王营井田煤层气储量丰富，构造地质条件独特，构成了封闭的煤层气田．王营向斜和大型边界断裂的产状和力学性质有利于煤层气的保存；岩浆岩的大量发育造成了煤变质程度的升高，促进了煤层气的生成；岩浆岩墙的密集分布将煤层气田分割为若干区段，区段内煤变质程度和裂隙系统发育具有规律性的差异变化，影响和控制了煤层气的生成、储集和运移．详细掌握这些地质构造因素，可为开发本井田煤层气提供依据． Wangying Minefield has rich CBM reserves and unique tectonic geological conditions, forming a closed CBM field. The occurrence and mechanical properties of Wangying synclinal and large-scale boundary faults are favorable for the preservation of coalbed methane. The massive development of magmatic rocks resulted in the increase of coal metamorphism and the promotion of coalbed methane production. The gas field is divided into several sections, and the coal metamorphism degree in the section and the development of fractured systems have regular variations, which influence and control the formation, storage and migration of coalbed methane. Grasping these geological structural factors in detail can provide the basis for the development of coalbed methane in this field.