73. The burners of kerosene stoves are lighted by applying a match, just as the burners of a gas stove are lighted. In some stoves, especially those of the wickless type, the burners are so constructed that the flame can rise to only a certain height. This is a good feature, as it prevents the flame from gradually creeping up and smoking, a common occurrence in an oil stove. The kerosene-stove flame that gives the most heat, consumes the least fuel, and produces the least soot and odor is blue in color. A yellow flame, which is given off in some stoves, produces more or less soot and consequently makes it harder to keep the stove clean. Glass containers are better than metal containers, because the water that is always present in small quantities in kerosene is apt to rust the metal container and cause it to leak. To prevent the accumulation of dirt, as well as the disagreeable odor usually present when an oil stove is used, the burners should be removed frequently and boiled in a solution of washing soda; also, if a wick is used, the charred portion should be rubbed from it, but not cut, as cutting is liable to make it give off an uneven flame.
ELECTRIC STOVES AND UTENSILS
74. ELECTRIC STOVES. Electric stoves for cooking have been perfected to such an extent that they are a great convenience, and in places where the cost of electricity does not greatly exceed that of gas they are used considerably. In appearance, electric stoves are very similar to gas stoves, as is shown in Fig. 9, which illustrates an electric stove of the usual type. The oven a is located at one side and contains a broiler pan b. On top of this stove are openings for cooking, into which fit lids c that have the appearance of ordinary stove lids, but are in reality electrical heating units, called hotplates. Heat for cooking is supplied by a current of electricity that passes through the hotplates, as well as through similar devices in the oven, the stove being connected to the supply of electricity at the connection-box d, which is here shown with the cover removed. The heat of the different hotplates and the oven is controlled by several switches e at the front of the stove. Each of these switches provides three degrees of heat--high, medium, and low--and just the amount of heat required for cooking can be supplied by turning the switch to the right point. Below the switches are several fuse plugs f that contain the fuses, which are devices used in electrical apparatus to avoid injury to it in case the current of electricity becomes too great.
![[Illustration: FIG. 9]](recipe-images\s01fig09.jpg)
It is not absolutely necessary to have flue connections for an electric
![[Illustration: Fig. 10]](recipe-images\s01fig10.jpg)
![[Illustration: Fig. 11]](recipe-images\s01fig11.jpg)
stove, as such a stove does not require a draft and gives off no
products of combustion to be carried away. In fact, one of the favorable
points about an electric stove is that it produces no dirt and causes no
inconvenience. When the cooking is done, the electricity can be turned
off, after which the stove quickly cools. When electricity is used for
cooking, cooking utensils, methods, and recipes can be applied in the
same ways as when other means of producing heat are employed.
75. SMALL ELECTRIC UTENSILS.--In addition to electric stoves, there are a number of smaller electrical cooking utensils that can be attached to an electric-light socket or a wall socket. Among these are percolators, toasters, hotplates, or grills, chafing dishes, egg poachers, and similar devices. An idea of such utensils for cooking may be formed by referring to Fig. 10, which shows an electric toaster, and Fig. 11, which shows a hotplate, or grill. The toaster is arranged so that bread to be toasted may be placed on each side, as well as on top, of an upright part that gives off heat when the current of electricity is turned on. The grill is so constructed that a pan for cooking may be placed under and on top of the part that gives off heat.