In this paper, we explore the Joule-Thomson expansion (JTE) process for the Einstein-Power-Young-Mills (EPYM) and the AdS Kerr Sen (AKS) black holes. We study the effect of free parameters on the Joule-Thomson coefficient (JTC), the inversion curve, and the $T_i^{min}/T_{c}$. The isenthalpic curves of the AKS black hole show cooling or heating behavior depending on the inversion curve, which is affected by the mass and the parameters $b$ and $a$ of the black hole. If we assume the parameter $b$ to be zero, the results reduce to the Kerr-AdS black holes[1]. In [2,3], for the Einstein-Power-Yang-Mills AdS black hole with $q>1$ and $n=2$, the $T_i^{min}/T_{c}$ is $1/2$. But in this paper, for the AdS-Maxwell-power-Yang-Mills black hole, when $q>1$, the $T_i^{min}/T_{c}$ is almost equal to $1/2$ for the increase of Maxwell's charge $C$, and when $q=1/2$, the $T_i^{min}/T_{c}$ is equal to $1/2$ for all values of $C$. Also, when $1/2Comment: 28 pages, 7 figures, 5 tables