Wine Application Notes
Benefits of the IQ Benchtop/ Portable ISFET pH meters:
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Rugged- no glass to break |
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Portable- can be used in lab, field or production
areas |
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Easy to use- no maintenance and stores dry
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Easy to clean- with toothbrush and detergent
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Long-lasting- 15,000-20,000 tests typically |
pH is a fundamental element of the wine-making industry.
pH strongly influences wine properties such as color, oxidation,
biological and chemical stability. The IQ
benchtop and handheld ISFET meters are
accurate and reliable tools for measuring wine pH.
pH measures the quantity of acids present, the strength
of the acids, and the effects of minerals and other ingredients
in the wine. Wine pH depends on three main factors: the total
amount of acid present, the ratio of malic acid to tartaric
acid, and the amount of potassium present. Wines that contain
little acid and excess potassium show high pH values. Wine
with more tartaric acid, less malic acid, less potassium
and more titratable acid has lower pH values.
pH values range from 2.9 to 4.2 in wine. Wine’s chemical
and biological stability are very dependent on pH value.
Lower pH values are known to improve the stability, so winemakers
usually prefer a pH range of 3.0 to 3.5. The wine is so stable
in this range that many winemakers believe pH is a crucial
guideline in wine making.
There are many advantages to low pH values in wine. Low
pH inhibits bacteria, causes sugar fermentation to progress
more evenly and makes malolactic fermentation easier to control.
Low pH also has a direct influence on the hot stability of
wine. When bottled wines are stored in warm areas, protein
precipitates out of them, causing serious problems. These
wines are then treated with bentonite, which removes excess
protein. pH is important to the treatment because bentonite
successfully removes more protein when the pH value is low.
If wine pH increases, bentonite is less effective, making
it necessary to add larger amounts. The danger is adding
too much bentonite because it can strip wines of their unique
aromas and flavors.
An example of the importance of low pH is displayed with
Sauvignon Blanc. Sauvignon Blanc grapes normally have large
amounts of protein, so they can be difficult to sufficiently
stabilize when pH values are too high.
Low wine pH results in better visual qualities as well.
When pH is lower, both red and white wines maintain better
color intensity. Red wines have more and better color and
white wines do not brown as easily.
When wine has high pH values, bacteria grow rapidly and
undesirable bacterial fermentation is more problematic. This
condition causes less biological and chemical stability,
and poorer color. Wines with a high pH always need more attention
and greater care.
Refer to the table below as to the effects of pH levels
on wine quality:
| Wine Characteristic |
Low pH Range (3.0-3.4) |
High pH Range (3.6-4.0) |
| Oxidation |
Less |
More |
Amount of color
|
More |
Less |
| Kind of color |
Ruby |
Browner |
| Yeast Fermentation |
Unaffected |
Unaffected |
Protein Stability
|
More stable |
Less Stable |
Bacterial Growth
|
Less |
More |
| Bacterial Fermentation |
Less |
More |
As you can see, pH measurement is very important to the
process of wine making. In order to ensure the best quality,
use IQ benchtop and handheld ISFET meters with stainless
steel probes. Conventional probes have glass bulb sensors,
which are easily clogged by the chemical ingredients of wine.
Clogging causes unstable and incorrect pH readings. The IQ
silicon chip sensor eliminates this problem. Our probes have
no glass to break and maintain high accuracy and fast response
times. The sensors are easy to clean with a toothbrush and
detergent. Don’t waste
your time maintaining delicate sensors. IQ guarantees rugged
and reliable pH measuring equipment to improve your wine
quality. One probe also features a piercing tip for measuring
at the grape level of processing.
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