mirror of
https://github.com/MikaylaFischler/cc-mek-scada.git
synced 2024-08-30 18:22:34 +00:00
783 lines
29 KiB
Lua
783 lines
29 KiB
Lua
local log = require("scada-common.log")
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local rsio = require("scada-common.rsio")
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local types = require("scada-common.types")
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local util = require("scada-common.util")
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local rsctl = require("supervisor.session.rsctl")
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local unit = require("supervisor.session.unit")
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local PROCESS = types.PROCESS
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-- 7.14 kJ per blade for 1 mB of fissile fuel<br/>
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-- 2856 FE per blade per 1 mB, 285.6 FE per blade per 0.1 mB (minimum)
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local POWER_PER_BLADE = util.joules_to_fe(7140)
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local FLOW_STABILITY_DELAY_S = unit.FLOW_STABILITY_DELAY_MS / 1000
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local HIGH_CHARGE = 1.0
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local RE_ENABLE_CHARGE = 0.95
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local AUTO_SCRAM = {
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NONE = 0,
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MATRIX_DC = 1,
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MATRIX_FILL = 2,
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CRIT_ALARM = 3
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}
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local START_STATUS = {
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OK = 0,
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NO_UNITS = 1,
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BLADE_MISMATCH = 2
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}
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local charge_Kp = 1.0
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local charge_Ki = 0.0
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local charge_Kd = 0.0
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local rate_Kp = 2.45
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local rate_Ki = 0.4825
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local rate_Kd = -1.0
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---@class facility_management
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local facility = {}
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-- create a new facility management object
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---@param num_reactors integer number of reactor units
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---@param cooling_conf table cooling configurations of reactor units
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function facility.new(num_reactors, cooling_conf)
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local self = {
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units = {},
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induction = {},
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redstone = {},
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status_text = { "START UP", "initializing..." },
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all_sys_ok = false,
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-- process control
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units_ready = false,
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mode = PROCESS.INACTIVE,
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last_mode = PROCESS.INACTIVE,
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return_mode = PROCESS.INACTIVE,
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mode_set = PROCESS.MAX_BURN,
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start_fail = START_STATUS.OK,
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max_burn_combined = 0.0, -- maximum burn rate to clamp at
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burn_target = 0.1, -- burn rate target for aggregate burn mode
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charge_setpoint = 0, -- FE charge target setpoint
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gen_rate_setpoint = 0, -- FE/t charge rate target setpoint
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group_map = { 0, 0, 0, 0 }, -- units -> group IDs
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prio_defs = { {}, {}, {}, {} }, -- priority definitions (each level is a table of units)
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at_max_burn = false,
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ascram = false,
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ascram_reason = AUTO_SCRAM.NONE,
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-- closed loop control
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charge_conversion = 1.0,
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time_start = 0.0,
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initial_ramp = true,
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waiting_on_ramp = false,
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waiting_on_stable = false,
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accumulator = 0.0,
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saturated = false,
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last_update = 0,
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last_error = 0.0,
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last_time = 0.0,
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-- statistics
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im_stat_init = false,
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avg_charge = util.mov_avg(10, 0.0),
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avg_inflow = util.mov_avg(10, 0.0),
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avg_outflow = util.mov_avg(10, 0.0)
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}
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-- create units
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for i = 1, num_reactors do
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table.insert(self.units, unit.new(i, cooling_conf[i].BOILERS, cooling_conf[i].TURBINES))
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end
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-- init redstone RTU I/O controller
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local rs_rtu_io_ctl = rsctl.new(self.redstone)
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-- unlink disconnected units
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---@param sessions table
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local function _unlink_disconnected_units(sessions)
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util.filter_table(sessions, function (u) return u.is_connected() end)
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end
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-- check if all auto-controlled units completed ramping
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local function _all_units_ramped()
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local all_ramped = true
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for i = 1, #self.prio_defs do
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local units = self.prio_defs[i]
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for u = 1, #units do
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all_ramped = all_ramped and units[u].a_ramp_complete()
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end
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end
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return all_ramped
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end
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-- split a burn rate among the reactors
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---@param burn_rate number burn rate assignment
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---@param ramp boolean true to ramp, false to set right away
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---@return integer unallocated
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local function _allocate_burn_rate(burn_rate, ramp)
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local unallocated = math.floor(burn_rate * 100)
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-- go through alll priority groups
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for i = 1, #self.prio_defs do
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local units = self.prio_defs[i]
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if #units > 0 then
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local split = math.floor(unallocated / #units)
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local splits = {}
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for u = 1, #units do splits[u] = split end
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splits[#units] = splits[#units] + (unallocated % #units)
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-- go through all reactor units in this group
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for id = 1, #units do
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local u = units[id] ---@type reactor_unit
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local ctl = u.get_control_inf()
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local lim_br100 = u.a_get_effective_limit()
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local last = ctl.br100
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if splits[id] <= lim_br100 then
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ctl.br100 = splits[id]
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else
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ctl.br100 = lim_br100
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if id < #units then
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local remaining = #units - id
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split = math.floor(unallocated / remaining)
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for x = (id + 1), #units do splits[x] = split end
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splits[#units] = splits[#units] + (unallocated % remaining)
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end
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end
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unallocated = math.max(0, unallocated - ctl.br100)
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if last ~= ctl.br100 then
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log.debug("unit " .. u.get_id() .. ": set to " .. ctl.br100 .. " (was " .. last .. ")")
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u.a_commit_br100(ramp)
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end
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end
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end
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end
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return unallocated
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end
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-- PUBLIC FUNCTIONS --
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---@class facility
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local public = {}
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-- ADD/LINK DEVICES --
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-- link a redstone RTU session
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---@param rs_unit unit_session
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function public.add_redstone(rs_unit)
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table.insert(self.redstone, rs_unit)
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end
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-- link an imatrix RTU session
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---@param imatrix unit_session
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function public.add_imatrix(imatrix)
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table.insert(self.induction, imatrix)
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end
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-- purge devices associated with the given RTU session ID
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---@param session integer RTU session ID
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function public.purge_rtu_devices(session)
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util.filter_table(self.redstone, function (s) return s.get_session_id() ~= session end)
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util.filter_table(self.induction, function (s) return s.get_session_id() ~= session end)
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end
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-- UPDATE --
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-- update (iterate) the facility management
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function public.update()
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-- unlink RTU unit sessions if they are closed
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_unlink_disconnected_units(self.induction)
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_unlink_disconnected_units(self.redstone)
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-- current state for process control
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local charge_update = 0
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local rate_update = 0
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-- calculate moving averages for induction matrix
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if self.induction[1] ~= nil then
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local matrix = self.induction[1] ---@type unit_session
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local db = matrix.get_db() ---@type imatrix_session_db
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charge_update = db.tanks.last_update
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rate_update = db.state.last_update
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if (charge_update > 0) and (rate_update > 0) then
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if self.im_stat_init then
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self.avg_charge.record(util.joules_to_fe(db.tanks.energy), charge_update)
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self.avg_inflow.record(util.joules_to_fe(db.state.last_input), rate_update)
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self.avg_outflow.record(util.joules_to_fe(db.state.last_output), rate_update)
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else
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self.im_stat_init = true
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self.avg_charge.reset(util.joules_to_fe(db.tanks.energy))
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self.avg_inflow.reset(util.joules_to_fe(db.state.last_input))
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self.avg_outflow.reset(util.joules_to_fe(db.state.last_output))
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end
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end
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else
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self.im_stat_init = false
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end
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self.all_sys_ok = true
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for i = 1, #self.units do
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self.all_sys_ok = self.all_sys_ok and not self.units[i].get_control_inf().degraded
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end
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-------------------------
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-- Run Process Control --
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-------------------------
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local avg_charge = self.avg_charge.compute()
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local avg_inflow = self.avg_inflow.compute()
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local now = util.time_s()
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local state_changed = self.mode ~= self.last_mode
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local next_mode = self.mode
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-- once auto control is started, sort the priority sublists by limits
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if state_changed then
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self.saturated = false
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log.debug("FAC: state changed from " .. self.last_mode .. " to " .. self.mode)
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if self.last_mode == PROCESS.INACTIVE then
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self.start_fail = START_STATUS.OK
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if self.mode ~= PROCESS.MATRIX_FAULT_IDLE then self.ascram = false end
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local blade_count = nil
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self.max_burn_combined = 0.0
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for i = 1, #self.prio_defs do
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table.sort(self.prio_defs[i],
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---@param a reactor_unit
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---@param b reactor_unit
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function (a, b) return a.get_control_inf().lim_br100 < b.get_control_inf().lim_br100 end
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)
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for _, u in pairs(self.prio_defs[i]) do
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local u_blade_count = u.get_control_inf().blade_count
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if blade_count == nil then
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blade_count = u_blade_count
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elseif (u_blade_count ~= blade_count) and (self.mode == PROCESS.GEN_RATE) then
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log.warning("FAC: cannot start GEN_RATE process with inconsistent unit blade counts")
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next_mode = PROCESS.INACTIVE
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self.start_fail = START_STATUS.BLADE_MISMATCH
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end
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if self.start_fail == START_STATUS.OK then u.a_engage() end
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self.max_burn_combined = self.max_burn_combined + (u.get_control_inf().lim_br100 / 100.0)
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end
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end
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if blade_count == nil then
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-- no units
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log.warning("FAC: cannot start process control with 0 units assigned")
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next_mode = PROCESS.INACTIVE
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self.start_fail = START_STATUS.NO_UNITS
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else
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self.charge_conversion = blade_count * POWER_PER_BLADE
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log.debug(util.c("FAC: starting auto control: chg_conv = ", self.charge_conversion, ", blade_count = ", blade_count, ", max_burn = ", self.max_burn_combined))
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end
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elseif self.mode == PROCESS.INACTIVE then
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for i = 1, #self.prio_defs do
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-- SCRAM reactors and disengage auto control
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-- use manual SCRAM since inactive was requested, and automatic SCRAM trips an alarm
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for _, u in pairs(self.prio_defs[i]) do
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u.scram()
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u.a_disengage()
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end
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end
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log.info("FAC: disengaging auto control (now inactive)")
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end
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self.initial_ramp = true
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self.waiting_on_ramp = false
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self.waiting_on_stable = false
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else
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self.initial_ramp = false
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end
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-- update unit ready state
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local assign_count = 0
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self.units_ready = true
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for i = 1, #self.prio_defs do
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for _, u in pairs(self.prio_defs[i]) do
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assign_count = assign_count + 1
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self.units_ready = self.units_ready and u.get_control_inf().ready
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end
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end
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-- perform mode-specific operations
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if self.mode == PROCESS.INACTIVE then
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if not self.units_ready then
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self.status_text = { "NOT READY", "assigned units not ready" }
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elseif self.start_fail == START_STATUS.NO_UNITS and assign_count == 0 then
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self.status_text = { "START FAILED", "no units were assigned" }
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elseif self.start_fail == START_STATUS.BLADE_MISMATCH then
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self.status_text = { "START FAILED", "turbine blade count mismatch" }
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else
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self.status_text = { "IDLE", "control disengaged" }
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end
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elseif self.mode == PROCESS.MAX_BURN then
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-- run units at their limits
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if state_changed then
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self.time_start = now
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self.saturated = true
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self.status_text = { "MONITORED MODE", "running reactors at limit" }
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log.info(util.c("FAC: MAX_BURN process mode started"))
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end
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_allocate_burn_rate(self.max_burn_combined, true)
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elseif self.mode == PROCESS.BURN_RATE then
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-- a total aggregate burn rate
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if state_changed then
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self.time_start = now
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self.status_text = { "BURN RATE MODE", "running" }
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log.info(util.c("FAC: BURN_RATE process mode started"))
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end
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local unallocated = _allocate_burn_rate(self.burn_target, true)
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self.saturated = self.burn_target == self.max_burn_combined or unallocated > 0
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elseif self.mode == PROCESS.CHARGE then
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-- target a level of charge
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-- convert to kFE to make constants not microscopic
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local error = (self.charge_setpoint - avg_charge) / 1000000
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if state_changed then
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self.last_time = now
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log.debug(util.c("FAC: CHARGE mode first call completed"))
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elseif self.waiting_on_ramp then
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if _all_units_ramped() then
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self.waiting_on_ramp = false
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self.time_start = now
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self.last_time = now
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self.last_error = 0
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self.accumulator = 0
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self.status_text = { "CHARGE MODE", "running control loop" }
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log.info(util.c("FAC: CHARGE mode initial ramp completed"))
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end
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end
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if not self.waiting_on_ramp and self.last_update ~= rate_update then
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-- stop accumulator when saturated to avoid windup, deadband accumulator at 1kFE to avoid windup
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if (not self.saturated) and (math.abs(error) >= 0.001) then
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self.accumulator = self.accumulator + (error * (now - self.last_time))
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end
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local runtime = now - self.time_start
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local integral = self.accumulator
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local derivative = (error - self.last_error) / (now - self.last_time)
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local P = (charge_Kp * error)
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local I = (charge_Ki * integral)
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local D = (charge_Kd * derivative)
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local output = P + I + D
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-- clamp at range -> output clamped (out_c)
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local out_c = math.max(0, math.min(output, self.max_burn_combined))
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self.saturated = output ~= out_c
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log.debug(util.sprintf("PROC_CHRG[%f] { CHRG[%f] ERR[%f] INT[%f] => OUT[%f] OUT_C[%f] <= P[%f] I[%f] D[%d] }",
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runtime, avg_charge, error, integral, output, out_c, P, I, D))
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_allocate_burn_rate(out_c, self.initial_ramp)
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self.last_time = now
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if self.initial_ramp then
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self.waiting_on_ramp = true
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end
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end
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self.last_update = charge_update
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elseif self.mode == PROCESS.GEN_RATE then
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-- target a rate of generation
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if state_changed then
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-- estimate an initial output
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local output = self.gen_rate_setpoint / self.charge_conversion
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local unallocated = _allocate_burn_rate(output, true)
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self.saturated = output >= self.max_burn_combined or unallocated > 0
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self.waiting_on_ramp = true
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self.status_text = { "GENERATION MODE", "starting up" }
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log.info(util.c("FAC: GEN_RATE process mode initial ramp started (initial target is ", output, " mB/t)"))
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elseif self.waiting_on_ramp then
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if _all_units_ramped() then
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self.waiting_on_ramp = false
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self.waiting_on_stable = true
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self.time_start = now
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self.status_text = { "GENERATION MODE", "holding ramped rate" }
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log.info("FAC: GEN_RATE process mode initial ramp completed, holding for stablization time")
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end
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elseif self.waiting_on_stable then
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if (now - self.time_start) > FLOW_STABILITY_DELAY_S then
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self.waiting_on_stable = false
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self.time_start = now
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self.last_time = now
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self.last_error = 0
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self.accumulator = 0
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self.status_text = { "GENERATION MODE", "running control loop" }
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log.info("FAC: GEN_RATE process mode initial hold completed, starting PID control")
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end
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elseif self.last_update ~= rate_update then
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-- convert to MFE (in rounded kFE) to make constants not microscopic
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local error = util.round((self.gen_rate_setpoint - avg_inflow) / 1000) / 1000
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-- stop accumulator when saturated to avoid windup, deadband accumulator at 1kFE to avoid windup
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if not self.saturated then
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self.accumulator = self.accumulator + (error * (now - self.last_time))
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end
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local runtime = now - self.time_start
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local integral = self.accumulator
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local derivative = (error - self.last_error) / (now - self.last_time)
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local P = (rate_Kp * error)
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local I = (rate_Ki * integral)
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local D = (rate_Kd * derivative)
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-- velocity (rate) (derivative of charge level => rate) feed forward
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local FF = self.gen_rate_setpoint / self.charge_conversion
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local output = P + I + D + FF
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-- clamp at range -> output clamped (sp_c)
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local out_c = math.max(0, math.min(output, self.max_burn_combined))
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self.saturated = output ~= out_c
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log.debug(util.sprintf("GEN_RATE[%f] { RATE[%f] ERR[%f] INT[%f] => OUT[%f] OUT_C[%f] <= P[%f] I[%f] D[%f] }",
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runtime, avg_inflow, error, integral, output, out_c, P, I, D))
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_allocate_burn_rate(out_c, false)
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self.last_time = now
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self.last_error = error
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end
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self.last_update = rate_update
|
|
elseif self.mode == PROCESS.MATRIX_FAULT_IDLE then
|
|
-- exceeded charge, wait until condition clears
|
|
if self.ascram_reason == AUTO_SCRAM.NONE then
|
|
next_mode = self.return_mode
|
|
log.info("FAC: exiting matrix fault idle state due to fault resolution")
|
|
elseif self.ascram_reason == AUTO_SCRAM.CRIT_ALARM then
|
|
next_mode = PROCESS.INACTIVE
|
|
log.info("FAC: exiting matrix fault idle state due to critical unit alarm")
|
|
end
|
|
elseif self.mode == PROCESS.UNIT_ALARM_IDLE then
|
|
-- do nothing, wait for user to confirm (stop and reset)
|
|
elseif self.mode ~= PROCESS.INACTIVE then
|
|
log.error(util.c("FAC: unsupported process mode ", self.mode, ", switching to inactive"))
|
|
next_mode = PROCESS.INACTIVE
|
|
end
|
|
|
|
------------------------------
|
|
-- Evaluate Automatic SCRAM --
|
|
------------------------------
|
|
|
|
if (self.mode ~= PROCESS.INACTIVE) and (self.mode ~= PROCESS.UNIT_ALARM_IDLE) then
|
|
local scram = false
|
|
|
|
if self.induction[1] ~= nil then
|
|
local matrix = self.induction[1] ---@type unit_session
|
|
local db = matrix.get_db() ---@type imatrix_session_db
|
|
|
|
if self.ascram_reason == AUTO_SCRAM.MATRIX_DC then
|
|
self.ascram_reason = AUTO_SCRAM.NONE
|
|
log.info("FAC: cleared automatic SCRAM trip due to prior induction matrix disconnect")
|
|
end
|
|
|
|
if (db.tanks.energy_fill >= HIGH_CHARGE) or
|
|
(self.ascram_reason == AUTO_SCRAM.MATRIX_FILL and db.tanks.energy_fill > RE_ENABLE_CHARGE) then
|
|
scram = true
|
|
|
|
if self.mode ~= PROCESS.MATRIX_FAULT_IDLE then
|
|
self.return_mode = self.mode
|
|
next_mode = PROCESS.MATRIX_FAULT_IDLE
|
|
end
|
|
|
|
if self.ascram_reason == AUTO_SCRAM.NONE then
|
|
self.ascram_reason = AUTO_SCRAM.MATRIX_FILL
|
|
end
|
|
elseif self.ascram_reason == AUTO_SCRAM.MATRIX_FILL then
|
|
log.info("FAC: charge state of induction matrix entered acceptable range <= " .. (RE_ENABLE_CHARGE * 100) .. "%")
|
|
self.ascram_reason = AUTO_SCRAM.NONE
|
|
end
|
|
|
|
for i = 1, #self.units do
|
|
local u = self.units[i] ---@type reactor_unit
|
|
|
|
if u.has_critical_alarm() then
|
|
scram = true
|
|
|
|
if self.ascram_reason == AUTO_SCRAM.NONE then
|
|
self.ascram_reason = AUTO_SCRAM.CRIT_ALARM
|
|
end
|
|
|
|
next_mode = PROCESS.UNIT_ALARM_IDLE
|
|
|
|
log.info("FAC: emergency exit of process control due to critical unit alarm")
|
|
break
|
|
end
|
|
end
|
|
else
|
|
scram = true
|
|
|
|
if self.mode ~= PROCESS.MATRIX_FAULT_IDLE then
|
|
self.return_mode = self.mode
|
|
next_mode = PROCESS.MATRIX_FAULT_IDLE
|
|
end
|
|
|
|
if self.ascram_reason == AUTO_SCRAM.NONE then
|
|
self.ascram_reason = AUTO_SCRAM.MATRIX_DC
|
|
end
|
|
end
|
|
|
|
-- SCRAM all units
|
|
if (not self.ascram) and scram then
|
|
for i = 1, #self.prio_defs do
|
|
for _, u in pairs(self.prio_defs[i]) do
|
|
u.a_scram()
|
|
end
|
|
end
|
|
|
|
if self.ascram_reason == AUTO_SCRAM.MATRIX_DC then
|
|
log.info("FAC: automatic SCRAM due to induction matrix disconnection")
|
|
self.status_text = { "AUTOMATIC SCRAM", "induction matrix disconnected" }
|
|
elseif self.ascram_reason == AUTO_SCRAM.MATRIX_FILL then
|
|
log.info("FAC: automatic SCRAM due to induction matrix high charge")
|
|
self.status_text = { "AUTOMATIC SCRAM", "induction matrix fill high" }
|
|
elseif self.ascram_reason == AUTO_SCRAM.CRIT_ALARM then
|
|
log.info("FAC: automatic SCRAM due to critical unit alarm")
|
|
self.status_text = { "AUTOMATIC SCRAM", "critical unit alarm tripped" }
|
|
else
|
|
log.error(util.c("FAC: automatic SCRAM reason (", self.ascram_reason, ") not set to a known value"))
|
|
end
|
|
end
|
|
|
|
self.ascram = scram
|
|
|
|
-- clear PLC SCRAM if we should
|
|
if not self.ascram then
|
|
self.ascram_reason = AUTO_SCRAM.NONE
|
|
|
|
for i = 1, #self.units do
|
|
local u = self.units[i] ---@type reactor_unit
|
|
u.a_cond_rps_reset()
|
|
end
|
|
end
|
|
end
|
|
|
|
-- update last mode and set next mode
|
|
self.last_mode = self.mode
|
|
self.mode = next_mode
|
|
end
|
|
|
|
-- call the update function of all units in the facility
|
|
function public.update_units()
|
|
for i = 1, #self.units do
|
|
local u = self.units[i] ---@type reactor_unit
|
|
u.update()
|
|
end
|
|
end
|
|
|
|
-- COMMANDS --
|
|
|
|
-- SCRAM all reactor units
|
|
function public.scram_all()
|
|
for i = 1, #self.units do
|
|
local u = self.units[i] ---@type reactor_unit
|
|
u.scram()
|
|
end
|
|
end
|
|
|
|
-- ack all alarms on all reactor units
|
|
function public.ack_all()
|
|
for i = 1, #self.units do
|
|
local u = self.units[i] ---@type reactor_unit
|
|
u.ack_all()
|
|
end
|
|
end
|
|
|
|
-- stop auto control
|
|
function public.auto_stop()
|
|
self.mode = PROCESS.INACTIVE
|
|
end
|
|
|
|
-- set automatic control configuration and start the process
|
|
---@param config coord_auto_config configuration
|
|
---@return table response ready state (successfully started) and current configuration (after updating)
|
|
function public.auto_start(config)
|
|
local ready = false
|
|
|
|
-- load up current limits
|
|
local limits = {}
|
|
for i = 1, num_reactors do
|
|
local u = self.units[i] ---@type reactor_unit
|
|
limits[i] = u.get_control_inf().lim_br100 * 100
|
|
end
|
|
|
|
-- only allow changes if not running
|
|
if self.mode == PROCESS.INACTIVE then
|
|
if (type(config.mode) == "number") and (config.mode > PROCESS.INACTIVE) and (config.mode <= PROCESS.GEN_RATE) then
|
|
self.mode_set = config.mode
|
|
end
|
|
|
|
if (type(config.burn_target) == "number") and config.burn_target >= 0.1 then
|
|
self.burn_target = config.burn_target
|
|
end
|
|
|
|
if (type(config.charge_target) == "number") and config.charge_target >= 0 then
|
|
self.charge_setpoint = config.charge_target
|
|
end
|
|
|
|
if (type(config.gen_target) == "number") and config.gen_target >= 0 then
|
|
self.gen_rate_setpoint = config.gen_target * 1000 -- convert kFE to FE
|
|
end
|
|
|
|
if (type(config.limits) == "table") and (#config.limits == num_reactors) then
|
|
for i = 1, num_reactors do
|
|
local limit = config.limits[i]
|
|
|
|
if (type(limit) == "number") and (limit >= 0.1) then
|
|
limits[i] = limit
|
|
self.units[i].set_burn_limit(limit)
|
|
end
|
|
end
|
|
end
|
|
|
|
ready = self.mode_set > 0
|
|
|
|
if (self.mode_set == PROCESS.CHARGE) and (self.charge_setpoint <= 0) then
|
|
ready = false
|
|
elseif (self.mode_set == PROCESS.GEN_RATE) and (self.gen_rate_setpoint <= 0) then
|
|
ready = false
|
|
elseif (self.mode_set == PROCESS.BURN_RATE) and (self.burn_target < 0.1) then
|
|
ready = false
|
|
end
|
|
|
|
ready = ready and self.units_ready
|
|
|
|
if ready then self.mode = self.mode_set end
|
|
end
|
|
|
|
return { ready, self.mode_set, self.burn_target, self.charge_setpoint, self.gen_rate_setpoint, limits }
|
|
end
|
|
|
|
-- SETTINGS --
|
|
|
|
-- set the automatic control group of a unit
|
|
---@param unit_id integer unit ID
|
|
---@param group integer group ID or 0 for independent
|
|
function public.set_group(unit_id, group)
|
|
if group >= 0 and group <= 4 and self.mode == PROCESS.INACTIVE then
|
|
-- remove from old group if previously assigned
|
|
local old_group = self.group_map[unit_id]
|
|
if old_group ~= 0 then
|
|
util.filter_table(self.prio_defs[old_group], function (u) return u.get_id() ~= unit_id end)
|
|
end
|
|
|
|
self.group_map[unit_id] = group
|
|
|
|
-- add to group if not independent
|
|
if group > 0 then
|
|
table.insert(self.prio_defs[group], self.units[unit_id])
|
|
end
|
|
end
|
|
end
|
|
|
|
-- READ STATES/PROPERTIES --
|
|
|
|
-- get build properties of all machines
|
|
function public.get_build()
|
|
local build = {}
|
|
|
|
build.induction = {}
|
|
for i = 1, #self.induction do
|
|
local matrix = self.induction[i] ---@type unit_session
|
|
build.induction[matrix.get_device_idx()] = { matrix.get_db().formed, matrix.get_db().build }
|
|
end
|
|
|
|
return build
|
|
end
|
|
|
|
-- get automatic process control status
|
|
function public.get_control_status()
|
|
return {
|
|
self.all_sys_ok,
|
|
self.units_ready,
|
|
self.mode,
|
|
self.waiting_on_ramp or self.waiting_on_stable,
|
|
self.at_max_burn or self.saturated,
|
|
self.ascram,
|
|
self.status_text[1],
|
|
self.status_text[2],
|
|
self.group_map
|
|
}
|
|
end
|
|
|
|
-- get RTU statuses
|
|
function public.get_rtu_statuses()
|
|
local status = {}
|
|
|
|
-- power averages from induction matricies
|
|
status.power = {
|
|
self.avg_charge.compute(),
|
|
self.avg_inflow.compute(),
|
|
self.avg_outflow.compute()
|
|
}
|
|
|
|
-- status of induction matricies (including tanks)
|
|
status.induction = {}
|
|
for i = 1, #self.induction do
|
|
local matrix = self.induction[i] ---@type unit_session
|
|
status.induction[matrix.get_device_idx()] = {
|
|
matrix.is_faulted(),
|
|
matrix.get_db().formed,
|
|
matrix.get_db().state,
|
|
matrix.get_db().tanks
|
|
}
|
|
end
|
|
|
|
---@todo other RTU statuses
|
|
|
|
return status
|
|
end
|
|
|
|
function public.get_units()
|
|
return self.units
|
|
end
|
|
|
|
return public
|
|
end
|
|
|
|
return facility
|