Full Mixed Container with Large Crates Dried FireWood and Nets
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- Firewood price list
No. | Product | Quantity in a Load (40’HC Container) | Price per unit | Price per whole load ex works Burgas, Bulgaria |
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1 | FIREWOOD ON LARGE PALLET BOXES | 63 m3
21 pallets x 2m3 + 21 pallets x 1m3 |
69 EUR per m3
M3 = 420-440 kgs |
4 347 EUR | ||
2 | FIREWOOD ON HIGH PALLET BOXES + FIREWOOD IN BAGS LOADED OVER THE BOXES | – 26 pallet boxes x 2m3 + 6 tons of bagged firewood over them loaded | 69 EUR per m3 pallet boxes ; 145 EUR per ton for the bags | 4 458 EUR | ||
3 | FIREWOOD IN BAGS ON PALLETS | 66 m3
52 pallets x 1.27 m3 |
73 EUR per m3
M3 = 420-440 kgs |
4 818 EUR | ||
4 | FIREWOOD IN NET BAGS WITHOUT PALLETS | 27 tons
1800 bags x 15 kgs Or 2700 bags x 10 kgs |
145 EUR per ton | 3 915 EUR | ||
5 | FIREWOOD CUT AND SPLIT BULK LOADED | 27 tons | 125 EUR per ton | 3 375 EUR | ||
6 | FIREWOOD IN BIG BAGS | 27 tons | 139 EUR per ton | 3915 EUR | ||
7 | KINDLINGS ON PALLETS | 66 m3
52 pallets x 1.27 m3 |
99 EUR per m3
80 bags x 4-5 kgs |
6 534 EUR | ||
8 | KINDLIGS IN BAGS WITHOUT PALLETS | 5400 bags x 4-5 kgs | 1.15 EUR per bag | 6 210 EUR |
The Logs for Large Crates Dried FireWood – Pallet Boxes are stacked.
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Crates’ Sizes:2 m3 crate is 2.05 m (h) x 1.15 m (w) x 0.85 m (d) – Loose Volume: 2.3 m3.
Pallet weight approx. 840-880 kgs each
Nets with Dried FireWood
Net bags with Dried FireWood – 10 kgs
Net bags with Dried FireWood – 15 kgs
1000 kgs or 1 MT = 100 bags x 24 litres or 66-67 bags x 40 litres
Log Length: 25cm is our standard – Tolerance on lengths +/- 8%. If required they can be: 20 cm, 33 cm , 40 cm , 50 cm and 100 cm
Log Diameter: is our standard 12 -15cm measured across widest point of log. Tolerance on diameter +/- 10%
If required they can be: For stoves: 7-15cm, 10-15cm ; For fireplaces 15-20 cm or max large – over 20 cm
Moisture Content: Average 10-20%
Brash Volume: Max 4% per crate (brash constitutes bark and smaller pieces)
Normal delivery Time: 5-8 working days
High Cube Container Sizes and Specifications:
Dimensions of 40ft HC container | |
Internal length | 12.031 m / 39.5 ft |
Internal width | 2.352 m / 7.8 ft |
Internal height | 2.698 m / 8.9 ft |
Tare weight | 3,940 kg / 8,687 lbs |
Payload capacity | 30,480 kg |
Cubic capacity | 76.3 m3 / 2,694.5 cu ft |
We need your company identifications as name , address, VAT number so we can issue invoice proforma and proceed with supplying you with our DRIED Firewood .
– fumigation / disinfection with gaz : 130 eur/ 40′ container
– T2L form doc (not invoice T2L) on;y for EU supplies- 100 eur/ container
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More about Large Crates Dried FireWood.
Large Crates Dried FireWood is used for home consumtion of died firewood and the Firewood on pallet boxes can easily be moved by forklift.
Nets with Dried FireWood are used mostly in homes and are usually sold in a Big Markets like Metro, Gas stations , etc.
Type of wood – whether it is hardwood or softwood – burned in the combustion process is important for the heat value and the energy efficiency.
Hardwoods have less resin and burn slower and longer. Softwoods burn quickly. In addition the seasoned length influences on the fuel efficiency. Seasoning the wood refers to the allowed drying time before combustion.
Wood need to be dried at least 4 to 6 months before use. Our wood is dried at least 10-12 months.
Densities and heat values of some common wood species are indicated in the table below. Note that the volume of a stack of firewood varies considerably on whether or not it is split and how it is stacked. The moisture content also play a role – the values below are based on a average moisture content of 20%.
Wood Species | Density of Dry Wood (lb/ft3) |
Weight of Dry Cord (lb/cord) |
Recoverable Heat Value of Cord (Dry Wood) (millions Btu/cord) |
Heat Value of Cord (Green Wood) (millions Btu/cord) |
Units of Green Wood needed to produce 1 Million (cord/Btu’s) |
---|---|---|---|---|---|
Apple | 48.7 | 4100 | 26.5 | 18.6 | 0.054 |
Ash, white | 22.3 | ||||
Aspen | 27 | 2290 | 14.7 | 10.3 | 0.097 |
Men’s Balm | 26.3 | 2240 | 14.3 | 10.0 | 0.10 |
Basswood | 24.8 | 2110 | 13.5 | 9.5 | 0.106 |
Beech | 44.2 | 3760 | 24 | 16.8 | 0.060 |
Birch | 21.7 | ||||
Black Ash | 35.2 | 2990 | 19.1 | 13.4 | 0.075 |
Black Spruce | 29.2 | 2480 | 15.9 | 11.1 | 0.090 |
Box elder | 32.9 | 2800 | 17.9 | 12.5 | 0.080 |
Buckeye | 13.4 | ||||
Butternut | 15.4 | ||||
Catalpa | 16.4 | ||||
Cherry | 36.7 | 3120 | 20 | 14 | 0.071 |
Chestnut | 12.9 | ||||
Coffee tree | 21.6 | ||||
Cottonwood | 24.8 | 2110 | 13.5 | 9.5 | 0.106 |
Dogwood | 27.0 | ||||
Douglas Fir | 26.4 | ||||
East Hop hornbeam | 50.2 | 4270 | 27.3 | 19.1 | 0.052 |
Elm | 35.9 | 3050 | 19.5 | 13.7 | 0.073 |
Hackberry | 38.2 | 3250 | 20.8 | 14.6 | 0.069 |
Hemlock | 29.2 | 2480 | 15.9 | 11.1 | 0.090 |
Hickory | 50.9 | 4330 | 27.7 | 19.4 | 0.052 |
Ironwood | 26.0 | ||||
Jack Pine | 31.4 | 2670 | 17.1 | 12.0 | 0.084 |
Larch – Eastern | 18.7 | ||||
Locust | 27.3 | ||||
Lodgepole pine | 19.3 | ||||
Maple | 21.6 | ||||
Mulberry | 25.8 | ||||
Norway Pine | 31.4 | 2670 | 17.1 | 12.0 | 0.084 |
Osage Orange | 32.9 | ||||
Paper Birch | 37.4 | 3180 | 20.3 | 14.2 | 0.070 |
Pinon Pine | 33.5 | ||||
Ponderosa Pine | 28 | 2380 | 15.2 | 10.6 | 0.094 |
Redcedar – east | 19.8 | ||||
Red Oak | 44.2 | 3760 | 24 | 16.8 | 0.060 |
Red Maple | 34.4 | 2920 | 18.7 | 13.1 | 0.076 |
Spruce | 16.0 | ||||
Sucamore | 19.5 | ||||
Sugar Maple | 44.2 | 3760 | 24 | 16.8 | 0.060 |
Tamarack | 38.2 | 3250 | 20.8 | 14.6 | 0.069 |
Tanarack pine | 21.2 | ||||
Yellow Birch | 43.4 | 3690 | 23.6 | 16.5 | 0.061 |
Yellow pine | 22.0 | ||||
Walnut – black | 21.5 | ||||
White Ash | 43.4 | 3690 | 23.6 | 16.5 | 0.061 |
White Oak | 47.2 | 4010 | 25.7 | 18.0 | 0.056 |
White Pine | 26.3 | 2240 | 14.3 | 10.0 | 0.100 |
Willow | 13.2 |
- 1 ft (foot) = 0.3048 m
- 1 lb = 0.4536 kg
- 1 lb/ft 3 = 16.018 kg/m 3
- 1 Btu (British thermal unit) = 1,055.06 J = 107.6 kpm = 2.931×10 -4 kWh = 0.252 kcal = 778.16 ft lb f = 1.055×10 10 ergs = 252 cal = 0.293 watt hour
Note that in the table above 1 net cord volume = 85 ft3 is used to convert between the “Density” and “Weight of Cord” column (1 stacked cord volume = 128 ft3). Be aware that the densities used for the wood species varies significantly. The densities used above is for natural dried wood where the average moisture content is approximately 20%.
Heat values of cords with dry wood can be estimated by adding 10% to the green wood cords values.
Recoverable heat values are calculated with a stove efficiency of approximately 65%.
How to Calculate the Combustion Heat in MJ/kg from the Table above
- calculate “Density of Dry Wood” in kg/m3 by multiplying lb/ft3 with 16.018
- calculate “Weight of Dry Wood” in kg/cord by multiplying lb/cord with 0.4536
- calculate “Recoverable Heat Value of Cord (Dry Wood)” in MJ/cord by multiplying Millions Btu/cord with 1055.06
- calculate “Recoverable Heat Value per kg (Dry Wood)” in MJ/kg by dividing 3 with 2
Example – Red Oak
- “Density of Dry Wood” : 44.2 (lb/ft3) 16.018 = = 708 (kg/m3)
- “Weight of Dry Wood” : 3760 (lb/cord) 0.4536 = 1705.5 (kg/cord)
- “Recoverable Heat Value of Cord (Dry Wood)” : 24.0 (Millions Btu/cord) 1055.06 = 25304 (MJ/cord)
- “Recoverable Heat Value per kg (Dry Wood)” : 25304 (MJ/cord) / 1705.5 (kg/cord) = 14.8 (MJ/kg)
The Combustion Process of Burning Wood
- Wood heats up to approximately 212 oF (100 oC) evaporating the moisture in it. There is no heating from the wood at this point
- Wood solids starts to break down converting the fuel gases (near 575 oF, 300 oC)
- From 575 oF to 1100 oF (300 – 600 oC ) the main energy in the wood is released when fuel vapors containing 40% to 60% of the energy burn
- After the burning of fuel vapors and the moisture is evaporated, only charcoal remains burning at temperatures higher than 1100o F
- TC = 5 / 9 (TF – 32)
Net calorific value (CV) or Lower Heating Value (LHV) given for all fuels. This means that the latent heat of vaporization of the water vapour created by combustion is not recovered by condensation
Fuel | Net CV by mass | Bulk density | Energy density by volume | ||
GJ/tonne | kWh/kg | kg/ m3 | MJ/ m3 | kWh/m 3 | |
Wood chips (30% MC) | 12.5 | 3.5 | 250 | 3,100 | 870 |
Log wood (stacked – air dry: 20% MC) | 14.7 | 4.1 | 350-500 | 5,200-7,400 | 1,400-2,000 |
Wood (solid – oven dry) | 19 | 5.3 | 400-600 | 7,600-11,400 | 2,100-3,200 |
Wood pellets (10% MC) | 17 | 4.8 | 650 | 11,000 | 3,100 |
Miscanthus (bale – 25% MC) | 13 | 3.6 | 140-180 | 1,800-2,300 | 500-650 |
House coal | 27-31 | 7.5-8.6 | 850 | 23,000-26,000 | 6,400-7,300 |
Anthracite | 33 | 9.2 | 1,100 | 36,300 | 10,100 |
Heating oil | 42.5 | 11.8 | 845 | 36,000 | 10,000 |
Natural gas (NTP) | 38.1 | 10.6 | 0.9 | 35.2 | 9.8 |
LPG | 46.3 | 12.9 | 510 | 23,600 | 6,600 |
Large Crates Dried FireWood and Nets , Large Crates Dried FireWood and Nets , Large Crates Dried FireWood and Nets , Large Crates Dried FireWood and Nets
De 40'HC-motor kan een goede werking hebben סאות המזרן המחיר הטוב ביותר
De 40'HC-motor kan een goede werking hebben סאות המזרן המחיר הטוב ביותר
GALLIL |
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Smith |
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Ivan Stoyanov |
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SUMMARY
De 40'HC-motor kan een goede werking hebben סאות המזרן המחיר הטוב ביותר |
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