Frequent　offshore　oil　leakage　accidents　and　large　quantities　of　oily-wastewater　produced　in　industry　and　daily　life　bring　huge　challenges　to　global　water　purification.　The　adaptability　and　stability　of　organogels　as　adsorbent　materials　have　shown　wide　application　prospects　in　the　field　of　oil-water　separation.　Herein,　the　organogels　displayed　stable　hydrophobic/lipophilic　properties　with　high　absorption　ability　(1200　wt./wt%),　efficient　sorption　of　multiple　emulsions　(＞99.0%),　and　good　reusability.　More　importantly,　the　organogels　were　successfully　assembled　with　2D/3D　substrates　to　achieve　excellent　sorption　capacity　(102.5　g/g)　and　recycling　performance　(50　cycles).　The　gel-carbon　black　assembled　on　MS　(GCB-MS)　sorbent　with　excellent　photothermal　conversion　performance,　and　can　rapidly　heat　the　surface　to　70.4　°C　under　1.0　sunlight　radiation　(1.0　kW/m2)　and　achieved　an　ultra-high　sorption　capacity　of　about　103　g/g　for　viscous　crude　oil.　Meanwhile,　the　GCB-MS　was　combined　with　a　pump　to　build　continuous　oil　spill　cleaning　equipment　to　achieve　a　super-fast　cleanup　rate　of　6.83　g/min.　The　developed　hydrophobic　organogels　had　been　expanded　unprecedentedly　to　realize　the　comprehensive　treatment　of　oily-wastewater　in　complex　environments,　including　layered　oils,　emulsions,　and　viscous　crude　oil　spill,　which　provided　an　effective　path　for　the　comprehensive　treatment　of　oily　wastewater　in　complex　environments.　©　2023　Elsevier　B.V.