Serious Eats: Sweets

The Food Lab: Real Ice Cream Without an Ice Cream Machine

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This ice cream is the real deal. [Photograph: Kenji Alt]



Real Ice Cream Without the Machine


You can make ice cream without the machine: See the recipe here »

Like bicyclists who don't stop at stop signs and baths that aren't deep enough, unitasking kitchen tools are a major pet peeve of mine. Unfortunately a few of them* are absolutely required. Take the ice cream maker, for instance. Unless you want to sit whisking a bowl of custard over a salt and ice bath for a good half hour, there's no other way to make ice cream at home.

*Kitchen tools, not self-entitled bikers—who needs them?

Sure, I've seen the hacks, and I don't like any of 'em. There are the so-called "magic ice cream" recipes that have you fold whipped cream into an eggless base so that it doesn't form a solid block when you freeze it. There's a real name for fluffy stuff: it's called frozen mousse, and it's more akin to cool whip than real ice cream. I mean, it's called ice cream, not ice fluff, right? Ice cream needs to be dense, and it needs to be rich with egg yolks.

Then there are those recipes that simply take frozen fruit, mix it with a couple ingredients, and puree them in a food processor (bananas are a popular choice). These are better than the cool whip version, but they don't fool anyone: That's a thick smoothie, not ice cream.

When I say ice cream, I mean the real deal: Ice cream that's rich, smooth and creamy on the spoon. Ice cream that melts slowly into a luscious, tongue-coating custard. The kind of badass ice cream that makes lesser people feel guilty for eating it. The kind of ice cream worth getting out of bed in the middle of the night for. I mean real ice cream.

My goal this week: Keep the ice cream, lose the machine.

Breaking the Ice

My first test was destined to be a failure: I made a regular ice cream base by whisking 8 egg yolks with a cup of sugar, 2 teaspoons of vanilla extract, and a pinch of salt until it was pale yellow and ribbony. I then tempered it with 2 cups of hot heavy cream and 2 cups of hot milk. I cooked this base up to 180°F on the stove top, carefully whisking to avoid scrambling the eggs until it thickened into a glossy custard base.

Now normally, you'd chill this base and throw it into an ice cream machine to churn as it freezes. I decided to skip the machine, and throw it straight into the freezer to freeze on its own. A day later, and here's what I had:

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You can clearly see that the ice cream base has formed large crystalline structures. Rather than feeling creamy on the tongue, it tasted icy and wet. It also took some major force to hack a piece out of the nearly solid block of frozen custard.

So what exactly does churning accomplish? Well, as the ice cream freezes, its water component (milk and eggs are mostly water) has a natural tendency to form into large crystalline structures. Imagine the water molecules as individual blocks of Legos, and the freezer as an overzealous kid who really really wants to build them into a big castle.

Leave him to do his work, and the castle will be built in one large, tough-to-break structure. Churning the ice cream as it freezes prevents this structure from forming. Like trying to build a Lego castle in an earthquake, a few pieces may get stuck together, but not many.

So in order to make perfect ice cream, I'd need to figure out a way to either prevent these large crystals from forming, or to break them up after they do.

Easy, I thought. I'll just take that frozen brick of custard, cut it into pieces, throw it in the stand mixer, and churn it. As it slowly melts, the ice crystals should break up, then I can simply throw it back into the freezer and I'm good to go, right?

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Wrong.

What I ended up with was not smooth and creamy ice cream, but something more akin to a wet concrete with shards of broken glass.

So breaking up the shards was a fail. I'd need to find a way to prevent the crystals from forming in the first place.

What kinds of things can hinder the formation of larger ice crystals? Sugar helps by physically getting in the way of the water molecules as they try and crystallize (that's why low-sugar ice cream recipes turn out such bad results). Similarly, fat and milk proteins help by stabilizing the mix so that some air can be incorporated, loosening up the structure.

Increasing the amount of sugar was not an option, but what about increasing the proportion of fats and proteins to water? What if I were to use evaporated milk in place of the regular milk? That should reduce the water content, thereby increasing the proportion of fat and protein without drastically affecting flavor.

It was an improvement—enough that I'd use evaporated milk in all of my ice cream (hacked or regular!) from now on. But it still needed lots of work.

Overriding Overrun

Churning also does another thing: it introduces air to the mix. The amount of air incorporated to the mix is referred to in the industry as overrun, and is given as a percentage representing the total volume after churning over the volume of the unchurned base.

So, for example, say I started out with 2 cups of ice cream base and introduced enough air to the mix while churning to make 3 cups of frozen ice cream. That's 50% more volume added during churning, so the ice cream has an overrun of 50%.

In small amounts, overrun is a good thing. It keeps the texture looser and creamier. Most premium ice creams, like Häagen-Dazs, have an overrun of about 25% while cheaper brands, like Breyers, can have an overrun of as much as 94%. At this level, the ice cream melts much faster, and loses a lot of its richness.

What if I were to artificially incorporate some air before freezing? I knew that if I whipped some of the cream and fold it into the cooked ice cream base, I'd be flirting dangerously close to the "frozen mousse" territory that I wanted to avoid in the first place, but I decided to give it a go anyway and see what came of it.

The results were not stellar:

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The scoop on the left, weighing in at 1 ounce is a batch of the icy ice cream made by simply freezing the ice cream base without churning. The scoop on the right, weighing in at only 5/8ths of an ounce is the batch I made by whipping the cream until it doubled in volume before incorporating it. As you can see, its overrun is about 75%.

The good news: Less ice crystal formation. Turns out that by incorporating air into the mix, the water molecules are kept far enough apart from each other to prevent them from crystallizing.
The bad news: 75% overrun is better than Breyers, but that ain't good enough for me.

For my next attempt, I tried whipping only half of the cream before folding it in. This one came out with an overrun of about 33%, but still had a few shards of large ice crystals.

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Better, but still not good enough.

*Interestingly, the ice cream also comes out much paler. This is because when the ice crystals are further apart, rather than reflecting of a solid surface, the light waves refract through the small crystalline structures.

Fast Freeze

So how could I reduce both crystal formation and overrun even further?

A thought struck me: I knew that when freezing meat or fish, the more rapidly the food is frozen, the less cell damage there is due to ice crystal formation. Would speeding up the rate at which the ice cream base froze help me minimize crystal formation as well?

The rate at which a given volume changes temperature is dependent on the temperature of its surrounding environment, as well as the amount of surface area exposed to it. There's no way for me to get my freezer to get any colder, but as it turns out, there's a simple device that is custom designed to freeze liquids in your freezer as fast as possible: an ice cube tray.

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I made a new batch of ice cream base, this time pouring it directly into a couple of ice cube trays instead of quart containers.

It worked! This time, minimal crystal formation, and only 33% overrun. The only problem that remained was: who the hell wants to eat ice-cube shaped ice cream?

The solution was as simple as throwing the cubes into a food processor:

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In fact, whirling it in the Cuisinart gave me another distinct advantage. I could save the unwhipped portion, freezing just a base of eggs, sugar, evaporated milk, and whipped cream. This cut back on the water content of the mix, further reducing crystal formation. I could then add the cream and the cubes of ice cream directly to the food processor. By doing this, ice crystal formation went down to virtually zero, and I even managed to beat an extra 9% of air out of the ice cream with the cast moving blades, getting my overrun all the way down to just 24%. That's even less than the best commercial brands!

I finally had perfect, creamy, rich ice cream with no faking, no hacking, and no ice cream machine. Now if only I wasn't such a pack rat, I'd be able to throw my ice cream machine away.

Continue here for the recipe for Real Ice Cream Without the Machine »

Follow Kenji on Facebook or Twitter. About the author: After graduating from MIT, J. Kenji Lopez-Alt spent many years as a chef, recipe developer, writer, and editor in Boston. He now lives in New York with his wife, where he runs a private chef business, KA Cuisine, and runs the collaborative blog GoodEater.org about sustainable food enjoyment.

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