Wholesale Supplies Plus
Free Shipping*
Milky Way
Smart Labs
My Account Processing Times
1-3 Business Days
Author Biography:

Kevin Dunn  is the Elliott Professor of Chemistry at Hampden-Sydney College, and is the author of Caveman Chemistry and Scientific Soapmaking. Educated at the University of Chicago and the University of Texas, he now lives in central Virginia with his wife and several cats.

Water Discount in Cold Process Soapmaking
By Kevin Dunn Saturday, March 5, 2016
I have always wanted a grandfather clock. It's rather a silly thing to want in this day and age, when for less than $30 you can get a clock that will run on a battery for six months at a time and synchronize itself by radio signal to official atomic clocks guaranteed to be accurate to within an impossibly small fraction of a second. But the little kid in me has always wanted a grandfather clock, in spite of the more pragmatic adult I grew up to be.

Recently, however, a local furniture store went out of business and had a sale on grandfather clocks. 50% off. 50% off what, I wondered? The pragmatic adult imagined that whatever the price had been, they marked it up the day before they “discounted” it. But thanks to the miracle of the Internet, I was able to look up the official Manufacturer's Suggested Retail Price as well as the typical prices charged by other purveyors of unquestionably impractical timepieces. The “discount,” in this case, was real and provided my inner child the ammunition needed to get the outer adult to pry open his wallet. Long story short, I now wake up every morning to the sound of Westminster chimes, and the weekly raising of the weights has become a cherished ritual.
Everyone loves a discount, and soapmakers are no exception. We use tabulated saponification values to calculate the amount of sodium hydroxide that would be needed, in principle, to react with all of the oil in a batch. Because the oils we use are natural products, the actual saponification values of real-world oils may be a little higher or lower than the tabulated values. And because we would rather have a little unsaponified oil than a little excess sodium hydroxide, we discount the amount of sodium hydroxide to be something less than what was calculated from the tabulated values.
These tabulated values are not merely conventional. If we use more sodium hydroxide than called for, the soap will contain excess, unreacted sodium hydroxide. There is a direct, objective, chemical relationship between the amount of oil and the quantity of sodium hydroxide required to completely saponify it. There is no such relationship, however, between the amounts of oil and water, and consequently, the term “water discount” is a misnomer.
How did the notion of a water discount come into being? It could be argued that the modern handcrafted soap movement originated with Ann Bramson's 1972 book, Soap: Making it, Enjoying it. Bramson did not describe saponification values, but simply provided recipes much as you would find in a cookbook. The lye concentration varied from recipe to recipe from a low of 25% to a high of 29%, with an average of 27%. A generation of soapmakers started with these recipes, and the ratios of oil, sodium hydroxide, and water came to be accepted as “normal.”
Later books introduced saponification values for determining the amount of sodium hydroxide, but retained Bramson's water portions. Susan Cavitch's 1997 Soapmaker's Companion used lye concentrations between 26% and 29% with an average of 27%. Robert McDaniels' 2000 book, Essentially Soap, explored higher lye concentrations, ranging from 33% to 38% with an average of 34%. Anne Watson's 2007 Smart Soapmaking used lye concentrations between 30% and 37% with an average of 33%.
The practice of using higher lye concentrations (less water) has come to be called water discounting. But whereas sodium hydroxide is discounted from chemically-significant saponification values, water is discounted from “official” values that have only historical significance. A 30% lye concentration would be considered “discounted” if compared to those in Cavitch's book but not compared to McDaneils' only three years later.
Rather than speak in terms of a water discount, it would be better to talk in terms of lye concentration directly. At Hampden-Sydney, we make all of our lye at 50%--exactly half water, half sodium hydroxide. We are then free to work with any lye concentration we wish simply by adding extra water to the formula. For example, if a formula calls for 12 oz of sodium hydroxide, we will use 24 oz of our 50% solution. We can add as much or as little extra water as we wish. If we use no extra water, we have a lye concentration of 50%, producing what we call a “low-water” soap. If we add an extra 12 oz of water (half the weight of our 50% solution), it is as if we had used a lye concentration of 33%, producing a “medium-water” soap. And if we add an extra 24 oz of water (equal to the weight of our 50% solution), it is as if we had used a 25% lye concentration, producing a “high-water” soap. By this simple practice, we can master-batch our lye, yet have the flexibility to provide any water portion from the bottom of Bramson's range to well above Watson's.
If you want to dip your toe into the low-water pool, try the following simple formula: 38.0 oz of olive oil, 5.0 oz sodium hydroxide, and 5.0 oz of water. I think you will be surprised at how quickly it comes to trace and how hard it is the next day. The water content affects not only trace and hardness, but the behavior of the soap in the mold, the crystal structure of the finished soap, the time it takes to cure, and its properties in use. These effects will be the subject of the next installment of this column.    

Sign up for our newsletter
Get exclusive emails and offers!
1-800-359-0944 Get to Know Us Let Us Help You Savings Center
Monday - Friday
8:30AM - 4:00PM EST

About Us
Privacy Pledge
Return Policy
Terms & Conditions
User Agreement
Digital Media Takedown Policy

Contact Us
Frequently Asked Questions
Calculating Processing Times
Donate Your Change
Free Shipping Program
Off-Shore International Agreement
Adding To An Order
Fragrance Of The Month
Sale Calendar
Rewards Program
Safe Sale Guarantee
WSP Bulk Purchases
Copyright © 2016 WholesaleSuppliesPlus.com Inc. All Rights Reserved