average flow的音標(biāo)為[??v?r?d? fl??]，基本翻譯為“平均流量”。速記技巧可以考慮用諧音記憶，如“啊喂吃火鍋”來幫助記憶單詞發(fā)音。

Average flow這個(gè)詞的英文詞源可以追溯到拉丁語“average”和“flow”，組合起來表示平均流動(dòng)或平均流量。

變化形式：復(fù)數(shù)形式為“averages flows”，形容詞形式為“average-flow”。

相關(guān)單詞：

- current flow：電流流動(dòng)，指的是電流的流動(dòng)。

- stream flow：水流，指的是水流的狀態(tài)或流量。

- flow rate：流量，指的是單位時(shí)間內(nèi)流經(jīng)某一截面的流體的體積或質(zhì)量。

- flow direction：流動(dòng)方向，指的是流體流動(dòng)的方向。

- flow pattern：流動(dòng)形態(tài)，指的是流體在某一特定流場(chǎng)中的流動(dòng)形態(tài)。

- fluid flow：流體流動(dòng)，指的是流體在某一特定空間或管道中的流動(dòng)。

- laminar flow：層流，指的是流體在管道中以層狀流動(dòng)的方式。

- turbulent flow：湍流，指的是流體在管道中以湍動(dòng)的方式流動(dòng)。

- discharge flow：流出量，指的是液體或氣體從某一容器或管道中流出的量。

- overflow flow：溢出流，指的是液體或氣體超出容器或管道的容量而產(chǎn)生的流動(dòng)。

常用短語：

1. Average Flow Rate

2. Average Flow Duration

3. Average Flow Volume

4. Flow Rate Variation

5. Flow Duration Variation

6. Flow Volume Variation

7. Flow Pattern

雙語例句：

1. The average flow rate of water in the pipe is 5 liters per second.

2. The flow duration of the gas has varied from 5 seconds to 10 seconds on average.

3. The average flow volume of the engine has increased by 10% compared to last year.

4. The flow rate variation of the oil pump is too high, causing engine knocking.

5. The flow duration variation of the exhaust gas has caused a decrease in fuel efficiency.

6. The flow volume variation of the cooling water has caused the temperature to rise too quickly.

7. The flow pattern of the airflow in the carburetor is important for fuel-air ratio control.

英文小作文：

Average Flow - The Key to Efficient Operation

When it comes to machine operation, average flow is a crucial factor for ensuring efficient and reliable performance. From engines to pumps, air conditioners to water systems, the average flow rate of these systems determines their overall efficiency and reliability.

Too high or too low a flow rate can have a negative impact on system performance, leading to increased wear and tear, decreased efficiency, or even system failure. By carefully monitoring and maintaining the average flow rate of these systems, we can ensure they operate at their peak performance, maximizing their efficiency and reliability.

For example, in an engine, a higher than average flow rate can lead to overheating and knocking, while a lower than average flow rate can result in insufficient fuel delivery, leading to reduced power and performance. Similarly, in a water system, a higher than average flow rate can lead to excessive wear and tear on pipes and valves, while a lower than average flow rate can result in water scarcity and poor water quality.

By keeping an eye on the average flow rate of these systems and making adjustments as necessary, we can maintain optimal performance and avoid potential problems before they become significant issues. This is why it is essential to regularly monitor and maintain these systems to ensure they operate at their peak performance and are reliable for years to come.