Welcome to Stella Culinary's How to Cook Video Index. To get started, select one of the video categories from above, or browse by most recent below.
To get the most from these videos, it is highly recommended you listen to the Stella Culinary School Podcast, which many of these videos are produced to supplement. If you have any questions while working your way through the Stella Culinary content, you can Ask Chef Jacob or post it to our friendly community forum.
In this video I explain how to convert any bread recipe into a sourdough formula. If you're new to sourdough bread baking, please consider the prerequisites listed below before watching.
Cooking at altitude can be intimidating for the uninitiated, but once you understand the basic underlying science, you'll never need another high altitude cook book again.
In our previous video we talked about what agar is, some of it’s properties, and why you may or may not want to use it. In this video we’re going to go over how to create an agar gel and some of it’s common pitfalls.
Agar comes in the form of a white powder, and its use percent ranges from .2% (to set a standard gel) to .5% (for a firm gel), calculated based upon the liquid’s weight.
Example:
1,000g Base Liquid
X.002 (.2%)
_________________
= 2g Agar to set a standard gel.
As with gelatin, agar is a hydrocolloid, meaning it can suspend or trap water, but to ensure a satisfactory outcome, it needs to be properly hydrated and dispersed.
The typical hydration procedure for agar is to first dissolve it into the liquid you want to gel by whisking, bringing the liquid to a simmer, and simmering for 4 minutes. At the end of four minutes, blend for 15-30 seconds using an immersion blender, strain, and allow to set. The added shearing power of an immersion blender will ensure even dispersion and proper hydration.
Although a standard blender can be used for dispersion (after the agar gel is simmered for 4 minutes), the rapid speed of the blender blade will incorporate extra air, which can then become suspended in the gel as it sets. These air pockets will reflect light, giving the gel an opaque appearance, instead of clear.
As we talked about in our last video, agar’s setting temperature is 95°F/33°C, and will set rapidly at this temperature. This makes agar extremely convenient to use as a gelling agent when you don’t have time to wait for gelatin to set, which takes anywhere from 12-24 at 59°F/15°C or below.
Common Agar Pitfalls
Agar is fairly easy to use, but there are some common reasons why a gel will fail or not perform as desired:
Improper Hydration: Make sure the agar is simmered in your base liquid for at least 4 minutes and then mixed with an immersion blender before straining and allowing to set.
Syneresis: Agar gels will “weep” or “leak liquid,” causing the gel to dehydrate and not perform as expected, especially when using it to set a terrine that will later be unmolded. This can be counterbalanced by the addition of .1% locust bean gum, calculated by the weight of the liquid being gelled.
Prolonged heating outside of the pH range of 5.5-8, although this is a less common problem. When we make our winter citrus terrine at Stella, with a pH of 3.2, the agar is still simmered in low pH citrus juice for 4 minutes to fully hydrate, without any adverse affect on the gel setting.
Tannic acid (commonly found in red wine and tea), in a known inhibitor of agar gels, but can counter balanced by the addition of 1% glycerol, based on the liquid’s weight.
If left uncovered, agar gels will dehydrate, causing them to loose moisture, which will adversely affect the gel’s texture. However, agar will swell in the presence of moisture, meaning gels can be rested in liquid containing a complimentary flavor, preserving its texture and enhancing it’s taste.
What Is Agar Good At?
Unlike gelatin, agar allows you to create vegetarian/vegan gels (since it’s seaweed based), will work in acidic environments, can tolerate high alcohol percentages (about 40%), and is resistant to proteolytic enzymes found in some fresh fruits including kiwi, papaya, pineapple, peach, mango, guava, and fig.
Basic Citrus Terrine Formula:
Because I used the example of the citrus terrine multiple times in our two agar videos, I’ve listed the formula and process below for reference. Please not that a working knowledge of calculating recipes based on the baker’s percentage is assumed.
100% Citrus Supremes and Juice
10% Sugar
1% Salt
__________________________________________________
Add together the weight of above ingredients and then calculate the following:
.3% Agar (To set the gel)
.1% Locust Bean Gum (To keep agar gel from weeping)
___________________________________________________
Drain liquid from citrus supremes.
Combine in a pot with agar and locust bean gum.
Bring to a simmer, simmer for 4 minutes, and then blend with an immersion blender.
Heat citrus supremes in an oven or over a steamer to about 100°F/38°C. This is to keep the agar liquid from setting as soon as it hits the otherwise cold citrus segments.
Combine hot agar liquid with warm citrus supremes in a mixing bowl, gently fold together, and place in a terrine mold lined with plastic wrap.
Optional: place a flat tray on top of the terrine with weights. The pressure will cause the terrine to compact, yielding a more even texture.
Allow to set in the refrigerator overnight.
The next day, un-mold terrine, slice and serve.
Note: The terrine can be pre-sliced and allowed to set in a flavored liquid to increase water retention and enhance overall taste. A good example would be apple or orange juice flavored with fresh vanilla bean, toasted spices, etc. The terrine will then swell with this liquid, giving it extra flavor and a “juicy” mouthfeel.
Agar Spherification
Place a large, tall container of neutral flavored oil (like canola) in the freezer, until it starts to thicken, but pull before it solidifies (about 2-3 hours).
Fill a squeeze bottle with hot agar liquid, and drip into chilled oil. As the agar drops to the bottom of the oil, it will gel into the form of a sphere.
Pass oil through a strainer to remove agar spheres, rinse under cold water, and store in flavored liquid.
Agar Fluid Gel
Set liquid with .3% agar by weight.
Blend smooth in a blender, using an auger to move chunks around until it is evenly blended. Additional liquid or water can be added during the blending process to thin if necessary.
Pass through a fine mesh strainer and reserve in an airtight container.
This “fluid gel” will have the consistency of a medium body mayonnaise, but will have a pure flavor, since the added viscosity is achieved by using a small amount of agar.
Conclusion
As you can see, agar can be used to achieve certain things gels and textures that simply isn’t possible with gelatin. For a complete break down of the difference between agar and gelatin, please watch the final video in this series, “Agar and Gelatin Compared.”
Further Information
Although agar has only recently emerged as a common gelling agent in modern western kitchens, it has been used in asian countries for centuries as their go-to gelling agent. A polysaccharide derived from red algae, agar is a great alternative to gelatin when a vegan or vegetarian gel is needed, or when attempting to gel liquids that normally will break down gelatin because of low pH, high alcohol, or proteolytic enzymes in fresh fruits.
One of the unique qualities of an agar gel is “hysteresis,” meaning there’s a large differential between agar’s setting and melting temperature (95°F/33°C and 175°F/80°C respectively). This makes it possible to serve a warm gel using agar, something that isn’t possible with traditional gelatin based gels.
Agar also sets rapidly above room temperature (95°F/33°C), within a matter of minutes, as opposed to gelatin, which takes 12-24 hours to fully set, once it’s core reaches 59°F/15°C.
The appearance of an Agar gel can range from clear to opaque, depending on what’s being gelled and the quality of the agar, and has a texture that ranges from firm to brittle. If too much agar is used to set a gel, the texture can become “crumbly” and unpleasant, especially since the heat from our mouth is well below it’s melting point.
However, an agar gel can be made less brittle and given an elastic texture with the addition of sorbitol or glycerol, usually around 1% by the weight of the entire gel being set.
One of the big advantages to using an agar gel is its low pH tolerance, with a range of 2.5-10. This makes it possible to set acidic terrines and gels, and is what we used last winter to create a seasonal citrus terrine with a pH of 3.2. This could not be achieved by using gelatin with its pH tolerance of 4-10.
Agar can also create what’s called a “fluid gel;” in this application it’s first allowed to set, and then blended smooth in a blender. When transforming a liquid with the viscosity of water into a fluid gel, usually .3% agar is added (based on the liquids weight), hydrated, allowed to set, and then blended smooth.
For more information, please refer to our next post in our Agar series, “How to Create an Agar Gel Plus Common Pitfalls.”
Further Links
Consommé...the old school Frenchy soup with crystal clarity and robust flavors that dwells in the nightmares of culinary school students around the world. While feared and loathed for it’s finicky nature by young cooks, consommé really isn’t scary once you understand the basic concepts behind making it, and how a clarification raft works.
Welcome to our gelatin resource page, we're you'll find everything you ever wanted to know about gelatin, and probably much more. Warning, the lecture videos listed below are extremely geeky and not for the faint of heart. But if you want to have a firm grasp on the properties of gelatin gels and how to use them, then this three part video series is for you. I've also included a gelatin infographic for your referencing pleasure.
Mashed potatoes are classic comfort food 101. To the untrained eye they can appear deceivingly simple, but the best mashed potatoes require proper technique, a decent fat to potato ratio, and being aware of common snares that trip up the uninitiated along the way. By the time you're done watching the above video and reading through this article, you'll be able to whip up a great batch of mashed potatoes every time, whether you're creating a simple Sunday Super, or bringing the thunder on Thanksgiving.
In it’s most basic form, braising consists of a tough cut of meat with a lot of connective tissue, combined with liquid, aromatic vegetables and fresh herbs; this mixture is then cooked in a low oven until they becomes tender. The connective tissue responsible for the chewy texture is collagen, which is a triple helix of gelatin. When moisture along with slow, steady heat are applied, the triple helix unravels into three individual gelatin strands, leaving gaps in the muscle tissue it used to bind together, giving the impression of tenderness.
Although hand washing is a seemingly simple task, there is a specific process required for hand washing in a professional kitchen. This helps to cut down on the transfer of food born illness, especially when cooking for someone else.
Remember, it's important to wash your hands in all of these circumstances:
Before -
Starting work or the cooking process in general.
Handling any ready to eat food.
After -
Using the restroom.
Coughing and Sneezing.
Touching your hair, face or mouth.
Smoking.
Shaking hands or touching another person in general.
Working with raw meat (before you touch any other food).
Anytime your hands feel dirty, grimy, or have touched a surface that lots of other people touch (door nobs, handles, etc.).
Remember that wearing gloves is no substitute for hand washing. You must first wash your hands before and after gloves are used to ensure proper hygiene and professional level sanitation.
Oven roasted potatoes are one of my favorite, go-to side dishes when cooking at home. In this particular technique, we first blanch the potatoes using a cold water start (just like we would with any other root vegetable) and then roast in a hot oven until golden brown.
