A.
Scope. This article shall apply to all occupancies engaging in marijuana
(i.e., cannabis and extract derivatives) growing, processing, extraction,
and/or testing. These occupancies shall comply with this chapter and
other applicable provisions of this Code.
B.
Permits. Permits shall be required as set forth in this article and
in accordance with Sanford Fire Department Policy.
C.
Pursuant to 30-A M.R.S.A. § 3003, NFPA 1, Uniform Fire
Code, 2018 Edition, Chapters 38, 60, 63, 66, as amended in this article,
are adopted by reference.
D.
Buildings containing existing growing or extraction operations shall
comply with this code by 24 months after this code is adopted.
E.
The structure where marijuana is grown, cultivated, and/or processed
shall be constructed of building materials approved by the Code Enforcement
Officer and Fire Chief, or their designees. If the structure is 6,000
square feet or larger, it shall be required to include a complement,
NFPA fire sprinkler system approved by the State Fire Marshal's Office.
F.
Any building used for sale of marijuana in any form shall have a
compliant, NFPA fire sprinkler system and fire alarm approved by the
State Fire Marshal's Office.
A.
Construction requirements.
(1)
Location. Extraction processes shall be performed in a room dedicated
to the extraction process.
(2)
Exit doors from extraction rooms utilizing hazardous materials shall
swing in the direction of egress and be self-closing. Panic hardware
shall be provided on doors in liquefied petroleum gas (LPG) extraction
rooms. Where latching door hardware is provided on extraction rooms
utilizing hazardous materials, panic hardware shall be provided.
(3)
Extraction rooms. Extraction rooms shall be fully enclosed. The floor,
ceiling, and walls of extraction rooms shall be constructed in accordance
with NFPA Type 1 or 2 building and be continuous, noncombustible,
and smooth. Rooms designed shall be constructed to permit the free
passage of exhaust air from all parts of the room. All extraction
rooms shall be on the ground floor. Exception: CO2 extraction rooms
and extraction rooms containing processes not utilizing hazardous
materials.
(4)
Openings and penetrations. Openings and penetrations into extraction
rooms utilizing hazardous materials shall only be provided for egress,
mechanical, electrical, or plumbing systems serving the extraction
room. Penetrations into LPG extraction rooms shall be sealed vapor
tight. Nonoperable glazing is permitted where glazing does not interfere
with required exhaust systems.
(5)
Extraction room illumination. Luminaires inside the extraction room shall comply with § 116-20 as a Class I, Division I, location. Luminaires attached to the walls or ceilings of an extraction room or booth, but outside of any classified area and separated from the flammable vapor areas by vaportight glass panels, shall be suitable for use in ordinary hazard locations. Such luminaires shall be serviced from outside the flammable vapor areas.
(6)
Fire protection. Extraction rooms, booths, or hoods, including ductwork
where required for hazardous exhaust systems, shall be protected by
an approved automatic fire extinguishing system where any of the following
exist:
(a)
Extraction processes utilizing LPG or off gassing LPG from spent
plant material or oil.
(b)
Vapors are released exceeding 25% of the lower flammable limit
from flammable liquid extraction processes or flammable liquid post
oil processing.
(c)
All building housing extraction operations shall have a complement,
NFPA fire sprinkler system and fire alarm approved by the State Fire
Marshal.
B.
Open flame and sparks. Smoking, open flames, direct fired heating
devices, etc., shall be prohibited in areas where flammable vapors
exist.
C.
Electrical equipment. Electrical equipment installed in rooms designed in accordance with § 128-34H, Electrical interlocks; hoods, or booths containing LPG extraction processes shall be in accordance with § 116-20 as a Class I, Division I, location. Areas adjacent to classified locations shall be wired in accordance with § 116-20. Electrical equipment installed in areas of flammable liquid extractions or post oil processing shall be in accordance with this article and § 116-20. Exception: Subject to approval of the Codes Office, rooms or booths containing LPG extraction equipment that is not normally opened within the room or booth for oil or plant material retrieval, and frequent leakage in the closed system does not occur, may be considered a Class I, Division II, location.
D.
Grounding and bonding. Precautions shall be taken within LPG extraction rooms to minimize the possibility of ignition by static electrical sparks through static bonding and grounding of extraction equipment, ducts, and piping etc. installed in accordance with § 116-20.
E.
Equipment. Extraction process equipment utilizing hazardous materials
shall be listed or approved by the Sanford Code Office.
F.
Exhaust required. Extraction and post oil processing utilizing LPG
or flammable liquids shall be provided with an exhaust system. The
exhaust system shall be in operation at all times when extractions
or post oil processing is being performed and until LPG is off gassed
from oil and/or plant material removed from LPG extraction equipment.
Fans shall be of the type approved for use when flammable or explosive
vapors are present and shall be UL listed for flammable and explosive
vapors and approved by the Sanford Code Office. Capture and containment
air velocity shall be provided across booths, hoods, or exhausted
enclosures to capture and convey emissions to the exhaust system and
shall be no less than 75 fpm.
G.
Exhaust for LPG extraction processes. A hazardous exhaust system
engineered by a fire protection engineer shall be provided for LPG
extraction processes including LPG degassing from processed plant
material or oil removed from extraction equipment.
H.
Electrical interlocks. The exhaust system shall be interlocked with
the room power, such that when the exhaust system is not operating,
power and lighting will be disabled.
I.
Exhaust for flammable liquid extraction processes. A hazardous exhaust
shall be provided for flammable liquid extraction processes.
J.
Gas detection. A continuous gas detection system shall be provided
within rooms, booths or hoods, containing CO2 or LPG extraction processes.
Actuation of the gas detection system shall initiate a local alarm
within the room. CO2 gas detection systems shall alarm at 5,000 ppm.
LPG gas detection systems shall alarm at no greater than 20% of the
LFL. Portable LPG gas detection shall be utilized by the extraction
system operator to verify local hydrocarbon levels, including system
leaks.
K.
Extraction equipment process discharge. CO2 discharges shall be piped
to the exterior.
L.
All extraction and/or testing equipment must have a stamped letter
from a mechanical engineer and a fire protection engineer that has
been approved by the Code Office.
M.
Refrigeration and cooling equipment. Refrigerators, freezers, and
other cooling equipment used to store or process flammable liquids
shall be in accordance with NFPA 45 and be UL listed.
A.
All grow operation shall be set up in such a way that three-foot
pathway can be maintained at all stages of plant growth.
B.
All equipment used in a growing operation shall meet UL listed and
the listing provided to the Building Official.
C.
All grow operations shall comply with this article and § 128-25A(2), Industrial occupancy.
A.
General. Carbon dioxide enrichment systems with more than 100 pounds
(45.4kg) of carbon dioxide or any system using any amount of carbon
dioxide (CO2) below grade used in plant growing (husbandry).
B.
Equipment. The storage, use, and handling of carbon dioxide shall
be in accordance with IFC Chapter 53, as amended, and the applicable
requirements of NFPA 55, Chapter 13. All equipment utilized in compressed
gas systems shall be compatible with the intended gas and use.
C.
Containers, cylinders and tanks. Gas storage containers, cylinders
and tanks shall be designed, fabricated, tested and labeled with manufacturers'
specifications and shall be maintained in accordance with the regulations
of DOTn 49 CFR, Parts 100-185, or the ASME Boiler and Pressure Vessel
Code, Section VIII.
D.
Location. Location of gas storage containers, cylinders and tanks,
inside or outside the building, shall be in an approved location by
the Sanford Building Official.
(1)
Security. Gas storage containers, cylinders and tanks shall be secured
in an approved manner to prevent overturning. Containers, cylinders
and tanks located outside shall be secured and safeguarded against
tampering and protected from physical damage if exposed to vehicle
traffic.
(2)
Design and construction. Bulk tank installations over 2,000 pounds
will require an engineered foundation and construction permit.
E.
Piping systems. Piping, tubing, fittings, valves and pressure regulating
devices shall be designed and installed in accordance with approved
standards and manufacturers' recommendations.
(1)
Piping, tubing and hoses. Piping, tubing and hose materials shall
be compatible with carbon dioxide and rated for the temperatures and
pressures encountered in the system. All hoses and tubing used in
carbon dioxide service shall be designed for a bursting pressure of
at least four times their design pressure. PVC/ABS and other types
of rigid plastic piping are not approved materials. Acceptable piping
for carbon dioxide shall be the following:
(2)
Support. Gas piping shall not be attached or supported by any electrical
light supports or wiring sprinkler or pluming piping.
(3)
Identification. Markings for carbon dioxide (CO2) piping systems
shall consist of the content's name (carbon dioxide or CO2) and direction-of-flow
arrow. Markings shall be provided at each valve; at wall, floor or
ceiling penetrations; at each change of direction; and at not less
than every 20 feet or fraction thereof throughout the piping run.
(4)
Fittings, joints and connections. Fittings, joints and connections
shall be subject to the approval of the Fire and Building Departments.
(5)
Fittings and joints between gas supply containers and automatic shutoff
valve. Joints and fittings on the supply piping or tubing between
the CO2 supply source and the automatic system shutoff valve shall
be threaded, compression or welded.
(6)
Unused connections. Unused piping or tubing connected to the supply
system shall be capped or plugged. A closed valve will not be allowed
in lieu of a cap or plug.
(7)
Concealed connections. All fittings and joints shall be exposed and
located adjacent to the supply source or points of use and shall be
protected by a detector.
(8)
Valves. Piping systems shall be provided with valves and shall comply
with the following:
(a)
Pressure relief valves. Pressure relief valves shall be provided
and piped to the outdoors.
(b)
System shutoff valve. An automatic system shutoff valve shall
be provided as near to the supply pressure regulator as possible and
shall be designed to fail to a closed condition closing on loss of
electrical power to the valve and gas detection. Additional automatic
shutoff valves may be provided at each point of use. Automatic shutoff
valves shall be designed and located so that all phases (i.e., gas,
liquid and solid) of carbon dioxide (CO2) will not interfere with
the operation of the device.
(c)
Appliance shutoff valves. Each appliance shall be provided with
a shutoff valve within three feet of the appliance. All shutoff valves
shall be capable of being locked or tagged in the closed position
for servicing.
F.
Accessibility and identification. Valves and controls shall be readily
accessible at all times. Normal and emergency system shutoff valves
shall be clearly identified. All valves shall be designed or marked
to indicate clearly whether it is open or closed.
G.
Venting. Venting of gases shall be directed to an approved location
outside the building. Insulated liquid carbon dioxide systems shall
have pressure relief devices vented in accordance with NFPA 55.
H.
Protection from damage. Carbon dioxide systems shall be installed
so the storage tanks, cylinders, piping and fittings are protected
from damage by occupants or equipment during normal facility operations.
I.
Required protection. Where carbon dioxide storage tanks, cylinders, piping and equipment are located indoors, rooms or areas containing carbon dioxide storage tanks, cylinders, piping and fittings and grow room/areas where carbon dioxide is released and can collect shall be provided with an emergency alarm system in accordance with § 128-36J.
J.
Emergency alarm system. An emergency alarm system shall comply with
all of the following:
(1)
Continuous gas detection shall be provided to monitor areas where
carbon dioxide (CO2) can accumulate. Detection equipment shall be
provided to indicate carbon dioxide (CO2) levels in each grow cultivation
area/room and interior carbon dioxide (CO2) storage location.
(2)
Detectors shall be:
(a)
Listed or approved devices.
(b)
Permanently mounted.
(c)
Installed at a height of no more than 48 inches above the floor
or as approved by the Building Official.
(d)
Directly connected to building electrical supply and or fire
alarm systems and protected from accidental disconnection or damage.
(e)
Auto calibrating and self-zeroing devices are not permitted
unless they can be zeroed and spanned.
(f)
Located within manufacturers' specified detection range for
each point of use and storage location.
(3)
Activation of the emergency alarm system shall initiate amber strobes
and audible horns provided in the vicinity of each interior storage
container, cylinder or tank and at each point of release. Additional
amber strobes and audible horns shall be placed at the entrances to
below grade locations and confined spaces. The notification devices
shall be rated a minimum of 80 cd for a visible effect and 75 dBA
for an audible effect and shall be mounted in accordance with NFPA
72 requirements. Provide audible visual devices at the following locations:
(4)
Local alarm set points shall be set at:
(a)
5,000 PPM: latching alarm.
(b)
Visual and audible notification in approved locations at room
or area in alarm.
(c)
Activation of automatic system shutoff valve.
(d)
Evacuate the room in alarm and contact a qualified service company
to investigate and address the condition.
(e)
Reset of the emergency alarm to be conducted by qualified personnel.
(5)
Signage shall be required adjacent to each horn/strobe as follows:
(a)
Storage area/room: DO NOT ENTER WHEN LIGHT IS FLASHING - CARBON
DIOXIDE LEAK DETECTED.
(b)
Grow cultivation room/area dispensing: FLASHING LIGHT MEANS
CARBON DIOXIDE LEAK DETECTED - EVACUATE ROOM.
(c)
The sign shall have a minimum one-inch block lettering with
a minimum one-fourth-inch stroke. The sign shall be on a contrasting
surface of black on yellow and shall be of durable construction.
(d)
Signage on entrance doors to grow cultivation and storage rooms.
Signage shall be provided at entrance doors to each grow cultivation
room/area and at each entrance to storage rooms/areas.
(e)
NFPA 704 placards for simple asphyxiants shall also be provided
at the exterior main entrance and at each entrance to storage rooms/areas.
(6)
A minimum of one portable carbon dioxide (CO2) meter shall be in
use during business hours.
K.
Trans filling. Filling and trans filling of gases between storage
containers, cylinders and tanks and delivery vehicles shall be performed
by qualified personnel using equipment and operating procedures in
accordance with CGA P-1. Interior storage containers, cylinders and
tanks shall be filled via remote fill ports on the exterior of the
building at grade level. Exterior remote fill ports shall be fitted
with a vent line to the outside. Delivery personnel shall have access
to interior storage areas to inspect valves and piping prior to initiating
filling operations.
L.
Inspection and testing. All piping installations shall be visually
inspected, calibrated, and pressure tested to determine that the materials,
design, fabrication and installation practices comply with the requirements
of this code.
M.
Records. A written record of all required inspections, testing, calibration,
and maintenance shall be maintained in a log book on the premises
containing the three most current years of records and be available
for review by fire inspection personnel.
N.
Acceptance testing. Appliances and equipment shall not be placed
in operation until after the piping system has been checked for leakage
and detectors, notification devices and automatic shutoff valves have
been tested by a qualified service company. All piping installations
shall be visually inspected and pressure tested prior to initial operation.
The test pressure downstream of the pressure regulator shall be not
less than 110% of the operating pressure. Joints shall be checked
with a bubble-forming solution. Acceptance testing is required to
be witnessed by a Building Official. Provide an inspection report
to the fire and/or building officials for the piping and joint visual
inspection and pressure test.
O.
Daily inspections. All detectors and alarms shall be visibly inspected
daily. These inspections are permitted to be conducted by trained
employees.
P.
Monthly inspections. All storage vessels, piping, and appurtenances
shall be visibly inspected monthly. These inspections are permitted
to be conducted by trained employees. Logs shall be kept and presented
on demand of the Sanford Building Official.
Q.
Annual inspections. Systems shall be visually inspected, gas detectors
calibrated in accordance with manufacturer's specification, alarms
tested, and tested for leaks annually by a qualified service company.
R.
Calibration. Detectors shall be checked for accuracy, calibrated
to a reference gas concentration, and span reset.
S.
Pressure testing. Pipe joints shall be exposed for examination during
the test.
T.
Test medium. The test medium shall be air, nitrogen, carbon dioxide,
or an inert gas.
U.
Test duration. The test duration shall be not less than 10 minutes.
V.
Carbon dioxide (CO2) gas enrichment systems using a natural gas/propane
burner in plant growing (husbandry) not permitted.
