Features: Foams all kinds of milk, cappuccinos, lattes, espressos, or hot chocolate in seconds. Powerful motor creates smooth and delicate whipped cream you always wanted. Food grade stainless steel shaft and whip, ABS plastic body. Can be used for both cold and hot milk. Also can be used to whisk eggs, soups, sauces and other non-solid food item. Handheld size, 2*AA battery operated milk frother (not included). Easy to operate and clean.
Just getting into this whole “home barista” thing? Start off with the Delonghi BC0330T Combination Drip Coffee and Espresso Machine for pro level features that won’t break the bank. This machine pulls espresso shots, though it isn’t pod compatible like its big brother, the Café Nero (see above), and the “Swivel Jet” frother makes rich, creamy lattes and cappuccinos. It will brew 10 cups of drip coffee, and you can choose the strength of your java with the Accuflavor selector dial. Whether you opt for espresso or coffee, the advanced water filtration system eliminates chlorine for a tasty sip. Other convenient features found on more advanced models include a 24-hour programmable digital timer, pause and serve functionality, as well as a removable water tank for easy fill ups.
Bunn-O-Matic came out with a different drip-brew machine. In this type of coffeemaker, the machine uses a holding tank or boiler pre-filled with water. When the machine is turned on, all of the water in the holding tank is brought to near boiling point (approximately 200–207 °F or 93–97 °C) using a thermostatically-controlled heating element. When water is poured into a top-mounted tray, it descends into a funnel and tube which delivers the cold water to the bottom of the boiler. The less-dense hot water in the boiler is displaced out of the tank and into a tube leading to the spray head, where it drips into a brew basket containing the ground coffee. The pourover, water displacement method of coffeemaking tends to produce brewed coffee at a much faster rate than standard drip designs. Its primary disadvantage is increased electricity consumption in order to preheat the water in the boiler. Additionally, the water displacement method is most efficient when used to brew coffee at the machine's maximum or near-maximum capacity, as typically found in restaurant or office usage. In 1963, Bunn introduced the first automatic coffee brewer, which connected to a waterline for an automatic water feed.
“Last night was a perfect test of the single-cup concept. I had already programmed and prepped my 3 a.m. standard coffee brew, however, I still wanted a cup of coffee. I switched over to the single cup and brewed my cup, then switched back and pressed the program button to ensure it would still brew the main pot at 3 a.m. Worked like a charm!! Before, I would have had to brew the entire eight cups that were ready, toss out most of it, and set up my morning brew all over again.”
An electric drip coffee maker can also be referred to as a dripolator. It normally works by admitting water from a cold water reservoir into a flexible hose in the base of the reservoir leading directly to a thin metal tube or heating chamber (usually, of aluminum), where a heating element surrounding the metal tube heats the water. The heated water moves through the machine using the thermosiphon principle. Thermally-induced pressure and the siphoning effect move the heated water through an insulated rubber or vinyl riser hose, into a spray head, and onto the ground coffee, which is contained in a brew basket mounted below the spray head. The coffee passes through a filter and drips down into the carafe. A one-way valve in the tubing prevents water from siphoning back into the reservoir. A thermostat attached to the heating element turns off the heating element as needed to prevent overheating the water in the metal tube (overheating would produce only steam in the supply hose), then turns back on when the water cools below a certain threshold. For a standard 10-12 cup drip coffeemaker, using a more powerful thermostatically-controlled heating element (in terms of wattage produced), can heat increased amounts of water more quickly using larger heating chambers, generally producing higher average water temperatures at the spray head over the entire brewing cycle. This process can be further improved by changing the aluminum construction of most heating chambers to a metal with superior heat transfer qualities, such as copper.