National Sunflower Association - link home
About NSA Join NSA Contact Us Facebook YouTube
All About Sunflower

Buyers

Health & Nutrition

Sunflower Seed and Kernel

Sunflower Oil

Growers

Calendar of Events

Media Center

Photo Gallery

Sunflower Statistics

International Marketing

Research

Meal/Wholeseed Feeding

Sunflower Magazine

Past Digital Issues

Subscribe

Advertising

Ad Specs, Rates & Dates

Editorial Highlights 2014/15

Story Ideas

Surveys

Espanol

Daily Market News
Sign Up for Newsletter
Online Catalog
Online Directory
Google Search
Printer Friendly Version
You Are Here Sunflower Magazine > SDSU Ag Engineers Seek Solutions to Combine Fires


Sunflower Magazine

SDSU Ag Engineers Seek Solutions to Combine Fires
February 2014

Many sunflower growers know during harvest it’s not if they will have a combine fire, but when. Though fires also occur with soybeans, “It’s not endemic like in sunflower,” says Dan Humburg, Agricultural and Biosystems Engineering professor at South Dakota State University.

In the fall of 2011, with funding from the South Dakota Oilseeds Council, a team of SDSU agricultural engineers set out to analyze the problem and figure out how to prevent the fires. As a result, the engineering team has designed a device that can be fitted onto a combine to drastically reduce — and maybe even eliminate — the fires.

Before researchers could prevent the fires, they first had to learn more about what was causing the fires. Graduate student Joseph Polin and assistant professor Zhen Grong “Jimmy” Gu investigated which parts of the sunflower plant ignite and at what temperature.

Polin’s lab work found a large part of what was sticking to the combine was the white pith from inside the sunflower stem. “It breaks down and is drawn into the fan that pulls air through the radiator to cool the engine. We believe a portion of this dust ignites when it hits the turbocharger and exhaust system,” Humburg explains.

Anecdotal information from producers supported this scenario. Farmers were finding scattered, smoldering fires on the side of the combine downstream from the radiator blast, especially under windy conditions.

By the 2012 harvest season, the agricultural engineers had developed a prototype system that uses a fan to pull outside air through a filter. The clean air is pushed through a duct into an enclosure surrounding the turbocharger and exhaust manifold.

“This clean air enters the same hot environment, but it contains no dust to ignite,” Humburg notes. Additionally, the outside of the patent-pending system stays within a safe temperature range.

Humburg credits Onida, S.D., farmer Scott Foth for helping SDSU researchers better understand the problem. Foth used the research team’s prototype on his Case IH 8120 combine during the 2012 harvest. He tested an updated version in 2013.

The expertise and passion of the SDSU team produced results that Brad Bonhorst, former president of the South Dakota Oilseeds Council, describes as “one of the best uses of checkoff dollars that I've ever seen.” He says, “[They] took a relatively small amount of money and came up with some really impressive results.”

The National Sunflower Association took over funding the project in 2013, which allowed researchers to expand the project to two additional operations — another Onida farmer who has a John Deere 9770 combine and one in Hazen, N.D., who owns a Case IH 8230. “All three models have different exhaust sizes and configurations,” Humburg explains, so the exhaust enclosure system has to be redesigned for each combine. “That’s the limitation.”

Based on the SDSU findings, Humburg hopes this type of equipment will eventually become standard on future combines.



Source: South Dakota State University Agricultural Experiment Station



 Back to Magazine



Comments:
There are no comments at this time. Be the first to submit a comment.


*
*


 
 
new to site?
 

Top of the Page

copyright ©2014 National Sunflower Association