Due　to　the　limit　of　heat　transfer　performance　of　building　materials,　the　depth　of　the　north　wall　affected　by　solar　radiation　was　shallow　in　the　passive　solar　greenhouse,　which　weakened　the　heat　storage　capacity　of　the　wall　interior.　In　this　study,　a　phase　change　material　wall　with　vertical　air　channels　integrating　solar　concentrators　was　developed　to　fully　strengthen　the　temperature　and　heat　storage　capacity　of　the　wall　interior　by　the　active　method　and　improve　the　temperature　and　heat　storage　capacity　of　PCM　wallboards　by　the　passive　method.　In　order　to　prove　the　scientificity　and　feasibility　of　the　identity,　the　experimental　setup　of　multiple　surfaces　trough　solar　air　collector　and　the　experimental　setup　of　phase　change　material　wall　with　vertical　air　channels　were　built.　And　influencing　characteristics　of　the　air　velocity　in　the　collector　and　solar　radiation　on　solar　concentrators　and　influencing　characteristics　of　the　gap　between　air　channels,　the　flow　direction　of　heated　air,　and　the　velocity　of　the　supply　air　on　phase　change　material　wall　with　vertical　air　channels　were　experimentally　investigated,　respectively.　The　results　showed　that　the　suitable　air　velocity　in　the　collector　was　1.4~1.8　m/s,　and　the　heat　collection　rose　with　the　increase　of　solar　radiation.　The　optimum　conditions　of　phase　change　material　wall　were　experimentally　recommended:　the　gap　was　400　mm,　the　flow　direction　was　downward,　and　the　supply　air　velocity　was　0.26　m/s.　While　the　experiment　was　carried　out　on　the　optimum　conditions,　the　heat　exchange　effectiveness　was　66.2%,　and　the　active　heat　storage　density　was　9.43　MJ/m3,　82.3%　of　which　were　stored　in　the　block　layer.　Moreover,　the　discrepancy　of　the　active　heat　storage　and　the　heat　release　was　1.6%.　©,　2015,　Chinese　Society　of　Agricultural　Machinery.　All　right　reserved.