![]() ![]() ![]() ![]() And that’s just boxes in the US!įirst of all, 85 percent of all that corrugated cardboard is recycled each year, so that’s pretty good. That’s the equivalent of 493 million trees, or 1.5 trees per person, per year. This leads to an interesting question: how many boxes do we go through a year? According to a 2010 EPA report, one-third of all trash produced is containers and packaging, and 29 million tons of corrugated cardboard are generated annually. That box typically uses just over eight square feet of corrugated cardboard per box (remember, we have to account for flaps on the top and bottom of the box).Ģ0,619 sq/ft of corrugated cardboard ÷ 8 sq/ft of corrugated cardboard per box = 2,577 boxes per ton.ġ tree = 151.6 boxes So What Can We Do With This Information? The most common box made (and the most “average” in size) is a standard 12″ x 12″ x 12″ box. Once again, we’re going to have to use a pretty big assumption here, since there are many different box sizes and styles that can be created. The last piece of the puzzle is figuring out how many boxes we can get out that 20.6k square feet of corrugate. You can click here and here to learn what it means).Īfter doing some consulting with our resident corrugated cardboard experts, we determined that corrugate weighs about 97 pounds for every 1,000 square feet-or 20,619 sq/ft for every ton of corrugated cardboard. There are a few different types of cardboard that have different weights, so I’m going to go with the relatively standard 32 ECT C (I know that’s some packaging jargon there. ![]() So now we need to know how much corrugate we can get out of one ton. I’m going to assume that corrugated cardboard and paper use about the same amount of trees per pound-so 17 trees = 1 ton of corrugated cardboard. The EPA says that we save 17 trees for every ton of paper that is recycled. I’ll do the math here, but be aware that I have to make some assumptions and estimates. I didn’t really have a good answer for that, and neither did Google, so I thought I would look into this a little more myself. All in a single workflow.I was recently asked how many boxes can we get out of a tree by my sister-in-law. Support End-to-End Data Science Workflows – Deploy services where they are needed, when they are needed.Deploy Data-driven R&D Operations – Help your teams work smarter, not harder.Capitalize Scientific Knowledge and Know-How – Capture best practices standard practices as distributable, modular, shareable protocols.Democratize Data – Maximize the value of AI and machine learning for everyone.Leveraging BIOVIA Pipeline Pilot and its Collections, users author data pipelines, or protocols in Pipeline Pilot, to deliver integrated, data-driven solutions, and potentially combine them with other BIOVIA applications to augment out-of-the-box capabilities. To fully benefit from the potential data science offers, organizations need an end-to-end approach to leverage their data across the science and engineering enterprise. This disjointed, and often too generic approach, to analyze scientific and engineering data and deliver insights lowers trust in results, obstructs progress, and stifles collaboration. Teams use different tools and processes to access data, clean it, model it, and deliver results, but these results often lack the domain depth needed to drive innovation. However, many scientific and engineering-based organizations still struggle to effectively utilize the data at their disposal. ![]()
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