WHAT IS LOW VOC AND WHAT ARE THE BENEFITS?

The global low VOC paint market was valued at USD 6,719.72 million in 2017, according to Mordor Intelligence, and an increase of 6.45% is expected by the year 2023. So, if you aren’t yet manufacturing or selling low-VOC products, now is a great time to start.

But, what is low-VOC, and why are consumers increasingly choosing to buy low-VOC products? In this guide, we’re going to look at the ins and outs of this. We’ll explain why VOCs are hazardous, what kinds of products can fall into this category, why low VOC products are becoming increasingly popular. Read on to learn everything you need to know.

What does VOC stand for?

VOC stands for “volatile organic compound”. The term refers to a class of chemicals that begin to vaporise under typical indoor temperature and pressure conditions. Common VOCs include benzene, formaldehyde, toluene, flammable alcohols, household cleaning solvents, gasoline, and other liquid combustion fuels.

VOCs are present in a whole host of products, including paint, carpet, air fresheners, make-up, and even magazines. Some are more toxic than others but, as a general rule, everyone should be looking to limit their exposure to VOCs — and manufacturers need to think very carefully about this during their production processes. If you can reduce your customers’ exposure to these chemicals, it’s important that you do.

What is low VOC?

In the UK, we have The Volatile Organic Compounds in Paints, Varnishes and Vehicle Refinishing Products Regulations 2012, which are in place to control the VOC content of the products that are manufactured and sold here. While these regulations prevent the likes of paints and varnishes with particularly high levels of VOCs from making their way onto shelves, they don’t call for all products to be low VOC. But, they do require manufacturers to label their products in a way that allows consumers to determine the VOC levels of the items they buy. All VOC content levels fall into one of five classification bands:

  • Minimal: VOC content of 0–0.29%
  • Low: VOC content of 0.3–7.99%
  • Medium: VOC content of 8–24.99%
  • High: VOC content of 25–50%
  • Very high: VOC content of more than 50%

What are the benefits of using low VOC products?

There are a number of reasons why manufacturers should be looking to make — and consumers should be looking to buy — low VOC products. Here, we’re going to look at some of the main benefits of making the switch.

They can help to improve the air quality

Poor air quality can have a detrimental effect on the public’s health, as well as the environment. And, because VOCs evaporate, subsequently transferring harmful chemicals into the air, using products with high VOC levels can be dangerous.

What’s more, the US Environmental Protection Agency has found that, on average, the presence of organic (carbon-based) pollutants are two to five times higher indoors than they are outside. This means consumers and manufacturers need to be thinking more carefully about the chemicals that are being brought into the UK’s homes and public buildings.

They are better for the environment

Of course, as well as having a negative impact on the public’s health, poor air quality caused by products with a high VOC content can also cause damage to the environment. If everyone was to make more of an effort to make and use low VOC products, this could help to reduce the overall levels of air pollution both indoors and outdoors. And, it’s becoming increasingly important that manufacturers, retailers, and consumers take responsibility for this.

Creating more environmentally-friendly products is good for business, too. A third of consumers prefer to shop with companies that are doing social or environmental good, according to a report from Unilever. So, if you can show that you’re manufacturing or selling products that are better for the environment than some others on the market, it’s likely you’ll attract more customers.

They have a subtler odour

Products that have a high VOC content tend to have a strong odour — think fresh paint or extra-strength cleaning products. This can often be overwhelming, and the fumes that cause these strong odours can cause headaches. This means, now that there are low VOC variations on the market, more and more people are looking to buy products that won’t give off the strong fumes and odours that they’re used to.

Manufacturing and selling low VOC products will benefit your customers, the environment, and possibly even your bottom line. So, if you haven’t already, now is a great time to expand your product offering with some new low VOC options.

MAIN LOW VOC SOLVENTS PRODUCTS

Our locations

Address Chemoxy, Road 11 CF Fertilizer Process Park
TS23 1PY Billingham
Business Line Specilaty Ingredients
Phone +44 1642 248555
Market Cosmetic / Custom Manufacturing / Solvent Revovery / Own products
Email info.CS@seqens.com
More information

Surface: 42, 000 m²

Capabilities:

  • 4 reaction vessels (316 L and Duplex 2205) of 25-35 m³ capacity with associated distillation columns of 6-30 plates
  • Glass lined reaction vessel (14 m³)

Flagship technologies:

 Primary Reactions

  • Esterification
  • Etherification
  • Epoxidation
  • Methylation/Methyl chloride capping
  • Quaternisation
  • Transeterification.

Secondary reactions

  • Acetal formation
  • Acetylation
  • Aldol condensation,
  • Alkylation
  • Diels-Alder
  • Hydrolysis
  • Isomerisation
  • Oxidation
  • Polymerisation

Solvent Recovery

  • Alcohols,
  • Amines
  • Aromatic solvents
  • Esters
  • Glycols
  • Ketones
  • Organic acids

Certifications:

Address Chemoxy, All Saints Refinery, Cargo Fleet Road, Cleveland,
TS3 6AF Middlesbrough
Business Line Cosmetic / Custom Manufacturing / Solvent Revovery / Own products
Phone +44 1642 248555
Market Specialty Ingredients
Email info.CS@seqens.com
More information

Surface: 68, 000 m²

Capabilities:

  • 48 plate distillation column
  • 18 plate distillation column
  • 4 reaction vessels (316 L and Duplex 2205) of 25-30m³ capacity with distillation columns attached (6-30 plates)

Flagship technologies:

 Primary Reactions

  • Esterification
  • Etherification
  • Epoxidation
  • Methylation/Methyl chloride capping
  • Quaternisation
  • Transesterification.

Secondary reactions

  • Acetal formation
  • Acetylation
  • Aldol condensation,
  • Alkylation
  • Diels-Alder
  • Hydrolysis
  • Isomerisation
  • Oxidation
  • Polymerisation

Solvent Recovery

  • Alcohols,
  • Amines
  • Aromatic solvents
  • Esters
  • Glycols
  • Ketones
  • Organic acids

Certifications: