I beg to differ to Hans' answer:
Of course, SEE_MASK_NOZONECHECKS is as well a predefined environment variable. Changing it in a process and then starting a child process (e.g. msiexec.exe) which by defaults inherits the environment, has just the same result as using ShellExecuteEx() and providing SEE_MASK_NOZONECHECKS as a parameter to the SHELLEXECUTEINFO structure. The first method is preferred by admins or quick hacks, e.g. if you work with batch or script files which set the environment variable- or when the final call to the .msi file lying on the unsafe network drive is not done by your own code.
call msiexec.exe /i "\\MY_UNC_DRIVE\installs\mysetup.msi /qb /L*v "c:\logs\mysetup.log"
If you already use a ShellExecuteEx() in your code, then of course, go with the parameter as Hans mentioned, because this implementation it is more closed. (If you use CreateProcess(), think about using ShellExecuteEx() instead.
Getting back to the environment variable(s). Generally you cannot influence the environment of already started processes. You can set the default environment used by NEW processes by the "setx" command used in the question. But with "setx" you don't change the environment for your current process.This was the problem in question. For this you have to use "set" as shown. So either use both commands after each other or don't use setx at all because for running a setup on foreign machines, it is not clean to make permanent security changes without asking.
For more details on permanent changes/admin point of view, see:
Important: As mentioned, there is no general way in Windows to influence processes which already run (only own-defined inter-process-communication maybe), so it is important to set the environment variable before starting the setup to be influenced.
One more thing: Some people think, one must use "SETLOCAL" in a batch file. Normally this is not necessary. Environment changes with "set" are not permanent, and do not incluence "other" processes- they are only inherited to subprocesses and, partly, to superprocesses. But, when the caller on first level ends, the environment is reverted to original state again.