Today’s guest blog is by our friend Craig “Meathead” Goldwyn
and from his great website AmazingRibs.com
Just typing the word makes my keyboard cower in fear of drool. Ribeyes are, in my humble opinion, the best steaks on the steer. And I am not alone. Chef Jamie Purviance agrees. Jamie is the well known author of several cookbooks, most recently the New York Times bestseller, Weber’s Way to Grill: The Step-by-Step Guide to Expert Grilling. Jamie graduated from Stanford University and the Culinary Institute of America (with high honors), and his byline appears regularly in Bon Appétit, Better Homes and Gardens, Cooking Light, Eating Well, Fine Cooking, Town & Country, and the Los Angeles Times. He da Man.
Da Man was in my kinda town, Chicago is, a town that loves its steaks, and we got together on a rooftop with a huge rib roast and two identical Weber Kettle charcoal grills to answer the kind of question that keeps steak lovers like us up all night: When is the best time to sear a steak, when you start cooking, or at the end of the cook? Here’s the theory:
Most beef lovers will agree that a dark brown exterior on a thick grilled steak carries with it extraordinary flavor and texture, and that steaks are their most tender and juicy when cooked rare to medium rare, to about 125 to 135°F in the center.
Searing, it has been proven, does not seal in juices, contrary to popular opinion. Juices can still escape by puncture or by evaporation. Searing does not weld muscle fibers shut. Searing is a method of developing spectacular flavor and texture when the Maillard reaction starts to alter amino acids on the surface and caramelization of sugars joins the party. Lots of grillers thrill when they get dark cross-hatched grill marks, but to steakmasters, grill marks leave a lot of real estate on the surface unseared, lacking flavor. To steakmasters, the perfect sear is a uniform whiskey brown surface with perhaps a little black charing of the fat on the edges. When that occurs, you have so changed the composition of the muscle and fat, that you have reached steak Valhalla.
Searing Test
Have some fun! Duplicate this experiment and tell me what happened.
I have since duplicated this experiment with identical steaks on a single Weber Kettle. I started the sear in the rear steak first because it takes almost twice as long.
This time I moved the sear in the rear steak to the hot side at about 110°F instead of 120°F as in the video, hoping to get a better sear.
By the way, In the video Jamie notes that the temp on the grills was about 500°F. I love my Weber Kettle, but I do not believe bimetal thermometers. I treat bimetals as indicators, not accurate gauges. Besides, the temp at the dome is a LOT cooler than at grate level, and remember, the indicator is measuring the average of the two zones. I’ll bet the meat was experiencing 700°F on the hot side with coals piled up and it was about 300°F on the indirect side.
This time the two steaks were almost identical in taste, texture, and juiciness, so either the enzymes need more time to work, or the longer sear time negated the tenderness the enzymes created.
More testing is needed!!!! Set up your own experiments. Invite your friends. Let me know what you learn.
The usual method is to get a grill rip-snorting hot on one side, and cooler on the other, the classic 2-zone setup. Then get that sear on the hot side and slide the steak to the cooler part of the grill so the interior can come up to temp without the exterior burning. Jamie calls this method Sear & Slide.
Food scientists have recently touted a new method that I call Sear in the Rear (some folks call it Reverse Sear). Here’s how it works: Defrost the meat if it is frozen. Take the meat out of the fridge about an hour before cooking time. Start cooking the meat on the cooler side of the grill, at 225 to 275°F, bring the meat’s internal temp up to 115 to 120°F, and then move it over the direct scorching heat to sear. Sear in the rear takes almost twice as long as sear & slide.
The theory is that there are enzymes in the meat called cathepsins that break down the connective tissues and, if given a chance to work, the meat will be more tender. These are the same enzymes that go to work during dry aging, another tenderizing scheme. They work slowly at refrigerator temps, and shut down at about 122°F. But they work well at room temp and up to 122°F. By bringing solid muscle meats out of the fridge to sit at room temp, we give them a chance to get to work tenderizing the meat. The process can be speeded along by cooking steaks at a low temp at first, say 225°F, rather than at high heat.
Well that’s all Jamie and I needed to plan a nice steak lunch! Dueling grills, dueling ribeyes cut from the same roast side-by-side. May the best steak win. Completely unrehearsed, watch the video above and see the surprising results.
If you have problems seeing the video below click HERE
.youtube::EnuKEFquBt0::