Are you using any GCP’s or RTK/PPK on your drone? They are not needed for individual stockpile calculations unless the stockpile cover more than about a 2-3ac footprint. Hi If all the client is requiring is a map with stockpile volumes and then you should not run ANY oblique imagery and ALWAYS process in terrain mode. Right now by the time im done the mission I have no battery left (I have 8) no Ipad power left and only flown the site at aroound 200 Ft…(11MPH was the highest speed that DD gave me) Fly the entire site at 220 FT and then reduce it to a smaller Square just above the Pile at 80-100 Ft to be able to have correct details on the stockpile especially around conveyors?Īlso when it comes to upload do you pick Terrain because its a massive site and mostly terrain? or do you pick structure so the pile around the conveyor show up better?Ĭonfused pilot over here to be able to deliver a great product… What would you suggest for flying such a site to be able to deliver the client some results. IF I fly a lot lower (100ft?) Then I get more details but there is absolutely no way I could manage to fly the entire site as this would take about 25 batteries or so to fly that much data… My issue is that at 200 Ft there is not much details for 3D especiall around the conveyor bellts…and its hard to calculate the volume then… I have been flying the mission at 200Ft with Perimeter ON and Crosshatch 3D ON which gives me great stitching but when and that takes me about 2 hrs to complete minimum and 8 batteries… I have 170 acres to Fly, the client wants to estimate their volume on the piles in the gravel pit (there is conveyors belts on some of them) but also fly the entire site for mapping 3D. $$1\,US\,short\,ton = 2000\,pounds = 0.Ive read a lot of posts about Stockpile measurements Etc and Have done some homework but I am still in a pickle… Simply select the correct unit in the drop down area and the calculator will do the following conversions for you: Our online calculator is able to do the conversions for you, saving you time and effort! ⏱️ You may have noticed that in the above examples we change between tons and pounds, feet and yards and so on. $$Cost = Price\,per\,unit\,volume \times Volume = 12.5 \,$/yd^3 \times 525\,lb = $2.32$$ What if my measurements are in different units?įinally, at this point it’s likely you are wondering what to do if you are working with different units. I therefore enter the measurements into the calculator which does the following operations to work out the weight and cost of the crushed stones: If so, then you can calculate this yourself using the formula: Of course, you might not know the price per unit mass/volume. $$Cost = Price\,per\,unit\,volume \times Volume$$ $$Cost = Price\,per\,unit\,mass \times Weight$$ If you know the price per unit mass/volume of the crushed material, then the calculator can also work out the total cost of the aggregate using the formula: Click on the drop down menu to see all the options! NB: Our calculator has many standard densities already programmed for you – for example, gravel (105 lb/ft³), concrete (150 lb/ft³), sand (100 lb/ft³), and many more. $$Weight = Density\,of\,aggregate \times Volume$$
0 Comments
Leave a Reply. |
AuthorWrite something about yourself. No need to be fancy, just an overview. ArchivesCategories |