Foam-in-bag systems and components thereof

What is claimed is: 1. A system comprising: a dip tube configured to be inserted through an opening in a source of chemical precursor and into the chemical precursor in the source; a feed line, wherein a portion of the feed line is located in the dip tube, wherein the feed line passes out of the dip tube, and wherein the chemical precursor is capable of flowing out of the source through the feed line in a downstream direction; a check valve located in the portion of the feed line in the dip tube, wherein the check valve is configured to permit the chemical precursor to pass substantially only in the downstream direction, wherein the feed line is configured to be coupled to a transfer pump that is configured to draw the chemical precursor out of the source through the portion of the feed line in the dip tube; and a filter located in the portion of the feed line in the dip tube, wherein the filter is configured to filter debris from the chemical precursor; wherein the filter is attached to an inside diameter of the feed line along a majority of a length of the dip tube. 2. A system comprising: a dip tube configured to be inserted through an opening in a source of chemical precursor and into the chemical precursor in the source; a feed line, wherein a portion of the feed line is located in the dip tube, wherein the feed line passes out of the dip tube, and wherein the chemical precursor is capable of flowing out of the source through the feed line in a downstream direction; a check valve located in the portion of the feed line in the dip tube, wherein the check valve is configured to permit the chemical precursor to pass substantially only in the downstream direction, wherein the feed line is configured to be coupled to a transfer pump that is configured to draw the chemical precursor out of the source through the portion of the feed line in the dip tube; a transfer pump system that includes the transfer pump, wherein the feed line passes through the transfer pump system; and a return line, wherein a portion of the return line is located in the dip tube, wherein the feed line passes out of the dip tube to the transfer pump system, and wherein the return line is in fluid communication with the feed line at a location downstream of the transfer pump. 3. The system of claim 2 , further comprising: a bleed valve and a prime valve located in parallel on the return line. 4. The system of claim 3 , wherein: the bleed valve is configured to be open when the bleed valve is unpowered; and the prime valve is configured to be closed when the prime valve is unpowered. 5. The system of claim 2 , further comprising: a check valve located in the feed line between the transfer pump and the location at which the return line is in fluid communication with the feed line downstream of the transfer pump. 6. The system of claim 2 , further comprising at least one hose coupled to the dip tube and coupled to the transfer pump system, wherein the feed line and the return line pass through the at least one hose. 7. A system comprising: a dip tube configured to be inserted through an opening in a source of chemical precursor and into the chemical precursor in the source; a feed line, wherein a portion of the feed line is located in the dip tube, wherein the feed line passes out of the dip tube, and wherein the chemical precursor is capable of flowing out of the source through the feed line in a downstream direction; a check valve located in the portion of the feed line in the dip tube, wherein the check valve is configured to permit the chemical precursor to pass substantially only in the downstream direction, wherein the feed line is configured to be coupled to a transfer pump that is configured to draw the chemical precursor out of the source through the portion of the feed line in the dip tube; a transfer pump system that includes the transfer pump, wherein the feed line passes through the transfer pump system; and a pressure transducer configured to measure pressure in the feed line upstream of the transfer pump, wherein the pressure transducer is located outside of the source of the chemical precursor. 8. The system of claim 7 , wherein the pressure transducer is located inside the transfer pump system. 9. The system of claim 7 , wherein the pressure measurement of the pressure transducer is indicative of a level of the chemical precursor in the source of the chemical precursor. 10. The system of claim 7 , wherein the pressure measurement of the pressure transducer is indicative of a blockage in the feed line. 11. The system of claim 7 , wherein the pressure measurement is indicative that cavitation is possible in the feed line. 12. The system of claim 11 , further comprising: a temperature sensor configured to measure temperature in the feed line upstream of the transfer pump, wherein the temperature sensor is located outside of the source of the chemical precursor; wherein the temperature measurement is further indicative that cavitation is possible in the feed line. 13. A method comprising: inserting a dip tube through an opening in a source of chemical precursor and into the chemical precursor in the source, wherein a portion of a feed line is located in the dip tube, wherein the feed line passes out of the dip tube, wherein the chemical precursor is capable of flowing out of the source through the feed line in a downstream direction, wherein a check valve is located in the portion of the feed line in the dip tube, and wherein the check valve is configured to permit the chemical precursor to pass substantially only in the downstream direction; coupling the feed line to a transfer pump; and using the transfer pump to draw the chemical precursor out of the source through the portion of the feed line in the dip tube; wherein a filter is located in the portion of the feed line in the dip tube wherein the filter is configured to filter debris from the chemical precursor; and wherein the filter is attached to an inside diameter of the feed line along a majority of a length of the dip tube. 14. A method comprising: inserting a dip tube through an opening in a source of chemical precursor and into the chemical precursor in the source, wherein a portion of a feed line is located in the dip tube, wherein the feed line passes out of the dip tube, wherein the chemical precursor is capable of flowing out of the source through the feed line in a downstream direction, wherein a check valve is located in the portion of the feed line in the dip tube, and wherein the check valve is configured to permit the chemical precursor to pass substantially only in the downstream direction; coupling the feed line to a transfer pump; and using the transfer pump to draw the chemical precursor out of the source through the portion of the feed line in the dip tube; wherein the transfer pump is included in a transfer pump system; wherein the feed line passes through the transfer pump system; wherein a portion of a return line is located in the dip tube; wherein the feed line passes out of the dip tube to the transfer pump system; and wherein the return line is in fluid communication with the feed line at a location downstream of the transfer pump. 15. The method of claim 14 , wherein: a bleed valve and a prime valve are located in parallel on the return line; the bleed valve is configured to be open when the bleed valve is unpowered; and the prime valve is configured to be closed when the prime valve is unpowered. 16. The method of claim 14 , wherein: a bleed valve and a prime valve are located in p