Thank you for the praise, I will always be here to answer questions and to guide people so they do not make all the dumb mistakes I have made with these pumps. My biggest concern is that no one gets hurt. I am a banker by day and get very little satisfaction from what I do, but working on the pumps gives me a feeling of instant gratification. I do enjoy it, I am amazed at the engineering that went into them and that they spend 24/7/ 365 days a year submerged in gasoline, working at full capacity from the moments before the engine starts to when they key is turned off. Many of the pumps are 40 plus years old, I would wager there is no part on a modern car that is subjected to that kind of workload that will be functioning properly in 40-50 years. Mercedes went above and beyond , I guess that is why I now polish all the outside cases on the pumps, for I want them to looks as good on the outside as they perform on the inside. I do try and get on the forum at least once a day to answer any questions I can. Back to the testing fluid question viscosity is the measure of a fluid's resistance to flow, molasses is highly viscous, water is medium viscous, gas is low viscous at normal outside temperatures (the grey area in the chart below). If you use diesel gasoline I do not think the change in viscosity will be enough to dramatically alter the flow, but be aware if you look on the following chart at regular outside temperatures they are significantly different so my bigger concern would be leaking from poor or misaligned gaskets if you are using a different viscosity from gasoline.
Bob
