Gippsland - How Now Gippy Cow
December 2010 Edition
Wet hay season = Potential for haystack fires
This season most areas in Victoria have experienced sporadic and unusually high rainfall events making hay making a nightmare. The result in many situations will be that a lot of potentially high quality hay will now be severely rain affected resulting in reduced dry matter yields and nutritive value. Of course there is now the danger of mouldy hay and the increased risk of spontaneous combustion of hay stacks.
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I realise many of you may be sick of “another article from Mickan on wet hay and haystack fires” but it would be remiss of me not to refresh farmers and contractors minds of the effects of trying to make hay in a wet season.
In years like this, curing fodder is often baled slightly too wet due to incoming rain, moist ground under the windrow, possibly too much dew on forage at baling, extremely heavy crops, poor curing weather, nodes and seed heads still wrapped in the flag leaf sheath not being cured enough, incorrectly calibrated or improperly used moisture meters, etc. So there is potential for baling material that is, about two to five per cent moisture higher than it should be for the particular bale form.
Large rectangular bales need to be about two per cent drier (12 – 14% moisture) than large rounds (14 – 16%) which themselves need to be about two per cent drier than the small squares (16 – 18%). This is due to their high density or large volume to surface area for the large rectangular and rounds, respectively.
Using the latest forecasts from the internet, leaving wide windrows behind a mower-conditioner, tedding immediately after mowing (tedders will substantially speed up curing), and using a form of hay preservative are all essential tools to increase the curing rate of hay. Yes, these will add cost to the hay making but, especially if the material is reasonable to high quality, will be usually well worth the cost, if it helps to beat the next rain.
However, being practical, some hay will end up in the stack that has not been cured well enough. Now, you’re into “Watch and Wait” mode. Regularly monitor the stack from week one after baling for signs of heating. These are:
- Bales heating
- Dampness on the tops of bales
- Steam rising from the stack
- Unusual odours (e.g. pipe tobacco, caramel, burning, musty)
- Moisture build-up on roofing iron or under a tarped outside stack
- Corrosion on underside of tin roof
- Sometimes the stack may slump in places
Unfortunately much of the heating will occur in the stack centre which is difficult to pick up. To make matters worse, spontaneous combustion CAN be caused by one wet bale in the stack.
To try to get a handle on how hot the stack has become many farmers push a crowbar into the stack as far as possible. After a couple of hours it is removed and felt for how hot it is. A rough guideline to the bar’s indication of stack temperature (degrees Celsius) is shown below:-
| Indicative Temperature (° Celsius) |
Crow Bar feel | Actions |
|---|---|---|
| Less than 50 | Can handle bar without discomfort | Check temperature daily |
| 50 to 60 | Can handle bar for short time | Check temperature twice daily. Remove equipment from shed |
| 60 – 70 | Can touch bar only briefly | Check temperature every two hours. Move hay from top layers to improve air flow |
| Greater than 70 | Bar too hot to hold | Potential for fire. Call CFA immediately. Avoid walking on top of stack |
To measure temperatures further into the stack centre use a steel pipe (~ 3m long) of approximately 20 mm diameter with eight to ten holes (4 – 5 cm diameter) drilled about 75 mm from the end, which has been flattened to allow the pipe to be pushed into the stack. A thermometer on a string can then be lowered down and read regularly. Lay a plank or ladder across the top of the stack to walk on as there may be burnt out cavities in extremely hot stacks.
Another alternative for much more accurate, safer and easier monitoring, although much more costly, can be achieved by thermal couplings which can be placed into various areas of the stack at stacking and monitored very regularly.
