Rotomolded coolers quickly became the norm over the past several years but can have a somewhat inefficient functionality, which is something the Oyster Tempo cooler is here to change. The cooler features a 24-quart capacity that fits up to 36 cans with no room to spare for ice; the unit is kept chilled with Thermal Ice Packs that take up drastically less space than conventional ice. The cooler is constructed with an inner container that maximizes insulating properties, while a thermal bridge reduces conductivity between layers and a thermal circulation design to expedite the movement of cold air inside.
The Oyster Tempo cooler features a design-conscious construction that's inherently stylish and will easily withstand exposure to demanding environments. Priced at $605, the cooler is available now for preorder.
Extra-Cold Ice-Free Coolers
The Oyster Tempo Keeps Items Cold with Ice Packs and Metal Design
Trend Themes
1. Ice-pack Cooling - The trend of using ice packs instead of traditional ice for cooling is disrupting the rotomolded cooler market.
2. Efficient Insulation - The trend of designing coolers with maximum insulating properties and minimal conductivity is disrupting the traditional cooler market.
3. Stylish Durability - The trend of incorporating design-conscious elements in coolers that can withstand demanding environments is disrupting the durable cooler market.
Industry Implications
1. Outdoor Recreation - The trend of developing efficient and durable coolers with ice-pack cooling can disrupt the outdoor recreation industry by offering more effective storage solutions for perishable items.
2. Food and Beverage - The trend of offering efficient and stylish cooling solutions can disrupt the food and beverage industry by offering more practical approaches to storage, transport, and display of products.
3. Medical and Pharmaceutical - The trend of using efficient and insulated cooling solutions can disrupt the medical and pharmaceutical industry by offering better temperature control for sensitive materials during transport and storage.