You can find liquidity pairs on https://info.uniswap.org/ and it this tool. Both use the same API from theGraph. Click on a pool on info.uniswap.org to find pool specific info. An example of a url is: https://info.uniswap.org/#/pools/0x5777d92f208679db4b9778590fa3cab3ac9e2168, after the last part of the url you find the pool ID, this id is the ID that you can also find in the id column of this tool (see filter if not visible). You can find explanations using the info icon in several parts of this website and this tool in specific. You can click on the different blockchain icons to visit the Uniswap specific to each blockchain: Ethereum, Polygon, Arbitrum and Optimism. If a pool is not shown in this tool, that can be for a variety of reasons, but usually happens when the data is unreliable or the pool is less than 5 days old.
Column explanation
The Range column is the theoretical range (n) at which other people in the pool currently have provided liquidity if they would all provide the same range. Example if n = 1.5 and ETH price is $1500 then, top range = 1500 * 1.5=$2250 and bottom range is 1500/1.5=$1000. Note that in absolute terms the steps are not symmetrical, [-500, 750], but percentage wise they are. The range is calculated using the total value locked (TVL) and the provided V3 Liquidity. You can expect that if you would provide liquidity using this range, you get the same yield as given in the yield column. Thus, the range column gives an indication how tight/competitive the pool is. For stable pairs the range is often less than 10 ticks, since this maximised yield whilst still not incurring impermanent loss. Annual volume is the trading volume that the pool generates. Using the pool Fee, the annualised pool rewards are calculated. It calculates based on looking up to a month backward the daily volume and with a minimum of five days.
Tool result
Make sure that the data you get makes sense. For example, if values are extremely large, then either the provided pool data does not make sense, or there is a measurement error from this tool. The tool uses a random walk model to calculate the expected return including impermanent loss. Using up to three months trailing historical returns, made directionless and using a random number generator, this model simulates 30 outcomes of ‘random walks’ through historical possible daily yields. Furthermore, the tool tracks when the price is outside of the provided range, which causes a forfeit of yield. Then an auto rebalance strategy is provided that resubmits liquidity that is out of range by trading it. Éach time a pair is rebalanced, impermanent loss is made permanent, but the tool does not yet take into account rebalancing costs.