The refillable Kimtech W Aviation Wet Wipe System’s buckets give you more controlled dispensing and application of solvents for reduced waste and better overall performance versus traditional bucket / decanter systems and disposable pre-saturated options. The one-gallon buckets are made of high density polyethylene with a PE foam lid gasket and are easy to use with a re-closable cap and convenient carry handle. They are compatible with Kimtech A2 and Kimtech C3 Wipers, both of which come in convenient rolls and are compatible with most solvents used in aviation (such as MEK, TCE, Acetone, MPK, Isopropanol, etc…). The wipers specially engineered to perform in all areas of Original Equipment Manufacturing (OEM) and Maintenance Repair Operations (MRO), including paint surface prep, engine maintenance and general-purpose cleaning. All Kimtech Aviation Wipes are qualified and listed on PRE-QPL-AMS 3819C (Aerospace Materials Specifications) and meet the requirements of BMS 15-5G (Boeing Material Specifications). With the Wet Wipe System, you can use any cleaning solution and saturation level you need. Trust the Kimtech Brand for new wiping solutions designed to meet aviation industry needs.
Compatible with rolls of Kimtech A2 and Kimtech C3 Aviation Surface Prep wipes, for efficient solvent wiping; Refillable bucket has a re-closable lid and carry handle
The wipers are compatible with most common solvents used in aviation (including MEK, TCE, Acetone, MPK, Isopropanol, etc…); Use any cleaning solution and saturation level
Designed to perform in Original Equipment Manufacturing (OEM) and Maintenance Repair Operations (MRO), including paint surface prep, engine maintenance and general-purpose cleaning
Meets requirements of BMS 15-5G (Boeing Material Specifications) and are listed on PRE-QPL-AMS 3819C (Aerospace Materials Specifications)
Instructions for using the Operating Cost Analysis Tool
The Operating Cost Analysis Tool is divided into four sections:
- Section 1: Input Data - raw data used in the calculations
- Section 2: Output Data - calculated data based on Operating Cost formulas
- Section 3: Summary Data - a comparison of the initial and energy costs for each option
- Section 4: Graph Data - a graphical comparison of the initial and energy costs for each option
Enter the appropriate data on the "Input Data" page
If necessary, you may change the default data that automatically appears in the input fields.
All of the WHITE cells must contain input data for the model to work. If fields are left blank or as zeros the data will not be complete. Not a number (NaN) and infinity values indicate an error.
The system airflow rate is set at a default equal to 2000cfm multiplied by # of Filters. The system airflow rate appears when you enter a value in the "# of Filters" field. To change this default, simply enter the actual system airflow in this field and do not change the "# of Filters" field.
To clear all fields and reset the inputs to their defaults, use the "Clear All" button. To reset only the input fields, use the "Default Input" button.
The "Calculations" section displays the calculated data based on the input data. These calculations are use to create the Summary Data. It contains the following sections: 1) Initial Investment Costs 2) Energy Costs.
Energy Calculations are based on the following formula:
Filter pressure drop is calculated as the straight line average between the initial pressure drop and the final pressure drop.
The "Calculations" section cannot be changed.
The "Summary Data" section displays a comparison of the results for each option. This page also recommends which option would realize the most savings.
The "Graph Data" displays a graphical comparison of the cost categories between each filter option.
Print each tab with the button in the lower right. This will print the text in black and white. Use the print button of your web browser to print in color.