What You Need To Know About Wine Additives
What You Need To Know About Wine Additives
Did you know that there are a lot of wine additives
used to make
Most wine additives are safe, however, there have been a few notoriously famous cases of unsafe wine additives in the
past. Let’s get into the nitty gritty truth about wine additives and dispel some common wine additive myths.
Worst Case Scenario: A Wine Scandal!
In 1985, German wine quality control scientists discovered the presence of a commercial solvent, diethylene glycol, in
some of their low-end wines. Diethylene glycol is a sweet-tasting toxic chemical sometimes used in anti-freeze. After the
scientists discovered the chemical, they soon realized that the German producers were illegally blending Austrian wines with
While there were no reported casualties and the wines were pulled from the market, the media scare caused a long-term
fear in consumers over wine additives.
Don’t worry, wine additives are now more closely regulated and the national electronic archives maintains a list of
chemicals that are legally allowed for use in wine.
Common Wine Additives
Food products such as beer, juice and wine are unstable. Because of their volatile nature, processes have been developed
to stabilize food products such as homogenizing juice. In the wine world there are many different wine additives, some of
which have been used for hundreds of years with no ill effects.
The intention of these additives is not to adulterate the wine, but to stabilize it. Wines have the potential to last
longer when they are stable. Many of these aren’t really additives at all, instead they glom (with molecular attraction)
onto unwanted particles and are removed from the finished wine.
Sulfite sensitivity affects about 1% of the population. Wine usually has about 150 ppm of sulfur added whereas dried
fruit has 1000 ppm.
Sulfites are used to kill unwanted bacteria and yeasts in the winemaking process. Since 1987, American producers have
been required to mention the presence of sulfur if it exceeds 10 parts per million (ppm) in the finished wine. The EU
recently passed a similar labeling law in 2005.
The laws are designed to help protect the small percentage of people who are sensitive to sulfur and should not be
confused with the myth that sulfites in wine can give you a wine headache.
Yeast is a eukaryotic microorganism that turns sugar into alcohol. Different kinds of yeast greatly affect the flavor of
the resulting wine. Some winemakers prefer ambient yeast that is present on their winery equipment while other winemakers
create a custom cocktail of cultured yeasts. Each method has unique benefits depending on the wine variety.
Vitamins! Yeast benefits from vitamins, minerals or any chemical compound that helps keep the yeast alive in grape juice
during fermentation. For instance, Thiamine Hydrochloride is a B Vitamin which helps keep yeast happy in high alcohol wines
over 14% ABV.
Tannin is one of the 4 traits that makes wines age-worthy. Wine grapes are full of seeds which are very tannic. The seeds
are crushed with the grapes to add structure to wine. Oak aging also adds small amounts of tannin as the wine is exposed to
the oak wood.
Oak Chips Are More Sustainable It’s widely accepted in Europe to use oak chips and tannin powder in wine. While oak
chips are not as romantic as a room full of oak barrels, they are better for forests and are cheaper to transport.
Chaptalization is the process of adding sugar to grape juice in order to increase the final alcohol level in the finished
wine. Adding sugar doesn’t make a wine sweeter because the sugar is consumed by the yeast when it is fermented into alcohol.
Chaptalization can add up to 3% ABV to a wine. It is legal in areas where grapes struggle with ripeness, such as Bordeaux,
France and Oregon.
Illegal in Some Areas! Adding cane sugar is not legal in California, Argentina, Australia, Southern France and South Africa.
can add sugar rich grape concentrate to simulate the same results, as the
use of grape concentrate is not considered chaptalization.
5. Fining & Clarification
After a wine has been freshly fermented it goes through a period of stabilization. The chemicals added during this
process are designed to pull unwanted characteristics out of the wine. For instance, copper sulfate is added to remove free
sulfur in a wine. The copper has the same effect as putting a penny in wine to remove undesirable smells. Afterwards the
copper sulfate is removed from the wine.
Why Are There Non-Vegetarian Wine Additives?
For many hundreds of years in Italy and France, winemakers would add an egg white or two to a large barrel of wine. The
proteins in the egg white would bind to free proteins suspended in the wine. After a short wait, the egg white and free
proteins would precipitate out of the wine and drop to the bottom of the barrel. Winemakers would strain the clear wine off
the top and leave the sludge. This process is called Fining and Racking. Nowadays, there are more advanced ways of achieving
the same results including numerous microbial products (read: totally vegetarian!) that perform the same function.
COVID-19 Impact on the Electronic wet chemicals Market
The global wet electronic chemicals
major Tier I and II suppliers like Avantor Inc, BASF SE, Cabot Microelectronics, Honeywell, and Kanto Chemical Co. Inc. These
suppliers have their manufacturing facilities spread across various countries across Asia Pacific, Europe, North America,
South America, and Middle East & Africa. COVID-19 has impacted their businesses as well.
These players have announced the suspension of production due to the lowered demand, supply chain bottlenecks, and to
protect the safety of their employees in the US, France, Germany, Italy, and Spain during the COVID-19 pandemic. As a result,
the demand for electronic wet chemical sis expected to decline in 2020. Manufacturers are likely to adjust production to
prevent bottlenecks and plan production according to demand from tier 1 manufacturers.
Electronic Wet Chemicals: Market Dynamics:
Driver: Technological advancements in the electronics industry
Market penetration of electronic wet chemicals has risen in the electronics and semiconductor industries. They are
increasingly used in modern technology industries such as new energy, modern communications, computers, information network
technology, microcomputer mechanical intelligence systems, industrial automation, and home appliances.
Electronic wet chemicals are ultra-pure nature due to which they are extensively used in cleaning and etching application
during semiconductor production and processing. The recent commercialization of nano-based devices has boosted the market
potential for photoresist and etching chemicals with various technological advancements. Also increase in the use of
semiconductors and integrated chips in manufacturing of electrical components gives rise to the electronic wet chemicals
market in the estimated period. Therefore, rise in the demand for building electrical components due to various technological
advancement in the electronics industry is predicted to be the major driving factor for the electronic wet chemicals market
in the estimated period.
Like other industries, the pulp and paper industry (referred to in the rest of this paper as ''the
has come under increasing scrutiny for its potential environmental impacts. More than many other industries,
however, this industry plays an important role in sustainable development because its chief raw material—wood fiber—is
renewable. The industry provides an example of how a resource can be managed to provide a sustained supply to meet
society's current and future needs. Pulp and paper additives
also plays an important role in this industry.
This paper looks at the U.S. industry's current experience and practices in terms of environmental stewardship,
regulatory and nonregulatory forces, life cycles of its processes and products, and corporate culture and organization. It
describes near-term expectations in these areas and examines opportunities for overcoming barriers to improvement. It also
provides an industry perspective on the most significant environmental issues of historical and future importance. Although
the emphasis here is on complexity, shortcomings, and barriers, the industry has, in fact, continually improved its
environmental performance while increasing its business. The problem areas are given more emphasis to highlight some of the
challenges to be addressed.
The global metal surface treatment chemicals market is expected to reach an estimated $5,211.3 million by 2024 with a
CAGR of 3.9% from 2018 to 2024.
The future of the metal surface treatment chemicals market looks promising with opportunities in the automotive,
electrical and electronics, construction, packaging, and aerospace markets. The major growth drivers for this market are
growing automotive production and increasing residential and commercial infrastructure.
Emerging trends, which have a direct impact on the dynamics of the metal surface treatment chemicals industry, include
replacement of phosphate conversion coatings with zirconium-based conversion coatings, and multiplex surface treatment.
The report forecasts that conversion coatings will remain the largest chemical type and it is expected to witness the highest
growth over the forecast period due to its improved corrosion resistance, wear resistance, adhesion, aesthetic appearance,
and lubricative properties.
Within the metal surface treatment chemicals market, automotive will remain the largest application driven by increasing
automotive production and need for corrosion protection chemicals. The report predicts that the construction application is
expected to witness the highest growth over the forecast period supported by growth in the residential and commercial
Asia-Pacific is expected to remain the largest region and witness the highest growth over the forecast period due to growth
of construction sector and rapid industrialization in developing countries.
Some of the metal surface treatment chemicals
companies profiled in this report include PPG Industries, Henkel AG & Company, KGaA, Platform Specialty Products Corporation,
Quaker Chemical Corporation, Nippon Paint Holdings Co, and others.
Market size estimates: Global metal surface treatment chemical market size estimation in terms of value ($M) and volume
(M Lbs.) shipment.
Trend and forecast analysis: Market trend (2013-2018) and forecast (2019-2024) by end use and use industry.
Segmentation analysis: Global metal surface treatment chemical market size by type of application, chemical, and product
form in terms of value and volume shipment.
Regional analysis: Global metal surface treatment chemical market breakdown by key regions such as North America, Europe,
and Asia & Rest of World.
Growth opportunities: Analysis on growth opportunities in different applications and regions of metal surface treatment
chemical in the global metal surface treatment chemical market.
Strategic analysis: This includes M&A, new product development, and competitive landscape of metal surface treatment
chemical in the global metal surface treatment chemical market. Analysis of competitive intensity of the industry based on
Porter's Five Forces model.