Modelling facility for field-average formation pressure  at any time moment  as response to production flowrates history:

 A_e \, h_e \int_{p_i}^p \phi_e(p) \, c_t(p) \, dp  = \Delta Q (t) =  Q^{\downarrow}_t(t) - Q^{\uparrow}_t(t) + Q^{\downarrow}_{GC}(t) + Q^{\downarrow}_{AQ}(t)

where

	initial formation pressure		full-field cumulative reservoir fluid balance
	drainage area		full-field cumulative offtakes by the time moment
	effective formation thickness averaged over drainage area		full-field cumulative intakes by the time moment
	effective porosity as function of formation pressure		cumulative gas influx from Gas Cap Expansion
	total compressibility as function of formation pressure		cumulative water influx from Aquifer Expansion

The MatBal equation   is often complemented by constant PI  model of Bottom-Hole Pressure ( for producers and  for injectors):

p^{\uparrow}_{wf, k}(t) = p(t) - {J^{\uparrow}_k}^{-1} \cdot \frac{dQ^{\uparrow}_k}{dt}

p^{\downarrow}_{wf, \, j}(t) = p(t) -  {J^{\downarrow}_j}^{-1} \cdot \frac{dQ^{\downarrow}_j}{dt}

In practice there is no way to measure the external influx  and  so that one need to model them and calibrate model parameters to fit available data on production flowrates history and formation pressure data records. 

There is a list of various analytical Aquifer Drive and  Gas Cap Drive models which are normally related to pressure dynamics :

Q^{\downarrow}_{GC}(t) = Q^{\downarrow}_{GC}(p(t))

Q^{\downarrow}_{AQ}(t) = Q^{\downarrow}_{AQ}(p(t))

which closes equation  for the pressure .

Variations

In some specific cases equation  can be explicitly integrated:

p(t)  = p_i + \frac{\Delta Q(t)}{V_e \cdot c_t}

p(t)  = p_i \exp \left[ \frac{\Delta Q(t)}{V_e \cdot c_t} \right]

where

See Also

Petroleum Industry / Upstream /  Production / Subsurface Production / Field Study & Modelling / Production Analysis / Flowing Material Balance Analysis (FMB)

[ Material Balance Pressure Plot ][ Material Balance Pressure @model ]