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The Spoon

Daily news and analysis about the food tech revolution

low tech

3 Low-Tech Solutions That Could Impact a High-Tech Food Industry

Innovative food-related gadgets and practices don’t always have to rely on things like sensors, apps, and machine learning to have a positive impact. In fact, in some parts of the world, these “low-tech” (that is, technologically simple) solutions are often all that’s needed to prevent waste, improve farming practices, and even boost the local economy.

That is to say that low tech, while maybe not as alluring as, say, using sensors to save the bees, plays a bigger role in advancing food than one might initially think. Their simplicity is effective, and often just as interesting, or at least thought provoking, as a high-tech alternative.

Consider fermentation, specifically as a way to curb food waste. Instead of just chucking food that’s about to decay (or selling it at a discount on a digital marketplace), some countries turn to a kind of “controlled decay” through fermentation. This isn’t new. The idea of preservation through decay has been around for thousands of years. And around the world, it’s still a food preservation practice.

This post gives a pretty good rundown of some of the delicacies you can find in Vietnam that exist due to preserving food through fermentation, including rượu nếpwhich many Vietnamese believe kills parasites. There’s also fish sauce — the kind you’ll find on restaurant menus anywhere in the world — as well as kimchi, Sauerkraut, and Filmjölk, to name a few. True fermentation connoisseurs, I dare you to try this.

Fermentation honestly seems like kind of a no-brainer in terms of a way for, say, restaurants to preserve food and reduce waste. It’s already a trend amongst foodies, which makes me wonder if, as more and more people make efforts to curb waste, fermentation has a chance to go from delicacy to staple.

Speaking of food spoilage: typically, the closer one gets to the Equator, the faster food decays. So it makes unfortunate sense that in Kenya, fruit and vegetable vendors are constantly losing money because their produce goes bad after only a couple days. The same is true for many places of similar latitude where refrigeration isn’t always readily available.

A company called FreshBox (not to be confused with hydroponic produce company FreshBox Farms) came up with a pretty simple solution: a solar-powered cooling unit — the “box” — that looks a bit like a walk-in fridge, but reportedly costs way less to operate. Each unit can hold 70 crates of produce. Vendors pay 70 Kenyan shillings ($.068) per crate per day.

Food waste is one of the main contributors to millions of people in Africa facing starvation. According to the Rockefeller Foundation, 50 percent of all produce is lost in the post-harvest stage of production. FreshBox may not be able to solve such a massive problem overnight, but it’s proof that serious problems don’t always require a high-tech answer. Sometimes a cold box powered with cheap solar energy will do.

Another pervasive problem the food industry faces is scarcity of arable land. An oft-quoted figure is that by 2050 we’ll have to feed 2 billion more people worldwide. But it’s also generally agreed on that farmers will have to produce more food on less land. Indoor farms that raise plants without soil are one solution, but there’s no proof yet that these “modern” farming systems will be enough.

And some haven’t given up on traditional agriculture land yet. Regenerative agriculture is a land-management strategy that restores soil fertility and resilience and, in the process, sequesters CO2 emissions to mitigate climate change. Like fermentation, practices in regenerative agriculture have been around almost since the dawn of agriculture itself. They include everything from crop rotation, low tillage, installing cover crops, planting borders for bee habitats, and composting, to name a few.

One especially interesting aspect of regenerative agriculture is the role livestock can play — a definite counterpoint to the idea that livestock production is only harming the planet. Some farmers have taken to a practice called “rotational grazing,” where livestock is strategically moved around to graze, so no one part of the land is entirely depleted.

Some farmers and ranchers are already exploring the possibilities of how this seemingly low-tech action could integrate with various high-tech components in order to mitigate the burden of livestock production while also helping the actual soil. And more software is becoming readily available when it comes to overall land management, so it will be interesting to see if it can work in tandem with these age-old farming methods.

A lot of these “low-tech” innovations are currently happening in the developing world, more as a necessity than for some “oh cool” factor. At the risk of over-simplifying the matter, it would be worthwhile for food companies in more developed nations to explore these practices in more detail. Would, for example, something like FreshBox be of use to those at farmer’s markets, or the fruit and vegetable vendors who set up on the streets here in NYC? Could restaurants make more use of fermentation instead of throwing out huge percentages of their inventory?

Doing so would obviously require a lot more effort than just casual interest or enthusiasm. Still, it would behoove us to step away from the burger-flipping robots for a sec and explore such possibilities.

 

Kickstarter Entrepreneurs Ride the Popularity Wave of Probiotic Foods

Probiotics are a budding segment of the food part of the crowdsourcing world. While most new efforts are focused on pickles, fermented sodas and kombucha, a team of Slovenian Kickstarter veterans are showcasing the wonders of probiotic cheese.

Kefirko Cheese Maker comes on the heels of the successful 2015 launch of Kefirko, a device that makes homemade kefir. Kefir is a fermented milk drink made with special grains that act as a fermenter/starter. The process can be laborious done in a traditional manner. The kefir is extracted from the grains by hanging a cheesecloth-like bag over a shallow bowl, allowing the liquid to separate from the starter. In recent years, this fermented beverage, which originated in the Caucasus Mountains, has grown in popularity with a renewed focus on healthy eating and the role of probiotics.

The team of Marko Borko and Andrej Glažar, with backgrounds in engineering and design, have extended the value of their kefir maker with their new probiotic cheese maker. The new appliance makes probiotic cheese from the kefir created by the Kefiroko or any other store-bought or homemade kefir. Beyond probiotic cheese, consumers can use the cheese maker to create mozzarella, mascarpone other non-probiotic varieties using milk that has been which has to be curdled with rennet or lemon juice.

There is no waste in the process which starts with pouring the kefir into the cheese maker and allowing it to strain into the attached glass bowl. The company says the whey liquid that results from the kefir-to-cheese process I is very rich with proteins, primarily of α-lactalbumin and β-lactoglobulin, bovine serum albumin and immunoglobine. It also contains vitamins and minerals and a very low level of fat. When whey is derived from kefir, it does not contain lactose, because it is already gone (99 %) during fermentation of kefir.

The length of the fermentation process determines the type of resulting cheese. The company says that fermenting overnight will result in a creamy style cheese while allowing the fermentation to go for one to two days will yield a semi hard cheese. When the cheese reaches the desired taste and consistency, users can flavor it with herbs, spices, oils or roasted vegetables.

The Kefirko Cheese Maker comes with a recipe book which also offers alternative uses for the device which includes tips on how to use the appliance to make tea, iced coffee and even almond milk. The company says it does not know whether the cheese maker will work to create nut-based cheeses, made with pureed soaked and peeled nuts instead of kefir.

As of June 9th, the Slovenian company has exceeded its “all or nothing” goal of $15,000. Some 1,740 backers have contributed more than $91,000. The company’s stretch goals include a larger jar and a spring-loaded lid to enhance the fermentation. At the same time, Borko, Glažar, and their team are introducing a new and improved version of their original kefir maker. According to their Kickstarter site, the new model has an easier-to-grip lid and improved airflow. They also added a Scrapper – a tool for mixing kefir grains during straining to make sure they easily separate from kefir drink. Also, by covering the hole on the Kefirko lid with the Scrapper the straining of kefir also becomes more practical and fast. Depending on pledge amounts backers can get the cheese maker, the newer kefir maker or both products. Delivery of the cheese maker and Kefirko 2 is Dec. 2017.

Make sure to check out the Smart Kitchen Summit, the only event about the future of food, cooking and the kitchen. Also, make sure to subscribe to get The Spoon in your inbox. 

The Story of RJ Batts, Fourteen Year Old Inventor Of The Tip Tough

Not all kitchen innovation has to be high-tech to have a great story.

In fact, the tale of fourteen-year-old inventor RJ Batts is one of the cooler stories I heard this week at the Housewares show in Chicago. Standing at his booth among rows of other makers and creators more than twice or thrice his age, RJ told me how his concept, the Tip Tough – a finger protector for slicing and dicing on a cutting board – went from idea on paper to buzzed-about product at this year’s big home products trade show.

It all got started when RJ’s dad cut his fingers slicing food. Determined to figure out a way to protect his dad’s fingers in the future, RJ picked up a sketchbook and drew the first conceptualization of the Tip Tough. After a quick online search told them there wasn’t anything like this available, RJ and his family began to investigate how to bring the product to market.

The Tip Tough

Without any knowledge of the mechanics of product creation, RJ soon enrolled in a local program for young inventors called the Young Entrepreneurs Academy at the Salisbury (MD) Area Chamber of Commerce. The program gave RJ and his family what they needed to know to craft his pitch, understand fundraising and get a sense of how to bring the product to market.

“They guided me through learning how to go to business,” said RJ. “Without that, the product would have been sitting in a sketchbook, and I wouldn’t have to know what to do with that.”

He soon competed in a local startup competition at Salisbury University, where he received $15,000 for second place in a competition where he beat out many adults. And this week at the Housewares Show, RJ was featured in the Inventor’s Corner as the younger inventor at the show.

RJ and his company, Picklehead, are running a Kickstarter for the finger protector and plan to bring the stainless steel Tip Tough to market by July. They are planning on shipping a plastic version of the Tip Tough later this year.

While it may not be a smart kitchen device, the Tip Tough fulfills an obvious need, something many more modern – and connected – devices can often struggle with.  On my panel this week about the future of the smart home, my panelists talked about the need for simplicity of focus and creating obvious value in the minds of the consumer. As someone who gets annoyed I can’t cut that final piece of steak as finely as I’d like, I am a big proponent (as are my fingers) of simple, straightforward and non-connected innovation like the Tough Tip.

You can hear my interview with RJ above and support his Kickstarter here.

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Does The Shape Of Your Spoon Impact Taste? Apparently, Yes.

We write a lot about high-tech solutions to change the way food is cooked and consumed, but there is interesting, science-driven work being done to explore how design and form impact food taste as well. Fast Co Design writes about the work of designer Andreas Fabian – who has a PhD in spoons – and scientist Charles Michel to use design and scientific principals to enhance how cutlery can improve the perception of food’s taste.

Together they created the Goûte, a glass spoon modeled using biomimicry, the process of using design in nature to inspire manmade products. In the case of Michel and Fabian, their natural inspiration was the thing all humans use at one time or another to taste food – the finger.

The two began to think about the intimate experiences people can have with food when they’re unconcerned about proper manners—licking your finger while cooking, licking your plate when finished. What if they could create a new kind of utensil that mimicked that feeling, bringing a new level of mindfulness and joy to eating?

After developing the Goûte, the team paired up with Oxford University’s Crossmodal Research Laboratory to test the utensil’s impact on flavor perception. Participants used both spoons and the finger-inspired tool and found “participants reported perceiving the food as tasting significantly better than when eating with a conventional spoon.” People reported that the yogurt even tasted sweeter when using the Goûte as compared with the spoon.

The processing of using low-tech design principals to change the way food tastes is a fascinating undertaking. You can read more about the Goûte and the impact of design on taste here.