1. Interior insulation retrofit of a historical brick wall using vacuum insulation panels: Hygrothermal numerical simulations and laboratory investigations

2. J. Kočí, V. Kočí, J. Maděra, P. Rovnaníková, R. Černý, “Computational analysis of hygrothermal performance of renovation renders”, in Advanced Computational Methods and Experiments in Heat transfer XI Book Series: WIT, Conference Proceeding WIT Transactions on Engineering Sciences Volume: 68, edited by B. Sunden, et.al. Wessex Inst Tech; Lund Univ; Dev Heat Transfer Book Series (2010), pp.: 267–277.

3. J. Maděra, V. Kočí, J. Kočí, J. Výborný, R. Černý, “Computational prediction of hygrothermal conditions in innovated AAC-based building envelopes”, in Advanced Computational Methods and Experiments in Heat transfer XI Book Series: WIT Conference Proceeding WIT Transactions on Engineering Sciences Volume: 68, edited by B. Sunden, et.al. Wessex Inst Tech; Lund Univ; Dev Heat Transfer Book Series (2010), pp.: 291–301.

4. Effect of façade impregnation on feasibility of capillary active thermal internal insulation for a historic dormitory – A hygrothermal simulation study

5. Capillary active interior insulation: do the advantages really offset potential disadvantages?