Burner heat One of the important properties of a gas stove is the heat emitted by the burners. Burner heat is typically specified in terms of kilowatts or
British Thermal Units per hour and is directly based on the gas consumption rather than heat absorbed by pans. Often, a gas stove will have burners with different heat output ratings. For example, a gas cooktop may have a high output burner, often in the range , and a mixture of medium output burners, 1.5 to 3 kW, and low output burners, 1 kW or less. The high output burner is suitable for boiling a large pot of water quickly,
sautéing and
searing, while the low output burners are good for
simmering. Mean benzene emissions from gas and propane burners on high and ovens set to 350 °F ranged from 2.8 to 6.5 μg min–1, 10 to 25 times higher than emissions from electric coil and radiant alternatives. Higher capacity burners may not benefit every potential user or dish.
Design and layout In the last few years, appliance manufacturers have been making innovative changes to the design and layout of gas stoves. Most of the modern cooktops have come with lattice structure which usually covers the complete range of the top, enabling sliding of cookware from one burner to another without lifting the containers over the gaps of cooktop. Some modern gas stoves also have central fifth burner or an integrated griddle in between the outer burners.
Size The size of a kitchen gas stove usually ranges from . Almost all the manufacturers have been developing several range of options in size range. Combination of range and oven are also available which usually come in two styles: slide in and freestanding. Usually, there is not much of a style difference in between them. Slide-in come with lips on either side and controls over the front along with burner controls. Freestanding gas range cooktops have solid slides and controls placed behind the cooktop.
Oven flame colour, meaning complete combustion, as with other gas appliances. Many stoves have integrated ovens. Modern ovens often include a convection fan inside the oven to provide even air circulation and let the food cook evenly. Some modern ovens come with temperature sensors which allows close control of baking, automatically shut off after reaching certain temperature, or hold on to particular temperature through the cooking process. Ovens may also have two separate oven bays which allows cooking of two different dishes at the same time.
Programmable controls Many gas stoves come with at least few modern programmable controls to make the handling easier. LCD displays and some other complex cooking routines are some of the standard features present in most of the basic and high-end manufacturing models. Some of the other programmable controls include precise pre-heating, automatic pizza, cook timers and others.
Safety factors Modern gas stove ranges are safer than older models. Two of the major safety concerns with gas stoves are child-safe controls and accidental ignition. Some gas cooktops have knobs which can be accidentally switched on even with a gentle bump. Gas stoves are at risk of overheating when frying oil, raising the oil temperature to the auto-ignition point and creating an oil fire on the stove. Japan, South Korea and China have regulated the addition of electronic safety devices to prevent pan overheating. The devices use a
thermistor to monitor the temperature close to the pan, and cut off the gas supply if the heat is too high.
Efficiency The
U.S. Department of Energy (DOE) ran tests in 2014 of cooktop energy transfer efficiency, simulating cooking while testing what percentage of a cooktop's energy is transferred to a test block. Gas had an efficiency of 44%, lower than the 70% reached by
induction cooking and
electric coil cooktops. This level of efficiency is only possible if the pan is big enough for the burner. Japanese gas flames are angled upwards towards the pot to increase efficiency.
Jetboil manufactures pots for
portable stoves that use a corrugated ribbon to increase efficiency. == Health impact ==