Conversion Factors for Oilfield Units Need for Unit Conversions • Petroleum Engineers must be able to work with various unit systems – International scope of industry • Unit systems used varies geographically • Team members may not all be located in same geographical location • Joint ventures between companies – Particular units may be required at your location • Legislated units for reporting and regulatory compliance • Company protocol Oilfield Units • Oilfield units are non-coherent – Newton’s 2nd Law (F=ma) • SI: Force (Newton) is a derived unit to make equation coherent • USCS: Mass (slugs) is a derived unit to make equation coherent • AES, Oilfield Units: A unit conversion constant required (F=ma/gc ) – Darcy’s Law • Darcy units: Permeability is a derived unit to make equation coherent • SI: coherent (permeability unit is m2 ) • Oilfield Units: A unit conversion constant is required – The constant may include geometry terms (integrated form) – For gas flow, the constant may include standard temperature and pressure, even for Darcy and SI units q C k dΦ vs A μ ds Learning Objectives • Deriving unit conversion constants – Given • A physical relationship expressed as an equation, using coherent units or with a correct conversion constant supplied • and appropriate unit conversion factors between unit systems – Find • The required unit conversion constant (including its units) to express the equation in a different unit system • Correctly apply Darcy Equations for incompressible fluid and real gas, using oilfield units – See handout, “Darcy Equations” • Note definitions of standard temperature and pressure for the Real Gas cases Darcy’s Law - Darcy Units • Linear (1-D) flow of an incompressible fluid kA Δp q μL – where, • • • • • • q k A p L cm3/s darcies cm2 atm cp cm – The Darcy a derived unit of permeability, defined to make this equation coherent (in Darcy units) Darcy’s Law - Oilfield Units • Linear (1-D) flow of an incompressible fluid CkA Δp q μL – where, • • • • • • q k A p L bbl/D millidarcies ft2 psia cp ft – The approach demonstrated will be to convert each term back to Darcy units, restoring the coherent equation, then collecting the conversion factors to obtain the oilfield unit constant, C Darcy’s Law - Oilfield Units q [cm3/s] = q [bbl/D] · 5.61458 [ft3/bbl] · (30.48)3 [cm3/ft3] · (1/86400) [D/s] = 1.84013 [(cm3/s)/(bbl/D)] · q [bbl/D] k [d] = k [md] · (1/1000) [d/md] A [cm2] = A [ft2] · (30.48)2 [cm2/ft2] p [atm] = p [psia] · (1/14.6959) [atm/psia] L [cm] = L [ft] · 30.48 [cm/ft] k[md] 0.001[d/md ] A[ft 2 ] 929.03[cm 2 /ft 2 ] q[bbl/D] 1.84013[(c m /s)/(bbl/D )] μ[cp] L[ft] 30.48[cm/f t] 3 Δp[psia] 0.068046[atm/psia] Darcy’s Law - Oilfield Units – Collecting the constants and canceling 0.001127 k[md] A[ft 2 ] Δp[psia] q[bbl/D] μ[cp] L[ft] • The unit of the constant is defined from the above equation C 0.0011271 [bbl/D] [cp] [ft] [md][ft 2 ][psia] • We were able to cancel leaving the units of C as shown above because, [cm 3 /s] [cp] [cm] 1[d] 1 [cm 2 ][atm] Static Pressure Gradient - SI Units • Static pressure gradient of a fluid dp ρ g dh – where, • • • • p g h Pa = N/m2 = (kgm/s2)/(m2) = kg/(ms2) kg/m3 9.80665 m/s2 m – Coherent for SI units Static Pressure Gradient - Oilfield Units • Static pressure gradient of a fluid dp ρg dh D – where, • • • • p g h psi = lbf/in2 lbm/ft3 32.174 ft/s2 ft Static Pressure Gradient - Oilfield Units p [Pa] = p [psi] · 6894.757[Pa/psi] [kg/m3] = [lbm/ft3] · 16.01846 [kg/m3)/(lbm/ft3)] h [m] = h [ft] · 0.3048 [m/ft] dp[psi] 6894.757[Pa/psi] ρ[lb m /ft 3 ] 16.01846[(kg/m 3 )/(lb m /ft 3 )] g[ft/s2] 0.3048[m/f t] dh[ft] 0.3048[m/f t] • Because the constant D is on the bottom, collect terms on left and cancel using definition of Pascal [Pa] D=4633.06 [(lbm /ft3)(ft/s2)(ft)/(psia)] • Alternate derivation from dimensional homogeneity (self study) D=(144 [in2/ft2]) · (32.174[(lbm·ft)/(lbf·s2)]) – OR D=4633.06 [(in2/ft2)·(lbm·ft)/(lbf·s2)]) Handout - Darcy Equations • Darcy Equations for Real Gas • For pseudopressure, m(p), the unit conversion constant, C, is the same as for p2 equation (Constant (z g)) (p12 p22 ) Replaced by z μ g m(p 1 ) m(p 2 ) – A single term of the equation is replaced with the term in brackets having the same units and meaning: Term 2p p dp 2 zμ g p1 • Note that in oilfield units, m(p) has units of [psia2/cp] • Note the constant, C, includes the 1/2 from integration