Hydraulic Cooler Sizing: Difference between revisions
Tom Griffing (talk | contribs) No edit summary |
Tom Griffing (talk | contribs) No edit summary |
||
| Line 47: | Line 47: | ||
http://www.industrialheattransfer.com/Air-Cooled/MA%20Series.pdf | http://www.industrialheattransfer.com/Air-Cooled/MA%20Series.pdf | ||
The "MA-18" | The "MA-14" and "MA-18" cores have the proper heat transfer specs | ||
The "MA-18-4" is the "MA-18" core with a 12v electric fan | The "MA-18-4" is the "MA-18" core with a 12v electric fan | ||
| Line 53: | Line 53: | ||
http://www.akgts.com/fileadmin/_akgts/pdf/Cool_LineD_en.pdf | http://www.akgts.com/fileadmin/_akgts/pdf/Cool_LineD_en.pdf | ||
The AKG "D11" cooler seems to meet our requirements. | The AKG "D11" cooler seems to meet our requirements. | ||
Hayden Auto lists coolers by BTU/hr in the section "Heavy Duty Oil Coolers": | Hayden Auto lists coolers by BTU/hr in the section "Heavy Duty Oil Coolers": | ||
http://www.haydenauto.com/upload/HaydenAuto/Documents/Cat_Hayden/2007-hayden-trans-oil-coolers.pdf | http://www.haydenauto.com/upload/HaydenAuto/Documents/Cat_Hayden/2007-hayden-trans-oil-coolers.pdf | ||
Hayden model 1284 meets the requirements | |||
Note: The "COOLING BTU / HR" ratings is with 2500 cubic-ft/min airflow and 100°F differential in oil and air temperatures. So, this requires a fan to move the air to meet these requirements. | Note: The "COOLING BTU / HR" ratings is with 2500 cubic-ft/min airflow and 100°F differential in oil and air temperatures. So, this requires a fan to move the air to meet these requirements. | ||
Revision as of 20:20, 28 April 2013
This page describes how to size a hydraulic oil cooler for a hydraulic system. Hydraulic coolers are often specified by their ability to dissipate heat - usually measured in BTU/hr.
1. The power in the hydraulic system:
Horsepower = Pressure * Flow / 1714
2. The heat dissipated in a hydraulic system can be determined by summing the inefficiencies of all components in the system, but is usually between 25% and 30%. The heat dissipated is measured in BTU/hr:
BTU/hr: Horsepower * 0.3 * 2542 Horsepower: Total Horsepower * 0.3 KW: Horsepower * 0.3 * 0.735
Here are some calculations for OSE engines:
| Engine hp | HP Formula | Horsepower | BTU Formula | BTU/hr | KW Formula | KW |
|---|---|---|---|---|---|---|
| 28 | 28 * 0.25, 28 * 0.3 | 7 - 8.4 | 28 * 0.25 * 2542, 28 * 0.3 * 2542 | 17794 - 21352 | 28 * 0.25 * 0.735, 28 * 0.3 * 0.735 | 5.145 - 6.174 |
| 50 | 50 * 0.25, 50 * 0.3 | 12.5 - 15 | 50 * 0.25 * 2542, 50 * 0.3 * 2542 | 31775 - 38130 | 50 * 0.25 * 0.735, 50 * 0.3 * 0.735 | 9.1875 - 11.025 |
3. Select a cooler based on the BTU/hr derived in step 1 above. For the case of the 50 hp Power Cube, search for coolers that dissipate between 31775 and 38130 BTU/hr. Vendors list cooler specs with heat dissipation and GPM.
Thermal Transfer Mobile MA series coolers:
http://www.industrialheattransfer.com/Air-Cooled/MA%20Series.pdf The "MA-14" and "MA-18" cores have the proper heat transfer specs The "MA-18-4" is the "MA-18" core with a 12v electric fan
AKG Mobile oil coolers:
http://www.akgts.com/fileadmin/_akgts/pdf/Cool_LineD_en.pdf The AKG "D11" cooler seems to meet our requirements.
Hayden Auto lists coolers by BTU/hr in the section "Heavy Duty Oil Coolers":
http://www.haydenauto.com/upload/HaydenAuto/Documents/Cat_Hayden/2007-hayden-trans-oil-coolers.pdf Hayden model 1284 meets the requirements
Note: The "COOLING BTU / HR" ratings is with 2500 cubic-ft/min airflow and 100°F differential in oil and air temperatures. So, this requires a fan to move the air to meet these requirements.