As we explained in this previous post, vertical farming is a farming technique where crops are grown indoors in a laboratory-like, climate-controlled space. Instead of a crop being limited to geographical regions that provide the ideal growing conditions, vertical farmers can fine-tune the level of water, nutrients, humidity and temperature, as well as light frequency, duration and intensity to create the most ideal environment possible for the crop to grow.
A handful of rural conventional farms are the mega-producers that supply vast swathes of the country with fruits and vegetables, generally located far away from the urban and suburban areas where their crops are shipped to be made available to consumers. The shipping journey — often spanning thousands of miles of highway or open ocean — leads to large amounts of waste and product loss, in addition to creating a large carbon footprint.
Vertical farming is a soilless method of farming that takes place inside a climate-controlled, laboratory-like environment. Farmers are able to fine-tune indoor spaces to the crops they want to grow, instead of being limited to growing crops that a particular outdoor area can support.
The ability to grow in-demand produce without the massive footprint of an outdoor farm, regardless of climate, has led to more vertical farming facilities in urban areas, where produce is grown, harvested and quickly shipped to retailers in the same city. This cuts down on product loss and shipping damage while increasing the shelf life and quality of produce once it hits the shelves.
Such impressive numbers may have you wondering if you should try the tofu and look into entering this emerging market. Let’s lean on the “know before you go” adage and help you make an informed decision.
You’ve likely heard a lot about Industry 4.0 and the impact of predictive and prescriptive maintenance on the food and beverage industry. It can sound overwhelming, but it doesn’t have to be. In fact, a few basic investments and the right partner can help streamline the way your facility operates and communicates
Food manufacturing facilities are complex and have various ecosystems operating at different levels, including:
But all of these systems don’t always talk to each other. In many facilities, an equipment failure triggers a lengthy domino effect: Maintenance staff has to assess the problem, create a work order, check if a replacement part is available and so on.
Steam is used in food processing for a variety of reasons from preparing product to cleaning equipment. Common uses of steam in food and beverage facilities include:
Steam-in-Place (SIP) to clean pipes
But not all steam is created equal — and there are new developments in steam technology happening all the time. In this post we’ll look at the types of steam used in food processing as well as one innovation known as dry steam.
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