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The process is very similar to the sour worting technique, except the wort is never pasteurized after it is soured. The all grain brewing process is the same for any all grain brewing process, except that after the boil the beer is only chilled to the recommended temperature for the Lactobacillus strain that the brewer is going to use. Using grain husks for souring with this method is not advised since the grain will stay in the fermenter during primary fermentation, and unwanted microbes on the grain husks would potentially have a longer exposure to the wort. Instead, the brewer should use a pure strain of [[Lactobacillus]]. As a result of not using grains to sour the wort, there is little concern of developing [[Butyric Acid]] or [[Isovaleric Acid]] with this method. There is also the option of [[Mixed_Fermentation#Reusing_a_Sour_Yeast_Cake|using a sour yeast cake]] from another sour beer as the bacteria inoculation.
Once cooled to the desired temperature (usually around 90-120°F or 32.2-48.8°C), the wort is racked to the primary fermenting vessel. Note that the wort should contain a low amount of IBU's when using this process since IBU's can inhibit many (but not all) species of [[Lactobacillus]]. Less Using no hops is a good approach to getting more acidity, but if hops are required then using less than 6 IBU's is a good guideline in general(consider mash hopping; mash hopping has been reported to reduce IBU's by 70% <ref>[http://www.homebrewersassociation.org/how-to-brew/resources/conference-seminars/ ''Putting Some Numbers on First Wort and Mash Hop Additions''. David Curtis NHC 2014 Presentation.]</ref>). It may or may not be advised to create a Lactobacillus starter (see the [[Lactobacillus]] page) before hand. Once the wort is racked to the primary fermenting vessel, the Lactobacillus culture is added directly to the fermenter. No other yeasts are added at this time. The Lactobacillus bacteria is allowed to incubate by itself in the wort for 2-5 days with the before mentioned target temperature maintained throughout the incubation period (some Lactobacillus species/strains may continue to produce acidity under lower temperatures). The exact time frame of incubation depends on the species/strain of Lactobacillus, the manufacturer's recommendation, and the brewer's desired acidity level. Acidity can safely be measured with a reliable pH Meter throughout this time. If possible, it is advised that the brewer fill the head space of the fermenter with CO2. Some brewers have reported that this helps to reduce sulfur production, but if Brettanomyces is added to the beer later on in the process and allowed to age, this shouldn't be a concern.
After the desired acidity level is reached from the incubating Lactobacillus bacteria, the brewer can crash cool the fermenter down to the temperature that is desired for the primary fermenting yeast. Both [[Saccharomyces]] and [[Brettanomyces]], or a blend can be used as primary fermenting yeast. Brettanomyces is often chosen because of it's higher tolerance of a low pH environment (3.4- pH <ref name="low ph">[http://www.homebrewtalk.com/f127/no-hop-berliner-weisse-415067/index3.html#post5280971 Michael Tonsmeire on HBT]</ref>), although many ''Saccharomyces'' strains have been successfully used (see the ''Souring in the Boil Kettle'' section above). If the chosen yeast requires aeration and the brewer has the ability, the sour wort should be aerated before pitching yeast. Brewers have had good luck using Fermentis dry yeast products in non-aerated wort. Re-hydrating the dry yeast as per the manufacturer's instructions and with a yeast nutrient such as Go-Ferm is effective <ref>[http://www.scottlab.com/product-102.aspx Go-Ferm]</ref>. The wort is then fermented out as normal. The brewer can consider other [[Brewing Methods]] such as pitching Brettanomyces, a mixed culture, or commercial sour beer dregs into secondary.