"Wisdom begins in wonder" – Socrates
Supercritical Flow
04/04/26
“What are the special properties of water flow that’s fast and shallow?”
Water flow can come in all shapes, sizes, and speeds. Water flow that’s fast and shallow, and whose internal forces affect movement more than gravity, is classified as Supercritical Flow. Supercritical flow is fast and powerful and can resist downstream changes. Consequently, critical flow is more affected by upstream than downstream elements.
Effective Half-Life
04/03/26
“How long does it take for a radeonucleotide to diminish to half of its mass in a biological organism?”
Organisms may consume radionucleotides. The radionucleotide will lose mass to both radioactive decay and biological absorption. We can find the Effective Half-Life of the radionucleotide through the equation 1/(half-life_effective) = 1/(half-life_radiation) + 1/(half-life_biological).
Geotextiles
04/02/26
“How can we use synthetic fabrics to improve soil behavior?”
Soils often need interventions to make them perform well. One way is to implement synthetic, permeable fabrics called Geotextiles into the soil. Geotextiles can aid in separation (preventing mixing of different soil layers), filtration (allowing water to pass through while holding soil particles back), drainage (soil dewatering), reinforcement (adding strength and stability to geotextiles), and protection (protecting soils from external damage).
Image credit: https://www.kakwastone.com/
BOD Deoxygenization Rate
03/31/26
“How can we measure the rate at which microorganisms consume oxygen to remove organic matter?”
Microorganisms use oxygen to remove organic matter. The BOD Deoxygenization Rate, or the rate at which microorganisms use oxygen to remove organic matter, is proportional to the amount of BOD remaining. This is important for understanding if a wastewater body is going to become oxygen-deprived.
Subcritical Flow
03/30/26
“What are the special properties of slow-moving, tranquil flows in channels?”
Slow-moving, tranquil flows in channels may seem simple. But if you dig deeper, you will find it more interesting. These flows, known as Subcritical Flows, are typically deep and dominated by gravity. The slow-moving and gravity-centric flow can be greatly affected by downstream elements like dams because it does not have enough momentum to overcome such heavy changes.
Dimensionless Henry’s Law Constant
03/29/26
“How can we quantify whether a substance is likely to stay in water or escape as water?”
Some substances escape from water solutions quickly, like volatile organic compounds, while others stay contentedly in water. We can find this out by taking the ratio of the concentration in vapor to the concentration in water, represented by the Dimensionless Henry’s Law Constant. The dimensionless Henry’s Law constant is equal to the regular Henry’s Law Coefficient divided by the universal gas constant and the temperature.
HDPE Pipes
03/28/26
“What material makes durable, flexible, long-lasting pipes?”
Many old pipes have issues with corrosion, leakages, and longevity. High-density polyethylene pipes, or HDPE Pipes, use a type of plastic that makes them durable, flexible, and long-lasting. Consequently, HDPE pipes are extensively used in long-distance transport applications.
Image credit: https://www.piedmontplastics.com/
When to Use The Manning vs. Hazen-Williams Equation
03/27/29
“When do we use the Manning vs Hazen-Williams Equation?”
People use both the Manning and Hazen-Williams equations to calculate water flow. But when is the right time to use each? Well, the Manning Equation is used for open channel or partially full sewers, while the Hazen-Williams Equation is used for full, pressurized circular pipe flow. Keep this information in mind when you think about When to Use The Manning vs. Hazen-Williams Equation.
The Hydroxyl Group
03/26/26
“What makes organic molecules covalently bonded with an oxygen-hydrogen pair so special?”
Functional groups come in many shapes and sizes. Any organic molecule covalently bonded with an oxygen-hydrogen pair is a part of The Hydroxyl Group. Hydroxyl group molecules are water-soluble, have high boiling points, and are often reactive.
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