chronic Obstructive Pulmonary Disorder (COPD)—and are responsible for a significant loss of revenue in terms of days in training and reduced performance. Moreover these respirable particles are the cause of the debilitating condition in humans known as Farmers Lung, as well as more common hayfevers. Some livestock owners soak their fodder, such as hay, to reduce the number of airborne particles released during feeding.
However, the initial handling of the material usually results in the dust becoming airborne and present in the atmosphere exposing animals and humans alike to hazardous respirable particles. While soaking fodder has proved effective in reducing respirable particle numbers, it does not kill the fungi and bacteria present and thus ingestion of these pathogens still occurs and can lead to other associated problems, particularly in breeding livestock. Furthermore soaking has been scientifically proven to leach some of the nutritional content from the fodder; and produces a post-soak liquid that has a high biological oxygen demand classifying it as an environmental pollutant.
Examples of steam treating fodder are described in UK Patent Application GB 2 338 167 A (Meech & Davis).
Another type of fodder steam treatment system is described in UK Patent Application GB 2 387 311 A (Bottomley).
Although the aforementioned systems operated with a reasonable degree of success they suffered from a number of drawbacks.
Another type of hay steamer is made and sold by Happy Horse Products limited and includes a conventional steam generator which delivers steam, via a lance, into loosely packed fodder which is contained in a bag. In the event that the bag is waterproof steam condenses in the bag with the result that there is a build up of hot water condensate in the bag and the aforementioned risk of leaching of nutrients from the fodder. In the event that the bag is permeable, a disadvantage of this system is that fodder has to be handled twice. Firstly it needs to be removed from a bale or hay rick and placed in the bag; then it has to be removed from the bag for feeding.

SUMMARY OF THE INVENTION

In accordance with the principles of the present invention, an apparatus for steam treating fodder comprises a steam manifold adapted to receive steam from a source of steam. The steam manifold defines passages for distributing steam to a plurality of lances. The lances are adapted so that, in use, they penetrate a bale or receptacle of fodder. Steam is thereby supplied to an interior volume of the bale or receptacle of fodder.
In accordance with another aspect of the invention, a method for steam treating a bale or receptacle of fodder comprises receiving steam at a manifold from a source of steam. The manifold defines passages for distributing steam to a plurality of lances. The lances are adapted so that, in use, they penetrate a bale or receptacle of fodder. Steam is thereby supplied to an interior volume of the bale or receptacle of fodder.

BRIEF DESCRIPTION OF THE DRAWINGS

Features and advantages of the present invention will become apparent to those skilled in the art from the following description with reference to the drawings:

FIG. 1 shows an overall diagrammatical view of one embodiment of the invention and illustrates the principle of operation; and

FIG. 2 shows an overall view of an example of a manifold.

DETAILED DESCRIPTION OF ILLUSTRATIVE EMBODIMENTS

According to a first aspect of the invention an apparatus for steam treating fodder includes a steam manifold that is adapted to receive steam from a source, the manifold defines passages for distributing steam to a plurality of lances, said lances being adapted so that, in use, they penetrate a bale or receptacle of fodder, whereby steam is supplied to the interior volume of the bale or receptacle of fodder.
Ideally the steam manifold, in use, is arranged to impale a bale of fodder, by placing the bale thereon, thus the weight of the bale assists in the process of ensuring the lances penetrate into the bulk of the bale of fodder.
The manifold may be adapted to rest on the ground or floor of an area and a bale may be placed on it or the manifold may be driven into a bale. Whichever technique is used there is a single action involved in steam treating the fodder and once treated, any baler twine or other binding is cut and the fodder can be distributed. Therefore the process is quick to implement and a user is free to do other things whilst a bale of fodder is steam treated.
The apparatus is preferably formed from a strong and heat resistant material, such as stainless steel, other metals or synthetic plastics material which is able to withstand temperatures in excess of 110 degrees Centigrade.
The manifold ideally includes a plurality of lances, which may be in the form of prongs or spikes, each being adapted to impale a bale so that they penetrate deep into the bale, thereby enabling steam to pass into the bulk of the bale and percolate from the centre outwards. This ensures deep and thorough heating—and thus steam treatment—of the fodder.
There may be two, but ideally there are three, four, five or more lances arranged in an array so that the lances are in a form that enhances even distribution of steam throughout the bale. Again ensuring deep and thorough heating—and thus steam treatment—of the fodder.
Ideally the apparatus includes a heater which has an immersion element and is adapted for use with either 240 Volts or 110 Volts. The heater generates steam in the well known manner.
FIG. 1 shows an overall diagrammatical view of one embodiment of the invention and illustrates the principle of operation.
Referring to FIG. 1 there is shown a diagrammatic representation of an apparatus for steam treatment of fodder.
Referring to FIG. 1 there is shown in general a steam treatment of fodder comprising a water reservoir 20 in which is located a heating element 22. The water reservoir can also be a sealed vessel and thus capable of heating water to more than its normal boiling point. A high pressure flexible hose 24, which is ideally insulated, conducts steam from the reservoir to a manifold, ideally via a flexible or universal joints 25 and 26. The manifold 1 is what distributes the steam into a bale 10.
The apparatus is connected by means of pipe work to a steam generator in reservoir and optionally includes conventional safety equipment such as thermostatic settings, boil dry warning and residual current detectors (RCD) for use in damp and outdoor environments.
FIG. 2 shows a manifold, which is in the form of a generally square frame and has passages 20 formed therein for distribution of steam The manifold 1 is fitted with a number of substantially vertical lances 2, which are in communication with the passages 20. Each lance 2 has a pointed end 3 for ease of penetration into a compacted bale or receptacles of fodder 10. Lances 2 have apertures 4, extending a proportion of their length, for the release and distribution of steam and condensed steam into the centre of the fodder. The supply of steam may be switched on or off by way of a trigger or other valve or switch (not shown).
Apertures 4 may be vertically disposed or they may be in the form of slits or slots, extending lengthwise or helically about circular lances 2. Alternatively the apertures may take the form of holes formed in the lances so that the steam and condensed steam permeate outwards to the extremities of the fodder ensuring full effectiveness and contact of the steam throughout the fodder. It has been found that with use of the manifold the temperature of a bale may exceed 100 degrees Centigrade.
As a result of the lances 2 a, 2 b, 2 c and 2 d, steam is introduced into the centre of the bale or receptacle of the fodder by placing the bale or receptacle 10 onto the manifold 1. Alternatively the manifold 1 can be forced into a bale 10 from the side or above. In whichever orientation the lances penetrate so as ensure steam reaches all of the bale. If the manifold is arranged to rest on the ground during operation, an optional foot or feet 7 may be provided or formed on the manifold to prevent damage to it, for example by shock loading that may occur when a bale is dropped onto the lances.
In an alternative embodiment one or more steam distribution manifolds 1 of various lengths (to accommodate different size bales and receptacles to ensure effective central penetration) is provided. Lances 2 may be of different lengths and optionally these may be removable and fitted onto a common manifold. Thus for example in the event of damage to a lance, it may be removed and replaced with a similar lance. Alternatively, where the manifold is required for use with larger bales, longer lances may be fitted to the manifold.
Steam and condensed steam permeate through the fodder increasing the temperature of the fodder to between 70 and at least 100 degrees Centigrade (depending upon ambient temperature) killing thermophilic and mesophilic mould spores and other living organisms as mentioned above and effectively steam treating the fodder as well as dampening dust spores thus restricting their ability to become airborne.
The steam is distributed from the reservoir, via the hose and through the lances and where the steam condenses the water content is absorbed, in the majority, by the fodder leaving it damp. As the moisture content within the fodder increases, the temperature rises exponentially due to the increased efficiency of water as a heat conducting medium within the fodder, compared to air in the fodder's dry state.
The fodder is exposed to continuous steam from the apparatus, typically for a period in excess of 30 minutes, typically approximately 40 minutes and the temperature rises within the bale exponentially during this period of time.
The aforementioned apparatus can be used either in open space or within an enclosed environment, such as horse box, stable or barn; in a designated closed container or in a moulded preform, for use with any of the aforesaid.
In an alternative embodiment a conveyor (or other form of delivery system) may be used to present a bale of hay/straw to a position, whereat the manifold is forced to impale the bale and introduce steam into the bale. The manifold may be operated by a hydraulic actuator or drive, a manual actuator or drive, a sprung-loaded actuator or drive; or a combination of these.
The invention has been described by way of embodiments only with modifications and alternatives, but having read and understood this description, further embodiments and modifications will be apparent to those skilled in the art. All such embodiments and modifications are intended to fall within the scope of the present invention as defined in the claims. By way of example the manifold could be formed from aluminum, which may be cast, or a metal alloy.
While the invention has been described with reference to the exemplary embodiments thereof, those skilled in the art will be able to make various modifications to the described embodiments of the invention without departing from the true spirit and scope of the invention.

Claims

1-14. (canceled)

15. An apparatus for steam treating fodder in baled form, comprising:

a steam manifold configured to receive steam from a steam source;

the steam manifold having a steam inlet and a plurality of steam passages configured to distribute steam to a plurality of vertical bale penetrating lances;

each bale penetrating lance having a pointed upper end configured to penetrate into the fodder, and an aperture for the release of steam into the interior volume of the fodder;

in which the manifold and the bale penetrating lances are provided in a container.

16. The apparatus of claim 15, wherein each of the steam passages extends from the steam inlet to a bale penetrating lance positioned at an edge or corner of the steam manifold.

17. The apparatus of claim 15, wherein the steam manifold is four-sided.

18. The apparatus of claim 15, wherein the steam manifold is generally square.

19. The apparatus of claim 15, wherein the steam manifold is kite-shaped.

20. The apparatus of claim 15, wherein the steam manifold comprises four steam passages.

21. The apparatus of claim 15, wherein the steam manifold comprises four steam passages, each steam passage extending outwards from a central hub to the edge of the manifold.

22. The apparatus of claim 15, comprising four bale penetrating lances.

23. The apparatus of claim 15, wherein each one of the plurality of steam passages is connected to one bale penetrating lance.

24. The apparatus of claim 15, wherein the steam manifold has four corners and four steam passages, each steam passage extending to a corner of the steam manifold, and in which one bale penetrating lance is positioned at each corner of the steam manifold.

25. The apparatus of claim 15, comprising five bale penetrating lances.

26. An apparatus according claim 15, in which two or more of the lances have different lengths.

27. An apparatus according to claim 15, wherein the lances are removable from the manifold.

28. The apparatus of claim 15, wherein each of the plurality of steam passages extend an equal distance from the steam inlet.

29. The apparatus of claim 15, wherein a first and second steam passage extend a first distance from the steam inlet and third and fourth steam passages extend a second distance from the steam inlet.

30. The apparatus of claim 15, wherein each of the plurality of steam passages are straight.

31. The apparatus of claim 15, wherein the steam manifold receives steam from the source of steam via an insulated hose.

32. An apparatus for steam treating fodder in baled form, comprising:

a plurality of steam manifolds configured to be connected to, and receive steam from a source of steam;

the steam manifolds each having a steam inlet and a plurality of steam passages connected to bale penetrating lances;

each bale penetrating lance being pointed on top to facilitate penetration into the fodder and having an aperture to facilitate steam flowing through the lances and into the fodder;

wherein the steam passages are fluidly connected at a meeting point and each steam passage extends from the meeting point to an end point at an edge of the steam manifold.