Hyperspectral images typically suffer from low resolution due to inherent hardware constraints, complicating downstream tasks like detection, classification, and recognition. In our study, we introduce a kernel prior network (KPNet) designed to address the the hyperspectral image (HSI) blind super-resolution (BSR) challenge in an unsupervised fashion. Double-DIP, comprising two deep image priors (DIP), enables the simultaneous reconstruction of high-dimensional spectral data and kernel estimates via an untrained encoder-decoder network configuration in the parameter space. The KPNet creates a reversible connection between complex blur kernel distributions and simple hidden variable distributions. In addition, the proposed DIP can also estimate reliable blur kernels, which can be integrated into existing blind super-resolution techniques. Comprehensive experiments conducted on standard datasets demonstrate that our proposed approach markedly surpasses current techniques in performance.