Alkaline pasta: Difference between revisions

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[http://en.citizendium.org/wiki?title=Alkaline_pasta&oldid=100857847 Version 1, 13 September 2018]
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{{Image|Alkaline Pasta1.jpg|left|212px|Rolling the dough through a pasta machine.}}
{{Image|Alkaline Pasta1.jpg|left|212px|Rolling the dough through a pasta machine.}}


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[[Harold McGee]], a well-known American food scientist and author, has drawn on the experience of such noted chefs as [[David Chung]], owner of the [[Momofuku]] line of restaurants, <ref>See a list, and explanation, of many exotic ingredients used by Chung at [http://www.alwayshungryny.com/thought-for-food/entry/alwayslearning-a-world-of-ingredients-from-david-chang/]</ref> and [[Fuchsia Dunlop]] of London, to outline a simple method by which home chefs can make alkaline noodles.   
[[Harold McGee]], a well-known American food scientist and author, has drawn on the experience of such noted chefs as [[David Chang]], owner of the [[Momofuku]] line of restaurants, and [[Fuchsia Dunlop]] of London, to outline a simple method by which home chefs can make alkaline noodles.   


A few tablespoons of ordinary [[baking soda]] are spread out in a thin layer on a cookie sheet and baked at 300° F (150° C) for an hour.  Baking soda is [[sodium bicarbonate]]; by baking it, water and carbon dioxide are exuded and what is left is alkaline—enough to cause discomfort if touched to the skin. In plain text, the chemical reaction is '''sodium bicarbonate (baking soda) + heat → sodium carbonate + water vapor + carbon dioxide gas'''.<ref>"[[Alkaline]] materials come in different strengths," writes McGee. "[[Lye]] is especially strong and corrosive because it's a simple combination of [[sodium]] and [[hydroxyl]]s. A weaker group of [[alkali]]s is the carbonates, which include baking soda. The carbonates don't contain hydroxyls. Instead they soak up protons, and release hydroxyls from water [[molecule]]s. Baking soda is [[sodium bicarbonate]], which already includes one [[proton]] and so has a limited ability to take up more. But if you heat baking soda, its molecules react with one another to give off water and [[carbon dioxide]] and form solid [[sodium carbonate]], which is proton-free."  The actual chemical formula for this is '''2 NaHCO<sub>3</sub> +heat → Na<sub>2</sub>CO<sub>3</sub> + H<sub>2</sub>0 + CO<sub>2</sub>'''.</ref>  Only a very small of amount of the resultant sodium carbonate is used in the preparation of McGee's pasta dish, just 1 teaspoon of it to 1-1/2 cups of semolina flour.  When preparing the pasta, the sodium carbonate is first dissolved in a small quantity of water, which is then slowly added to the semolina.  Afterwards, the kneaded dough is allowed to rest for an hour and is then rolled out very thin through a pasta machine and processed into the desired form of noodles. The unused portion of the sodium carbonate can be stored in a tightly sealed bottle and kept for future use.
A few tablespoons of ordinary [[baking soda]] are spread out in a thin layer on a cookie sheet and baked at 300° F (150° C) for an hour.  Baking soda is [[sodium bicarbonate]]; by baking it, water and carbon dioxide are exuded and what is left is alkaline—enough to cause discomfort if touched to the skin. In plain text, the chemical reaction is '''sodium bicarbonate (baking soda) + heat → sodium carbonate + water vapor + carbon dioxide gas'''.<ref>"[[Alkaline]] materials come in different strengths," writes McGee. "[[Lye]] is especially strong and corrosive because it's a simple combination of [[sodium]] and [[hydroxyl]]s. A weaker group of [[alkali]]s is the carbonates, which include baking soda. The carbonates don't contain hydroxyls. Instead they soak up protons, and release hydroxyls from water [[molecule]]s. Baking soda is [[sodium bicarbonate]], which already includes one [[proton]] and so has a limited ability to take up more. But if you heat baking soda, its molecules react with one another to give off water and [[carbon dioxide]] and form solid [[sodium carbonate]], which is proton-free."  The actual chemical formula for this is '''2 NaHCO<sub>3</sub> +heat → Na<sub>2</sub>CO<sub>3</sub> + H<sub>2</sub>0 + CO<sub>2</sub>'''.</ref>  Only a very small of amount of the resultant sodium carbonate is used in the preparation of McGee's pasta dish, just 1 teaspoon of it to 1-1/2 cups of semolina flour.  When preparing the pasta, the sodium carbonate is first dissolved in a small quantity of water, which is then slowly added to the semolina.  Afterwards, the kneaded dough is allowed to rest for an hour and is then rolled out very thin through a pasta machine and processed into the desired form of noodles. The unused portion of the sodium carbonate can be stored in a tightly sealed bottle and kept for future use.
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==References==
==References==
<references/>
<references/>
==See also==
*[[Chinese cuisine/Catalogs]]
*[[Italian cuisine/Catalogs]]

Latest revision as of 19:37, 30 September 2018

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Version 1, 13 September 2018


© Photo: Hayford Peirce
Rolling the dough through a pasta machine.
© Photo: Hayford Peirce
Making ravioli with a recipe from the Don Camillo restaurant in Nice.

Alkaline pasta, or alkaline noodles, is a variation of standard Chinese or Italian noodles in which a much higher than usual quantity of an alkaline component is part of the fabrication process. This is usually achieved by the introduction of sodium carbonate (Na2CO3 or sodium salt of carbonic acid) into the primary ingredients. In parts of China in which alkaline wheat noodles are common, traditional ones are made with alkaline water from wells. More commonly a mixture of sodium carbonate, which is also an anti-caking agent, and potassium carbonate is added directly. This mixture is what the Chinese call "jian" and what the Japanese call "kansui"; it is best known in the West for the ramen soup noodles from Japan that use it. [1] Sometimes kansui can also be a solution of sodium hydroxide.[2]

The addition of alkaline materials to such dishes as pasta makes them feel slippery in the mouth and on the fingers; they also develop a yellow color and are more elastic than ordinary noodles. Various flours such as ordinary all-purpose white flour, bread flour, and semolina flour can be used, with somewhat varying results. [1]'Noodles prepared in this manner are actually akin to the gelatinous Scandinavian specialty known as lutefisk, which uses lye, a far more powerful agent.

Noodles from Gansu Province in China include the chewy "hand-pulled" type, where the noodles are formed purely by hand, with no rolling or extrusion. Proper texture requires the addition of an alkaline ingredient called peng derived from certain ashes. Ash contains potassium carbonate, which makes the noodle dough softer and more tender by inhibiting the development of gluten. "Lan Zhou pulled noodles", even though the noodle makers may not be from Lan Zhou, the capital of Gansu, are becoming, according to the New York Times, "a catchphrase that signifies deliciousness everywhere, [like] 'Chicago pizza' or 'New York bagels'." [3]

Harold McGee, a well-known American food scientist and author, has drawn on the experience of such noted chefs as David Chang, owner of the Momofuku line of restaurants, and Fuchsia Dunlop of London, to outline a simple method by which home chefs can make alkaline noodles.

A few tablespoons of ordinary baking soda are spread out in a thin layer on a cookie sheet and baked at 300° F (150° C) for an hour. Baking soda is sodium bicarbonate; by baking it, water and carbon dioxide are exuded and what is left is alkaline—enough to cause discomfort if touched to the skin. In plain text, the chemical reaction is sodium bicarbonate (baking soda) + heat → sodium carbonate + water vapor + carbon dioxide gas.[4] Only a very small of amount of the resultant sodium carbonate is used in the preparation of McGee's pasta dish, just 1 teaspoon of it to 1-1/2 cups of semolina flour. When preparing the pasta, the sodium carbonate is first dissolved in a small quantity of water, which is then slowly added to the semolina. Afterwards, the kneaded dough is allowed to rest for an hour and is then rolled out very thin through a pasta machine and processed into the desired form of noodles. The unused portion of the sodium carbonate can be stored in a tightly sealed bottle and kept for future use.

© Photo: Hayford Peirce
Ravioli and fine "chitarra" or "guitar" noodles made from a small quantity of semolina, baked soda, and water.
© Photo: Hayford Peirce
Cooking a dozen ravioli, with warmed sauce made from braised oxtail ready to add.
© Photo: Hayford Peirce
The 12 finished ravioli, with a little sauce around them, and sherry vinegar, olive oil, and Parmesan cheese to sprinkle on them

References

  1. 1.0 1.1 The Curious Cook: Achieving a Distinct Flavor, Without Going to Extremes, by Harold McGee, in the New York Times "Dining" section of Wednesday, September 15, 2010, at [1]
  2. See footnote 41 of Section 23.2.4 at the magisterial The Future of Flour: Chapter 23, Section 23.2. Section 23.2 is an extensive discussion of Asian wheat noodles.
  3. Julia Moskin (25 January 2011), "The Long Pull of Noodle Making", New York Times
  4. "Alkaline materials come in different strengths," writes McGee. "Lye is especially strong and corrosive because it's a simple combination of sodium and hydroxyls. A weaker group of alkalis is the carbonates, which include baking soda. The carbonates don't contain hydroxyls. Instead they soak up protons, and release hydroxyls from water molecules. Baking soda is sodium bicarbonate, which already includes one proton and so has a limited ability to take up more. But if you heat baking soda, its molecules react with one another to give off water and carbon dioxide and form solid sodium carbonate, which is proton-free." The actual chemical formula for this is 2 NaHCO3 +heat → Na2CO3 + H20 + CO2.

See also