A compressor delivers 2000 cfm of air through a pipe at a receiver pressure of 140 psig. What minimum size schedule 40 pipe should be used if the pressure loss is to be limited to 0.10 psi per foot of pipe length? Hint: use the table of Problem 1 if needed.

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### Compressor Air Delivery Problem

**Problem Statement:**

A compressor delivers 2000 cfm of air through a pipe at a receiver pressure of 140 psig. What minimum size schedule 40 pipe should be used if the pressure loss is to be limited to 0.10 psi per foot of pipe length?

*Hint: use the table of Problem 1 if needed.*

---

**Explanation:**

The problem is related to fluid dynamics and aims to find the appropriate pipe size for a given air delivery rate while maintaining a specified pressure loss limit. You can refer to the table provided in Problem 1 for necessary values, such as friction factors, pipe diameters, and other relevant parameters used to solve this type of problem.

Understanding the problem requires knowledge of fluid dynamics principles and the ability to apply the Darcy-Weisbach equation or other methods to calculate pressure drops in pipes.
Transcribed Image Text:### Compressor Air Delivery Problem **Problem Statement:** A compressor delivers 2000 cfm of air through a pipe at a receiver pressure of 140 psig. What minimum size schedule 40 pipe should be used if the pressure loss is to be limited to 0.10 psi per foot of pipe length? *Hint: use the table of Problem 1 if needed.* --- **Explanation:** The problem is related to fluid dynamics and aims to find the appropriate pipe size for a given air delivery rate while maintaining a specified pressure loss limit. You can refer to the table provided in Problem 1 for necessary values, such as friction factors, pipe diameters, and other relevant parameters used to solve this type of problem. Understanding the problem requires knowledge of fluid dynamics principles and the ability to apply the Darcy-Weisbach equation or other methods to calculate pressure drops in pipes.
### Nominal Pipe Size and Inside Diameter Data

Below is a tabulated representation of nominal pipe sizes, inside diameters, and their corresponding values of \(d^{5.31}\) for schedule 40 common pipe. This table provides crucial information for piping system design and analysis, particularly useful in engineering education and practice.

#### Table of Nominal Pipe Sizes, Inside Diameters, and \(d^{5.31}\)
| Nominal Pipe Size (in) | Inside Diameter \(d\) (in) | \(d^{5.31}\) |
|------------------------|--------------------------|-------------|
| \(\frac{3}{8}\)         | 0.493                    | 0.0234      |
| \(\frac{1}{2}\)         | 0.622                    | 0.0804      |
| \(\frac{3}{4}\)         | 0.824                    | 0.3577      |
| 1                      | 1.049                    | 1.2892      |
| \(\frac{1}{4}\)         | 1.380                    | 5.5304      |
| \(\frac{1}{2}\)         | 1.610                    | 12.538      |
| 2                      | 2.067                    | 47.256      |
| \(\frac{2}{2}\)         | 2.469                    | 121.419     |
| 3                      | 3.068                    | 384.771     |
| \(\frac{1}{2}\)         | 3.548                    | 832.550     |

This dataset is essential for understanding how the inside diameter and its exponential values can impact fluid flow and other relevant calculations in piping systems.

### Graphical Explanation
The table does not include graphical elements such as charts or diagrams. It strictly presents data in numerical form for easy reference and interpretation within the context of educational and practical applications in pipe system analysis.

### Applications
This data is widely used in various engineering fields, including mechanical, civil, and chemical engineering. It helps professionals and students design efficient piping systems by providing essential parameters needed for calculations involving fluid dynamics, pressure loss, and pipe strength.

### Notes
- The nominal pipe size is a standardized dimension representing the pipe's overall size.
- The inside diameter \(d\) is crucial for determining the flow capacity of
Transcribed Image Text:### Nominal Pipe Size and Inside Diameter Data Below is a tabulated representation of nominal pipe sizes, inside diameters, and their corresponding values of \(d^{5.31}\) for schedule 40 common pipe. This table provides crucial information for piping system design and analysis, particularly useful in engineering education and practice. #### Table of Nominal Pipe Sizes, Inside Diameters, and \(d^{5.31}\) | Nominal Pipe Size (in) | Inside Diameter \(d\) (in) | \(d^{5.31}\) | |------------------------|--------------------------|-------------| | \(\frac{3}{8}\) | 0.493 | 0.0234 | | \(\frac{1}{2}\) | 0.622 | 0.0804 | | \(\frac{3}{4}\) | 0.824 | 0.3577 | | 1 | 1.049 | 1.2892 | | \(\frac{1}{4}\) | 1.380 | 5.5304 | | \(\frac{1}{2}\) | 1.610 | 12.538 | | 2 | 2.067 | 47.256 | | \(\frac{2}{2}\) | 2.469 | 121.419 | | 3 | 3.068 | 384.771 | | \(\frac{1}{2}\) | 3.548 | 832.550 | This dataset is essential for understanding how the inside diameter and its exponential values can impact fluid flow and other relevant calculations in piping systems. ### Graphical Explanation The table does not include graphical elements such as charts or diagrams. It strictly presents data in numerical form for easy reference and interpretation within the context of educational and practical applications in pipe system analysis. ### Applications This data is widely used in various engineering fields, including mechanical, civil, and chemical engineering. It helps professionals and students design efficient piping systems by providing essential parameters needed for calculations involving fluid dynamics, pressure loss, and pipe strength. ### Notes - The nominal pipe size is a standardized dimension representing the pipe's overall size. - The inside diameter \(d\) is crucial for determining the flow capacity of
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