Some fuel additives contain chemicals that can damage the catalytic converter and/or oxygen sensor. Read all of the labels carefully before using any additive in the engine or fuel system.
All Honda models are designed to run on unleaded fuel. The use of a leaded fuel in a car requiring unleaded fuel will permanently damage a catalytic converter and render it inoperative. A blocked converter will also increase exhaust backpressure to the point where engine output will be severely reduced. The minimum octane rating of the unleaded fuel being used must be at least 87, which usually means regular unleaded, but some high performance engines may require higher ratings. Fuel should be selected for the brand and octane that performs best with the engine. Judge a gasoline by its ability to prevent pinging, its engine starting capabilities (cold and hot) and general all weather performance.
As far as the octane rating is concerned, refer to the General Engine Specifications chart to find the vehicle's engine and its compression ratio. If the compression ratio is 9.0:1 or lower, a regular grade of unleaded gasoline can be used in most cases. If the compression ratio is higher than 9.0:1, use a premium grade of unleaded fuel.
The use of a fuel too low in octane (a measure of anti-knock quality) will result in spark knock or detonation. Since many factors such as altitude, terrain, air temperature and humidity affect operating efficiency, knocking may result although the recommended fuel is being used. If persistent knocking occurs, it may be necessary to switch to a higher grade of fuel. Continuous or heavy knocking may cause internal engine damage.
The engine's fuel requirement can change with time, mainly due to carbon build-up, which will, in turn, changes the compression ratio. If the engine pings, knocks or diesels (runs with the ignition OFF) switch to a higher grade of fuel. Sometimes, just changing brands will cure the problem. If it becomes necessary to retard the ignition timing from the specifications, don't change it more than a few degrees. Retarded timing will reduce power output and fuel mileage, in addition to making the engine run hotter.
The Society Of Automotive Engineer (SAE) grade number indicates the viscosity of the engine oil and, thus, its ability to lubricate at a given temperature. The lower the SAE grade number, the lighter the oil; the lower the viscosity, the easier it is to crank the engine in cold weather. Oil viscosities should be chosen from those oils recommended for the lowest anticipated temperatures during the oil change interval. With the proper viscosity, the engine is assured of easy cold starting and sufficient engine protection.
Multi-viscosity oils (5W-30, 10W-30, etc.) offer the important advantage of being adaptable to temperature extremes. They allow easy starting at low temperatures, yet they give good protection at high speeds and engine temperatures. This is a decided advantage in changeable climates or in long distance driving.
The American Petroleum Institute (API) designation indicates the classification of engine oil used under certain given operating conditions. Only oil designated for Service SH, or the latest superseding oil grade, should be used. Oils of the SH type perform a variety of functions inside the engine in addition to their basic function as a lubricant. Through a balanced system of metallic detergents and polymeric dispersants, engine oil prevents the formation of high and low temperature deposits and keeps sludge and particles of dirt in suspension. Acids, particularly sulfuric acid, as well as other byproducts of combustion, are neutralized. Both the SAE grade number and the API designation can be found on the side of the oil bottle.Synthetic Oils
There is excellent synthetic and fuel-efficient oils available that, under the right circumstances, can help provide better fuel mileage and better engine protection. However, these advantages come at a price, which can be significantly more than the price per quart of conventional motor oils.
Before pouring any synthetic oils into the car's engine, consider the condition of the engine and the type of driving that is done. It is also wise to check the vehicle manufacturer's position on synthetic oils.
Generally, it is best to avoid the use of synthetic oil in both brand new and older, high mileage engines. New engines require a proper break-in, and the synthetics are so slippery that they can impede this; most manufacturers recommend that you wait at least 5,000 miles (8,000 km) before switching to synthetic oil. Conversely, older engines, which have worn parts, tend to lose more oil; synthetics will slip past worn parts more readily than regular oil. If your car already leaks oil, (due to worn parts or bad seals/gaskets), it may leak more with a synthetic inside. Also, because synthetic oils have excellent cleaning abilities, putting a synthetic oil in a high mileage vehicle may flush away built up carbon particles which can be picked up by the oil pump and trapped in the oil filter, causing a loss of oil pressure and potential engine damage.
Consider the type of driving conditions most often encountered. If mostly on the highway at higher, steadier speeds, synthetic oil will reduce friction and probably help deliver increased fuel mileage. Under such ideal highway conditions, the oil change interval can be extended, as long as the oil filter can continue to operate effectively for the extended life of the oil. If the filter can't do its job for this extended period, dirt and sludge will build up in the engine's crankcase, sump, oil pump and lines, no matter what type of oil is used. If using synthetic oil in this manner, continue to change the oil filter at the recommended intervals.
Cars used under harder, stop-and-go, short hop circumstances should always be serviced more frequently; for these cars, the expense of using synthetic oil should be weighed against the long-term benefits of the oil. Because on average, 80% of an engine's wear occurs during a cold start up, the synthetic oil will help preserve the mechanical condition of the engine. However, the expense of frequent oil changes may offset the long-term benefits of using synthetic oil.