IHUFCB – is a flag and a unit number.

•> 0 –the unit number to which cell-by-cell flow terms will be written when "SAVE BUDGET" or a non-zero value for ICBCFL is specified in Output Control (Harbaugh and others, 2000, p. 55). The terms that are saved are storage, constant-head flow, and flow between adjacent cells.

•0 – cell-by-cell flow terms will not be written.

•< 0 – cell-by-cell flow for constant-head cells will be written in the listing file when "SAVE BUDGET" or a non-zero value for ICBCFL is specified in Output Control. Cell-by-cell flow to storage and between adjacent cells will not be written to any file.

The flow terms that will be saved are the flows through the right, front, and lower cell face. Positive values represent flows toward higher column, row, or layer numbers.

HDRY – is the head that is assigned to cells that are converted to dry during a simulation. Although this value plays no role in the model calculations, it is useful as an indicator when looking at the resulting heads that are output from the model. HDRY is thus similar to HNOFLO in the Basic Package, which is the value assigned to cells that are no-flow cells at the start of a model simulation.

NHUF – is the number of hydrogeologic units defined using the HUF package.

NPHUF – is the number of HUF parameters.

In MODFLOW-2000, the maximum number of allowed parameters is 999.

IOHUFHEADS – is a flag and a unit number.

•0 – interpolated heads will not be written.

•>0 – Interpolated heads will be computed and saved to unit IOHUFHEADS for each hydrogeologic unit, using the format defined in the output-control file when "SAVE HEADS" is specified or (equivalently) when nonzero values are specified for IHDDFL and for Hdsv in at least one layer.  (If no print format has been defined, saving will be in binary format.)

IOHUFFLOWS– is a flag and a unit number.

•0 – Interpolated cell-by-cell flows will not be computed or written anywhere.

•> 0 – Interpolated cell-by-cell flows will be computed and saved to unit IOHUFFLOWS for each hydrogeologic unit, in binary format, when "SAVE BUDGET" or (equivalently) a nonzero value for ICBCFL is specified..

WETFCT – is a factor that is included in the calculation of the head that is initially established at a cell when the cell is converted from dry to wet. (See IHDWET.)

IWETIT – is the iteration interval for attempting to wet cells. Wetting is attempted every IWETIT iterations. If using the preconditioned conjugate gradient (PCG) solver (Hill, 1990), this applies to outer iterations, not inner iterations. If IWETIT is less than or equal to 0, it is changed to 1.

IHDWET – is a flag that determines which equation is used to define the initial head at cells that become wet:

•If IHDWET = 0, equation 3a from McDonald and others (1992) is used:

h = BOT + WETFCT (hn - BOT)

•If IHDWET is not 0, equation 3b from McDonald and others (1992) is used:

h = BOT + WETFCT (WETDRY)

If HGUNAM is set to “ALL”, HGUHANI and HGUVANI are set for all hydrogeologic units and only one Item 9 is necessary. Otherwise, HGUNAM must correspond to one of the names defined in Item 6, and there must be NHUF repetitions of Item 9. The repetitions can be in any order.

HGUHANI – is a flag and a horizontal anisotropy value for a hydrogeologic unit. Horizontal anisotropy is the ratio of hydraulic conductivity along columns to hydraulic conductivity along rows. Read one value for each hydrogeologic unit unless HGUNAM is set to ALL.

•0 – indicates that horizontal anisotropy will be defined using a HANI parameter.

•>0 – HGUHANI is the horizontal anisotropy of the entire hydrogeologic unit.

HGUVANI – is a flag that indicates whether array VK is vertical hydraulic conductivity or the ratio of horizontal to vertical hydraulic conductivity. Read only one value for each hydrogeologic unit unless HGUNAM is set to ALL.

•0 – indicates VK is hydraulic conductivity (VK parameter must be used).

•>0 – indicates VK is the ratio of horizontal to vertical hydraulic conductivity and HGUVANI is the vertical anisotropy of the entire hydrogeologic unit. Value is ignored if a VANI parameter is defined for the corresponding hydrogeologic unit.

PARNAM – is the name of a parameter to be defined. This name can consist of up to 10 characters and is not case sensitive. All parameter names must be unique.

PARTYP – is the type of parameter to be defined. For the HUF Package, the allowed parameter types are:

•HK – defines variable HK, horizontal hydraulic conductivity.

•HANI – defines variable HANI, horizontal anisotropy.  When using the LVDA capability, HANI values need to be less than or equal to 1. (Horizontal anisotropy is the hydraulic conductivity in the Y or column direction divided by the hydraulic conductivity in the X or row direction.)

•VK – defines variable VK, vertical hydraulic conductivity, for units for which HGUVANI is set to zero.

•VANI – defines variable VANI, vertical anisotropy, for units for which HGUVANI is set greater than zero. If the Hydraulic-Conductivity Depth-Dependence Capability is used, the vertical hydraulic conductivity changes according to the changes in the horizontal hydraulic conductivity. (Vertical anisotropy is the ratio of hydraulic conductivity in the X or row direction to the hydraulic conductivity in the Z or layer direction.)

•SS – defines variable Ss, the specific storage.

•SY – defines variable Sy, the specific yield.

•SYTP – when all model layers are confined, defines the storage coefficient for the top active cell at each row, column location. The value specified is not multiplied by model layer thickness. When SYTP is specified as the parameter type, HGUNAM of item 11 needs to be set to SYTP.

Parval—is the parameter value. This parameter value may be overridden by a value in . the Sensitivity Process (SEN) input file, or by a value generated by the Parameter-Estimation (PES) Process.

NCLU – is the number of clusters required to define the parameter. Each Item-11 record is a cluster (variables HGUNAM, Mltarr, Zonarr, and IZ).

HGUNAM – is the hydrogeologic unit to which the parameter applies. When PARTYP = SYTP, HGUNAM must be set to SYTP.

Mltarr – is the name of the multiplier array to be used to define array values that are associated with a parameter. The name “NONE” means that there is no multiplier array, and the array values will be set equal to Parval.

Zonarr – is the name of the zone array to be used to define array elements that are associated with a parameter. The name “ALL” means that there is no zone array and that all elements in the hydrogeologic unit are part of the parameter.

IZ – is up to 10 zone numbers (separated by spaces) that define the array elements that are associated with a parameter. The first zero or non-numeric value terminates the list. These values are not used if Zonarr is specified as “ALL”.

If HGUNAM is set to ALL, PRINTCODE and PRINTFLAGS are set for all hydrogeologic units, and only one Item 12 is necessary. Otherwise, HGUNAM must correspond to one of the names defined in Item 6.

PRINTCODE – determines the format for printing the values of the hydraulic-property arrays for the hydrogeologic unit as defined by parameters. The print codes are the same as those used in an array control record (Harbaugh and others, 2000, p. 87). If PRINTCODE is set to zero, the array will not be printed.

PRINTFLAGS – determines the hydraulic-property arrays to be printed and must be set to “ALL” or any of the following: “HK”, “HANI”, “VK”, “SS”, or “SY”. Arrays will be printed only for those properties that are listed. When VK is specified, the property printed depends on the setting of HGUVANI. All the PRINTFLAGS for a hydrogeologic unit must be specified on the same line.