1 / 52

WUFFDA Basics

WUFFDA Basics. WUFFDA requires the MicroSoft Excel spreadsheet program with the Solver Option installed. Basic knowledge of spreadsheet usage is all that is required to use the program. WUFFDA can solve a problem with 25 ingredients and 34 nutrients. First Step in the Formulation Process.

amynelson
Download Presentation

WUFFDA Basics

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript


  1. WUFFDA Basics • WUFFDA requires the MicroSoft Excel spreadsheet program with the Solver Option installed. • Basic knowledge of spreadsheet usage is all that is required to use the program. • WUFFDA can solve a problem with 25 ingredients and 34 nutrients.

  2. First Step in the Formulation Process • Prepare an ingredient composition matrix. • WUFFDA contains nutrient composition data for a large number of ingredients. • You may enter data directly into the “Active” Ingredient Matrix • Or you may copy data from the “Storage” matrix to the Active matrix.

  3. Ingredients • The Active Ingredient Composition Matrix Box is at the top of the “Ingredients” spreadsheet. • Ingredient composition information is stored at the bottom of the “Ingredients” spreadsheet. • The composition of any number of ingredients may be stored there.

  4. Active Ingredients • The ingredients in the Active Ingredient Composition Matrix Box will be used in the current formulation. • The next window shows a typical ingredient composition matrix for a broiler diet.

  5. Notice Alfalfa

  6. Preparing the Active Ingredient Matrix • Copy ingredient composition data from the storage area at the bottom of the spreadsheet to the active matrix area at the top • Always make any changes that you want to be permanent at the bottom of the sheet and copy them to the top.

  7. Preparing the Active Ingredient Matrix • Copying data from the Ingredient Composition Storage Matrix to the Active Matrix:

  8. Click on the “38” to highlight the Canola line, then press the right mouse button to pull down the edit menu, and click “Copy”.

  9. Press the <Page Up> key or scroll up to see the Active Ingredient Composition Matrix

  10. Click on the “15” to highlight the Alfalfa line, then press the right mouse button to pull down the edit menu, and click “Paste”.

  11. Alfalfa Data Replaced by Canola Data

  12. Nutrient Requirements • Next, the nutritional requirements must be set: • Lists of nutritional requirements are contained on the “Nutrients” spreadsheet. • You can enter data directly into the “Current Specification” Area. • Or you may Cut and Paste from stored requirement lists.

  13. Highlight the data to be copied by holding down the left mouse button while dragging the mouse across the block.

  14. Press the right mouse button and click on “Copy”.

  15. Place the cursor on cell C4 at the upper left corner of the Current Specification Box and choose “Paste” from the pull-down edit menu.

  16. And the Broiler Grower Feed becomes the “Current Specification”.

  17. By Copying and Pasting, the Original Data Remains Unchanged. A New Nutrient Specification Can Always Be Copied and Stored for Future Use.

  18. Ratios Between Nutrients • It is easy to specify ratios between nutrient minimumrequirements in WUFFDA. • Simply insert a formula in the cell containing the requirement. • In the following example, the available phosphorus requirement in cell C14 is set equal to ~38.9 % of the calcium requirement in cell C12.

  19. Ratios Between Nutrients • To assure that exact ratios will be achieved in the solutions is a more complex problem. • Another column or “nutrient” must be added to the ingredient matrix. • This causes the ratio information to be stored with the ingredient composition matrix and not with the nutritional requirements.

  20. Ratios Between Nutrients • The new column is calculated by: • C=A-(P x B) • Where: • C = Coefficient • A = Value of First Nutrient • B = Value of Second Nutrient • P = Desired Proportion Between Nutrients

  21. A new column to set the Calcium to Phosphorous Ratio equal to 2.0000 is created by inserting an equation in the new column:

  22. When the equation is copied to all the cells in the column, values for ingredients with higher Ca:P ratios are more positive :

  23. The Value for the Ca:P ratio should be fixed at zero, so the positive and negative coefficients balance each other out.

  24. The Available Phosphorous in the solution is exactly half the Calcium level when the Ca:P=2 coefficients total to zero.

  25. If only the minimum requirement for Calcium is changed, the amounts of Calcium and Available Phosphorous in the solution changes.

  26. Formulating A Diet • When the ingredients have been chosen and the nutrient limits have been set, it is time to formulate the diet. • Go to the “Formulate” Spreadsheet:

  27. Formulating a Feed • The Formulate Spreadsheet contains the same minimum and maximum requirement data as the Ingredient and Nutrient Spreadsheets. • Changes to requirement data should only be made on the Ingredients and Nutrient Spreadsheets.

  28. Formulating a Feed • You can enter data directly into the “Amounts” column on the left of the spreadsheet, and the nutrients supplied by those amounts will be displayed on the right in the “Supplied” column. • This is an excellent method of estimating what is in a feed that is already formulated.

  29. Or You Can Get Excel to Formulate the Least-Cost Feed By Choosing “Solver…” From the Tools Menu.

  30. Constraints have all been set in the Solver Dialogue Box, so just click on the “Solve” Button.

  31. Hopefully Solver will find a solution and you can just click on the “OK” Button to see what it is.

  32. The Amount of Each Ingredient in the Formula and the Nutrients the Diet Supplies Will Be Displayed.

  33. Output From Formulations • The information from the Formulate Spreadsheet is Automatically transferred to the Feed Spec. Spreadsheet for printing on a black & white printer, on a single sheet of paper.

  34. “Print Preview” of a Feed Specification.

  35. Output From Formulations • Results are also graphed on the “Graph” spreadsheet for viewing in another perspective: as a proportion of the minimum requirement.

  36. Scroll to See Both Graphs

  37. Output From Formulations • A mixing sheet can also be printed from the “Mixing Sheet” Spreadsheet. • The <Ctrl> and <m> keys must be pressed together to sort the data from the largest ingredient to the smallest (the order they should be added to the mixer).

  38. Sensitivity Analyses • Solver can give information on how feeds may change: • Changes in ingredient usage when ingredient prices change. • Changes in feed prices when nutrient levels change.

  39. Sensitivity Analyses Choose “Sensitivity” from the list of possible Reports in the Solver Results Dialogue Box.

  40. Sensitivity Analyses • This creates the Sensitivity Report Spreadsheet, containing all the necessary information. • Each time the feed is formulated an additional Sensitivity Report is created if requested. It may be best to delete them as soon as they are no longer needed.

  41. This feed should contain 52.09 % Corn unless the price increases by $0.989, or decreases by $0.129. Corn’s current value is $5.25 per 100 pounds.

  42. This formulation would begin to use barley if it’s price decreases by $2.0989.

  43. The cost of the feed is expected to change by $0.4201 if the level of protein specified were to change by 1 unit up or down.

More Related