Why Testing Sodium Hypochlorite Strength is Important in Soft Washing?

Image of a graph showing the degradation of sodium hypochlorite vs storage temperature.

Soft washing is essential for maintaining roofs and removing the damaging black streaks caused by Gloeocapsa Magma. The primary cleaning agent used in soft washing is sodium hypochlorite, which can degrade quickly due to various factors such as heat, low pH, exposure to UV light, and contamination. This degradation is a significant concern for soft wash applicators who must spray a precise percentage of sodium hypochlorite to clean different surfaces.

However, most soft wash applicators do not know their sodium hypochlorite strength or degradation level. They often over-spray chemicals, resulting in potential surface damage and harmful effects on landscaping.

Accurate sodium hypochlorite strength testing is essential, and Roof Shield offers easy, reliable, and repeatable testing that is easy to use in the field. This article will discuss the importance of testing sodium hypochlorite strength in soft washing and the need for an easy and accurate testing method.

Sodium Hypochlorite Degradation

Soft washing is the first step of the Roof Shield roof rejuvenation process, and sodium hypochlorite is the main active ingredient in soft washing. Sodium hypochlorite is an excellent cleaner used in industries worldwide. Its popularity derives from its proven, broad-spectrum action, is non-poisonous in low concentrations, and breaks down into harmless, naturally occurring products (salt, water, oxygen). The decomposition reaction is as follows:

2 NaOCl (Sodium Hypochlorite) → 2 NaCl (Sodium Chloride) + O2 (Oxygen)

Sodium hypochlorite is very reactive, which is one of the reasons it cleans so well. This reactivity also means it can degrade quickly depending on several factors. And as sodium hypochlorite in water degrades to saline, it also loses its effectiveness as a cleaner.

What Contributes to Sodium Hypochlorite Instability?

Heat is the primary factor that degrades sodium hypochlorite.

For example, the shelf life of 12.5% sodium hypochlorite decreases by approximately three times when the storage temperature is raised from 70° F to 85°F.

  • 12.5% SH at 70° F lasts about three months
  • 12.5% SH at 85° F lasts about a month
  • 12.5% SH at 100° F lasts about a week

Sodium hypochlorite storage in vans or trailers will cause exponential degradation due to extreme temperatures. A van in 85° weather can be 135° on the inside.

  • Vans get 50 degrees hotter than the outside temperature.

  • Trailers get 40 degrees hotter than the outside temperature

The following graphs show sodium hypochlorite degradation and how it relates to storage temperature:

Sodium Hypochlorite Degradation image
Sodium hypochlorite degradation vs. time.
Image of a graph showing the degradation of sodium hypochlorite vs storage temperature.
Sodium Hypochlorite Shelf Life vs. Storage Temperature

Other factors that degrade sodium hypochlorite.

  • Low pH – Lowering the pH will decrease the sodium hypochlorite in the solution and liberates free chlorine.
  • Sunlight – Exposure to UV light degrades sodium hypochlorite.
  • Contamination – Certain metals in the solution (e.g., nickel) will promote degradation.

With the degradation of sodium hypochlorite and soft wash applicators claiming to spray a precise % of sodium hypochlorite, typically 1% to 6%, to clean different surfaces from siding to roofs, it’s essential to know what the sodium hypochlorite strength is.

The problem with sodium hypochlorite testing

Most soft wash applicators do not know what percent of sodium hypochlorite they spray. They purchase sodium hypochlorite labeled with the percent that was present at manufacturing. Without the ability to test the strength of sodium hypochlorite and unaware of the actual sodium hypochlorite degradation that may have occurred, soft washers often spray a higher calculated percent than is required.

ARMA, Asphalt Roofing Manufacturers Association, recommends 3% sodium hypochlorite to clean roofs. So why do many soft washers swear they can’t clean at 3% and must use 6%? The answer is that many soft washers do not know how much their sodium hypochlorite has degraded since they purchased it. So they turn up their blend manifolds until the sodium hypochlorite ‘begins to work .’Effectively guessing at their actual application strength. And one of the significant problems with spraying with 6% is that it is much more likely to kill landscaping.

Using the standard testing method to determine sodium hypochlorite strength is not easy. Traditionally, “Sodium hypochlorite is titrated with standard thiosulfate solution to a colorless endpoint. The number of digits of thiosulfate required is proportional to the hypochlorite concentration in the original bleach sample.”

If you understand this, you must be a chemist.

A soft wash technician trying to ensure they have the right sodium hypochlorite strength should have a test that is easy, accurate, and repeatable. Roof Shield teaches all its applicators just this, a sodium hypochlorite test that is easy, accurate, repeatable, and simple to use in the field. We ensure our applicators effectively clean roofs without killing a homeowner’s landscaping. This test method is taught monthly in Roof Shield’s new applicator class and is just one of many advantages all certified Roof Shield Applicators employ.

If you would like further information on sodium hypochlorite testing, please contact us.

Darral Simmons

If you are a roofer, soft washer, or entrepreneur, Roof Shield is selling to and training applicators to service homeowners nationwide. Contact Roof Shield today to join the fast-growing roof rejuvenation and reconditioning sector.

To stay in touch with Roof Shield and always see our latest posts, like and subscribe our:

How Soft Washers Test Sodium Hypochlorite?

Demonstrating a mock sodium hypochlorite strength test in the field for soft washing and roof rejuvenation.

The short answer is that most soft washers do not test their Sodium Hypochlorite cleaning solutions. As a result, they apply much higher concentrations of SH than they should and run the risk of damaging plants, animals, and even the roof systems themselves. At Roof Shield, we make soft washing a science and teach all of our certified applicators how to test Sodium Hypochlorite easily in the field. Ensuring the roof cleaning is performed in the best and safest manner every time. Here is Roof Shield co-founder Darral Simmons with more:

If you are a roofer, soft washer, or entrepreneur, Roof Shield sells to and trains applicators to service homeowners nationwide. Contact Roof Shield today to join the fast-growing roof rejuvenation and reconditioning sector.

To stay in touch with Roof Shield and always see our latest posts, like and subscribe to our:

VIDEO – Why is My Roof Turning Black?

Unsightly black streaks, aka Gloecapsa Magma, on a roof before treatment by Roof Shield.

Check out the video below to find out what Darral Simmons, the co-founder and developer of Roof Shield’s roof rejuvenation product, Roof Reboot, has to say about those ugly black streaks on your roof. Scroll down after the video for more.

Learn how Roof Shield’s innovative treatment system eliminates algae and restores the look and performance of your roof. Watch our video now.

What are the black streaks on my roof?

The black stains on roofs are dead cells of a tiny, pesky microscopic creature called Gloeocapsa Magma, often referred to as blue-green algae and commonly mistaken for soot, dirt, or tree droppings. Gloeocapsa Magma is technically not algae but is a cyanobacterium or photosynthesizing bacteria that thrives in humid climates.

Why does Gloeocapsa Magma grow on my roof?

Modern asphalt shingles contain powdered limestone that blends well with liquid asphalt. Gloeocapsa magma loves to eat the calcium carbonate found in limestone.

Before the 1970s, limestone was not a component of shingles. Shingle manufacturers used felt paper as the base material instead. In the ’70s, manufacturers replaced the felt paper foundation with fiberglass and soon discovered the thin fiberglass mats would not absorb enough asphalt to meet the minimum requirements of weight per square. 

As a result, powdered limestone was blended with liquid asphalt to meet these requirements.

However, shingle manufacturers should have looked around at limestone buildings in the southern parts of the USA. Most of them harbor Gloeocapsa Magma which would now have a new surface to attack.

Are black streaks causing damage to my roof? 

YES.

Antidotal opinions claim that the black streaks on roofs are only cosmetic and do not cause damage. But the science says otherwise, and in fact, Gloeocapsa Magma is actively destroying limestone fillers found in modern asphalt shingles, resulting in increased shingle porosity. 

We can look at the ASTM E-96 Water Transmission test to validate this claim. 

ASTM stands for the American Society for Testing and Materials, known as ASTM International. ASTM is an organization that publishes production and testing standards for various industries, including asphalt roofing manufacturers. 

We use ASTM testing to show that Roof Shields’s roof rejuvenation process brings a 15-year-old shingle back to the same performance level as a new shingle. And using the Water Transmission test, we can show that a 15-year-old shingle has a water transmission of 29.5 Perms. In contrast, the same 15-year-old shingle, treated with Roof Shield’s asphalt shingle rejuvenator, Roof Reboot, has a water transmission of .029 Perms.

For context, a new shingle is .034 Perms, meaning that Roof Shield brings the Water Transmission of a 15-year-old shingle back to new and more.

And anything above 10 Perms is no longer considered a vapor barrier, meaning a 15-year-old roof allows water to transmit behind the shingles. And this water transmission is the result of years of limestone depletion and shingle thinning.

How to eliminate the black streaks on roofs?

ARMA, Asphalt Roofing Manufacturer Association, recommends using a 3% sodium hypochlorite solution to remove the black streaks through a process called soft washing. Although soft washing is a core component of Roof Shield’s ‘clean-restore-protect’ process, we do not recommend it as a stand-alone process. 

Referencing the previously discussed ASTM E-96 Water Transmission test that showed a 15-year-old roof was failing, removing any material on a failing roof could make the roof worse as the algae’s black top crust acts as a de facto roof layer.

The only way to remove the black streaks on a failing and then restore the shingle’s vapor barrier to new shingle performance is to apply Roof Reboot after soft washing, which is the last step of Roof Shield’s rejuvenation process.

By soft washing, and then applying Roof Shield’s shingle rejuvenator, Roof Reboot, asphalt shingles can be cleaned and restored to like new performance and look.

Please get in touch with us if you would like future information on black streaks on roofs.

Darral Simmons

If you are a roofer, soft washer, or entrepreneur, Roof Shield is selling to and training applicators to service homeowners nationwide. Contact Roof Shield today to join the fast-growing roof rejuvenation and reconditioning sector.

To stay in touch with Roof Shield and always see our latest posts, like and subscribe our: