山东济宁杨营煤矿工业广场新近系砂层水井回灌量分析

Yangying Coalmine Surface Installation Area Neogene Sand Layer Wells Recharge Rate Analysis in Jining, Shandong

杨营煤矿拟采用水源热泵空调系统替代传统的取暖、空调设施。为满足水源热泵空调系统室外地能换热系统设计的需要,需确定静水和动水无压回灌的效果,抽水井、回灌井的数量和间距。通过对杨营煤矿工业广场新生界砂层含水特征及新近系深水井的抽水和回灌试验,进行了静水和动水无压回灌的比较,发现动水无压回灌的效果较好,回灌量较大,回灌比达67%,从而确定了实现全部回灌的井群布置方式:根据系统需水量大小,采用抽水井、回灌井为1∶2或2∶3的比例设置水井数量,井间距不小于75 m。

The Yangying coalmine is intended to use water-source heat pump air-conditioning system to substitute traditional heating and air-conditioning facilities. To satisfy water-source heat pump air-conditioning system outdoor ground source heat exchange design requirements, need to determine hydrostatic and hydrodynamic unpressurized recharging effects, number of pumping and recharging wells and intervals between them. Through Yangying coalmine surface installation area Neogene sand layer water-bearing characteristics and Neogene deep well pumping and recharging tests, carried out hydrostatic and hydrodynamic unpressurized recharging comparison have found that the effect of hydrodynamic unpressurized recharging is better with larger recharge rate and recharging ratio can be67% as high. Thus determined the total recharging wells layout： according to system required water amount, using proportion of pumping, recharging wells 1：2 or 2：3 to set well numbers, and interval between wells not less than 75 m.