Cooking perfect steak every time with out a char-grill

Here is that definitive about a technique that everyone should know, outlining what I think is the best way to cook a steak, indoors or out if you don’t have access to a huge hot char-grill like we do at Bistro Elba.

Remember that the most important thing to have in order to get a great result is amazing produce, we only use O’Connor’s day aged premium grass fed beef from Gippsland. You can buy it retail through either Mornington Prime Cuts on the Peninsula or at MEATSMITH in Fitzroy and St Kilda in the city.

The full history of the reverse sear is a little hazy (though AmazingRibs.comhas a pretty good timeline). It's one of those techniques that seem to have been developed independently by multiple people right around the same time. With all the interest in food science and precision cooking techniques like sous vide that cropped up in the early 2000s, I imagine the time was simply ripe for it to come around.

This way you get perfect steak every time with out a big fancy char grill like we have

This way you get perfect steak every time with out a big fancy char grill like we have

Why Should You Reverse Sear Your Steak?

It's called the reverse sear because it flips tradition on its head. Historically, almost every cookbook and chef have taught that when you're cooking a piece of meat, the first step should be searing. Most often, the explanation is that searing "locks in juices." These days, we know that this statement is definitively false. Searing does not actually lock in juices at all; it merely adds flavor. Flipping the formula so that the searing comes at the end produces better results. But what exactly are those better results?

More Even Cooking

The temperature gradient that builds up inside a piece of meat—that is, the difference in temperature as you work your way from the edges toward the center—is directly related to the rate at which energy is transferred to that piece of meat. The higher the temperature you use to cook, the faster energy is transferred, and the less evenly your meat cooks. Conversely, the more gently a steak is cooked, the more evenly it cooks.

Meat cooked at very high temperatures develops a thick, gray band that indicates overcooking.

By starting steaks in a low-temperature oven, you wind up with almost no overcooked meat whatsoever. Juicier results are your reward.

Better Browning

When searing a piece of meat, our goal is to create a crisp, darkly browned crust to contrast with the tender, pink meat underneath. To do this, we need to trigger the mallaird reaction, the cascade of chemical reactions that occur when proteins and sugars are exposed to high heat. It helps if you think of your screaming-hot cast iron skillet as a big bucket, and the heat energy it contains as water filling that bucket. When you place a steak in that pan, you are essentially pouring that energy out of the skillet and into the steak.

In turn, that steak has three smaller buckets that can be filled with energy.

  • The first is the temperature change bucket: It takes energy to raise the temperature of the surface of that steak.

  • Next is the evaporation bucket: It takes energy to evaporate the surface moisture from the steaks.

  • Third is the Maillard browning bucket: It takes energy to trigger those browning reactions.

The thing is, all of those buckets need to be filled in order. Water won't really start evaporating until it has been heated to 212°F (100°C). The Maillard reaction doesn't really take place in earnest until you hit temperatures of around 300°F (150°C) or higher, and that won't happen until most of the steak's surface moisture has evaporated.

Your goal when searing a steak is to make sure that the temperature and evaporation buckets are as small as possible, so that you can rapidly fill them up and move on to the important process of browning.

Pop quiz: Let's say you pull a steak straight out of the fridge. Which of those three buckets is the biggest one? You might think, Well, it's gotta be the temperature bucket—we're starting with a steak that's almost freezing-cold and bringing it up to boiling temperatures.

In fact, it's the evaporation bucket that is by far the biggest. It takes approximately five times more energy to evaporate a gram of water than it does to raise the temperature of that same gram of water from freezing to boiling. That's a big bucket!

to get the moistest possible results, you should start with the driest possible steak

Moral of the story: Moisture is the biggest enemy of a good sear, so any process that can reduce the amount of surface moisture on a steak is going to improve how well it browns and crisps—and, by extension, minimize the amount of time it spends in the pan, thus minimizing the amount of overcooked meat underneath. It's a strange irony that to get the moistest possible results, you should start with the driest possible steak.

The reverse sear is aces at removing surface moisture. As the steak slowly comes up to temperature in the oven, its surface dries out, forming a thin, dry pellicle that browns extremely rapidly. Want to get your steak to brown even better? Set it on a rack set in a rimmed baking sheet, and leave it in the fridge, uncovered, overnight. The cool circulating air of the refrigerator will get it nice and dry. The next day, when you're ready to cook, just pop that whole rack and baking sheet in the oven.

More Tender Meat

This one is not quite as obvious, but it can still make a detectable difference: enzymatic tenderization. Meat naturally contains enzymes called cathepsins, which will break down tough muscle protein. Their activity is responsible for the tenderness of dry-aged meat.

At fridge temperatures, cathespins operate very, very slowly—dry-aged meat is typically aged for at least four weeks—but, as the meat heats up, their activity increases more and more rapidly, until it drops off sharply at around 122°F (50°C). By slowly heating your steak, you are, in effect, rapidly "aging" it, so that it comes out more tender. Steaks cooked via traditional means pass quickly through that window, reaching the 122°F cutoff point too rapidly for this activity to have any real effect.

More Flexibility

When you're cooking steak at a high temperature, you have a very narrow window of time in which the center of that steak is a perfect medium-rare. A minute too short, and your steak is raw; a minute too long, and it's overcooked. With slow cooking, that window of time is greatly expanded, making it much easier to nail the right temperature time after time. Meathead Goldwyn, author of Meathead: The Science of Great Barbecue, likens it to shooting an arrow at a tortoise versus shooting at a rabbit: The slower it moves, the easier it is to hit.

How to Reverse Sear a Steak

The process of reverse-searing is really simple: Season a roast or a thick-cut steak (the method works best with steaks at least one and a half to two inches thick), arrange the meat on a wire rack set in a rimmed baking sheet, and place it in a low oven—between 95 and 135°C. You can also do this outdoors by placing the meat directly on the cooler side of a closed grill with half the burners on. Cook it until it's about 10 to 15°F below your desired serving temperature (see the chart at the end of this section), then take it out and sear it in a ripping-hot fry pan, or on a grill that's as hot as you can get it.

Then dig into the best-cooked steak you've ever had in your life.

You want it broken down step by step? Okay, here goes:

1. Season the Steak

Season your thick-cut steaks—I like ribeyes, but this will work with any thick steak—generously with salt and pepper on all sides, then place them on a wire rack set in a rimmed baking sheet. If you're cooking the steaks on a grill, skip the rack and pan.

For even better results, refrigerate the steaks uncovered overnight to dry out their exteriors.

2. Preheat the Oven

Preheat the oven to anywhere between 93 and 135°C. The lower you go, the more evenly the meat will cook, though it'll also take longer. If you have a very good oven, you can probably set it even lower than this range, but many ovens can't hold temperatures below 90 degree very accurately.

3. Slow-Cook the Steak

Place the steaks—baking sheet, rack, and all—in the oven, and roast until they hit a temperature about 10 to 15°F below the final temperature at which you'd like to serve the meat. A good thermometer is absolutely essential for this process.

If using the grill, just place the steaks directly on the cooler side of the grill, allowing them to gently cook via indirect heat. Timing may vary depending on the exact temperature that your grill is maintaining, so use a thermometer, and check frequently!

4. Sear the Steak

Just before the steaks come out of the oven, add a tablespoon of vegetable oil or other high-temp-friendly oil to a heavy fry pan then set it to preheat over your strongest burner. Cast iron works great, as does triple-clad stainless steel.

As soon as that oil starts smoking, add the steaks along with a tablespoon of butter, and let them cook, swirling and lifting occasionally, until they're nicely browned on the first side. This should take about 45 seconds. Flip the steaks and get the second side, then hold the steaks sideways to sear their edges.

To finish on the grill, remove the steaks and tent them with foil while you build the biggest fire you can, either with all your gas burners at full blast and the lid down to preheat, or with extra coals. When the fire is rip-roaring hot, cook the steaks over the hot side, flipping every few seconds, until they're crisp and charred all over, about a minute and a half total.

5. Serve

Serve the steaks immediately, or, if you'd like, let them rest for at most a minute or two. With reverse-seared steaks, there's no need to rest your meat as you would with a more traditional cooking method.

Temperature and Timing for Reverse-Seared Steak

For 1 1/2–Inch Steaks in a 120°C Oven

DonenessTarget Temperature in the OvenFinal Target TemperatureApproximate Time in Oven

Rare105°F (40°C)120°F (49°C) 20 to 25 minutes

Medium-Rare115°F (46°C)130°F (54°C)25 to 30 minutes

Medium125°F (52°C)140°F (60°C)30 to 35 minutes

Medium-Well135°F (57°C)150°F (66°C)35 to 40 minutes