173 Brushcreek Dr - E08-001649 (SOLAR POOL PANEL) DOCUMENTSCITY OF SANFORD PERMIT APPLICATION
Application #: 0 y'
a141 Submittal Date: J
Job Address: / /3 /w/szl /Z . Value of Work: $ )
Parcel ID: _ "/ f - 70 - '- d0Od — Q 3'2 O Zoning: S/'-/R Historic District: X/ d
r
Description of Work: /OL-,4 /6 - 41412 1 0/ 1nJr
r
iSquare Footage:
Permit Type: Building Electrical Mechanical Plumbingv Fire Sprinkler/Alarm Pool Sign
Electrical: New Service - # of AMPS Addition/Alteration Change of Service Temporary Pole
Mechanical: Residential Non -Residential Replacement New (Duct Layout & Energy Calc. Required)
Plumbing/ New Commercial: # of Fixtures # of Water & Sewer Lines # of Gas Lines
Plumbing/New Residential: # of Water Closets Plumbing Repair -Residential Commercial
Occupancy Type: Residential Commercial Industrial Occupancy Use Group(s):
Construction Type: # of Stories: # of Dwelling Units:_ Flood Zone: (FEMA form required )
Property Owner: ti ii Contractor: / O/t n U//e,tl A,,r .
Address: Address: % /f h'Joyc% `ya
Phone: f/D% 2)/— Phone: 7y,; Yo4 "$ is ate License Numberj:f U<— 66 7%
Bonding Company:
Address:
Architect/Engineer:
Address:
Plan Review Contact Person:
Mortgage Lender:
Address:
Phone:
Fax:
Phone: Fax: E-mail:
Application is hereby made to obtain a permit to do the work and installations as indicated. 1 certify that no work or installation has commenced prior to the
issuance of a permit and that all work will be performed to meet standards of all laws regulating construction in this jurisdiction. I understand that a separate
permit must be secured for ELECTRICAL WORK, PLUMBING, SIGNS, WELLS, POOLS, FURNACES, BOILERS, HEATERS, TANKS, and
AIR CONDITIONERS, etc.
OWNER'S AFFIDAVIT: 1 certify that all of the foregoing information is accurate and that all work will be done in compliance with all applicable laws regulating
construction and zoning.
WARNING TO OWNER: YOUR FAILURE TO RECORD A NOTICE OF COMMENCEMENT MAY RESULT IN YOUR PAYING TWICE FOR
IMPROVEMENTS TO YOUR PROPERTY. A NOTICE OF COMMENCEMENT MUST BE RECORDED AND POSTED ON THE JOB SITE BEFORE THE
FIRST INSPECTION. IF YOU INTEND TO OBTAIN FINANCING, CONSULT WITH YOUR LENDER OR AN ATTORNEY BEFORE RECORDING YOUR
NOTICE OF COMMENCEMENT.
NOTICE: In addition to the requirements of this permit, there may be additional restrictions applicable to this property that may be found in the public records of
this county, and there may be additional permits required from other governmental entities such as water management districts, state agencies, or federal agencies.
Acceptance of permit is verification that I will notify the owner of the d k qu ments of ida Lien Law, FS 713.
Y(71f)Y -
Signature of Owner/Agent Date Signaturelof ntractor/Agent Date
e
Print Owner/Agent's Name Print Contract f/Agent ame 1
q 10 Signature
of Notary -State of Florida Date SiipnaftKe of Notary -State of Florida ate NO
ARY PUBLIC -STATE OF FLORIDA 2
0 Maxine Costanzo 0
Commission # DD607979 Expires: -
DEC. 05, 2010 Owner/
Agent is _ Personally Known to Me or Contractor/Agent is _ Pe so Ily Known 1 p K THRU ATLgNT.IC'BONDING CO., INC. Produced
ID _ Produced ID APPROVALS:
ZONING: Special
Conditions: Rev
07.07 UTIL:
FD: ENG: BLDG: C-
14--Ige
LIMITED POWER OF ATTORNEY
Date:
I hereby name and appoint Lester T. Salisbury to be my lawful attorney in fact to act for
me and apply for a permit for work to be performed at the location described as:
S
Address of Job)
of Property)
And to sign my name and do all things necessary to this
of G6}-tified Contractor)
David E. Bessette CVC 056657
Printed Name of Contractor and License Number)
STATE OF FLORIDA
COUNTY OF OSCEOLA
The foregoing instrument was acknowledged before me this ' day of
20 0 F , by David E. Bessette, who is X personally known to me or has
produced (type of identification) as identification.
SEAL)
Signatur6 of Notary Public, State f Florida
Maxine Costanzo
NOTARY PUBLIC -STATE OF FLORIDA
P,,,•,,, Maxine COstanzo
Commission # DD607979
Expires: DEC. 05, 2010
BONDED TIM ATiANUC BONDING CO., INC.
It
4 y PERMIT #
DATE;
INSTALLATION MANUAL
Authorized for Hi-Tec Swimming
Pool Solar Heating Systems
m 1 F de9cmT
Solar Pool Heaters
Read this manual before beginning installation of solar system
PLANNING
Before beginning installation check to see that
the system sizing and location criteria in the Hi-
Tec Planning & Sizing Guide have been fol-
lowed. If you find it necessary to undersize the
system, it is your responsibility to inform the
pool owner to expect proportionally less heat to
the pool than if the system was sized according
to the manufacturer's specifications. For ex-
ample, ten percent undersized means approxi-
mately ten percent less heat to the pool. To
avoid any misunderstanding, you may wish to
provide this in writing.
INSIDE THIS MANUAL
Section 1 illustrates the kits and components
used for installation of the solar collectors, and
shows component locations in the system.
Section 2 shows the steps you must take to
properly install.the solar collectors.
Section 3 describes the system piping and
control components.
Section 4 covers start-up and maintenance.
N
C. Hi-Tec Split Row Kit (Part No. 1093) (. Hold -Down Strap
Use this kit whenever it is necessary to split a row of A' 100' roll will hold down up to twelve collectors.
collectors to clear obstructions, or to install part of a row
on another roof.
Part No. Description Otv.
4029 Coll. Mounting Bracket 1
8019 Stainless Steel Washer 1
8016 Strap Bracket 2
8017-3 Coupling Hose, Medium 4
1012 Coupling Clamp 4
4033 Adapter, Pipe to Collector 4
E. Vacuum Relief Valve
One per system is required whenever collector inlet
bottom) headers are higher than three feet above the
pool surface. Several locations for installation of this
valve are acceptable. See Section 2, Step 10, on Page 5.
F. Check Valve
One check valve should be installed per system. A
second valve must also be installed whenever collector
inlet (bottom) headers are more than three feet above the
pool. See Section 3, Figure 3, on page 5 for locations.
G. Control System
Every Hi-Tec pool heater needs a control system to by-
pass the solar collectors when the pool is at the desired
temperature, or during inclement weather. In most
climates an automatic control system should be used. It
consists of an electronic control panel, two sensors and
a motor -driven valve. In warm climates, or when the
system is regularly attended, a manual control valve maybeused.
Section 2
Installation of Hi-Tec Solar Collectors
Step 1: Plan the location of the collectors on the
mounting surface. _The outlet (top) headers must be at
least 4 inches higher than the inlet (bottom) headers and
the row of collectors must slope at least 1/4 inch per
collector toward the supply pipe as shown in Figure 2.
This will permit drainage which prevents freeze damage.
Table 1 shows the amount of space required for an
uninterrupted row of collectors.
Add 8 to 12 inches at each end of the row for piping. Add
2 112" inches above the outlet header for Mounting
Brackets.
Note from Figure 2 that the pipe carrying the water back
to the pool, the return pipe, is connected to the collectors
diagonally opposite the supply pipe to the collectors.
Step 2: Starting at the return (back to pool) end of the
outlet headers, snap a horizontal chalk line 1 1/2" up the
roof above the intended top of the outlet headers. The
chalk line must slope down the roof toward the supply
side 114" per collector. For example, six collectors in the
row means a total slope of 1 112" inches.
Step 3: Measure 6 3/4" in from the intended beginning
of your array (the first collector in your system is the one
connecting to the supply piping), and mark the chalk line.
Next, mark the chalk line every 49" until you have a total
number of marks equal to the number of collectors in the
row. Finally, measure 6 3/4" in from the end of the last
Number of.
Collectors . Width of Array
5 20' 5"
6 24' 6"
7 28' 7"
8 32' 8"
9 361 9"
10 40' 10"
11 44'.11"
12 49'
Table 1
Assambly Diagram
Showing Three Collectors)
6 3/4" 49" 49" 6 3/4"
2 1/2"
i.
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a Distance from Slope
Down 114" per Collector End / Mounting Bracket Cap
to Strap Bracket header
and make another mark. See Figure 2 above. Note:
these marks indicate Bracket locations which may be
shifted 1 1/2" inches to either side, if necessary. Drill pilot
holes on each of these marks to install Mounting Brackets.
If you are using 1/4" lag screws the pilot drill should
be 3/16". Step
4: Measure down from the Mounting Bracket holes distances
as shown in Table 2), and snap two more horizontal
chalk lines to mark you strap locations. The Strap
Bracket holes will be located and drilled after the collectors
are in place. Collector
Upper. Lower Length
Strap- : Strap 10'
4, g r 9, 2" 12'
5, 8r, 11' 2„ Step
6: Install the remaining collectors in the row. The headers
are connected with the Short Hoses. Use a coupling
clamp at each end of the hose, just behind the barb
at the end of the collector fitting. DO NOT OVER - TIGHTEN (
hose rubbershould only bulge slightly into the holes
in the band of the clamp). Each of these collectors will
have one Mounting Bracket. Apply polyurethane sealer
to all recesses as in Step 5. Step
7: Drill a pilot hole (3/16" for 1/4" lag bolt) on each end
of the strap chalk lines, a minimum of 3" from the edge
of the absorber plate (four places). Drill pilot holes on
each chalk line, between the edges of the absorber plate
at each collector. These holes should be about 1/4" off
of center, so that the leg of the Strap Bracket will be in the
center of the space. Install the Strap Brackets with polyurethane
sealer. The Strap Brackets at both ends of the
row must be installed with the bracket's flat side towards
the collector (screw head outside). Note: be sure
all of your anchors satisfy your prevailing local code requirements.
Step
8: Slip the Hold -Down Strap (polyester) through the Strap
Brackets, tie it to one end bracket, stretch it tight, cut
it off and tie it to the bracket at the opposite end. Polypropylene
strap is slipped through the bracket and doubled
back on itself. Slip a Strap Clamp over the
doubled section and tighten the screw until the strap .
bulges into the hole. Do not puncture the strap with the
screw.
Step 9: Connect the end caps to the collectors in the
locations shown on Figure 2, using Short Hoses and
Coupling Clamps. Connect the collectors to the supply
and return piping with Long Hoses and Coupling Clamps
using Pipe to Collector Adapters. Universal PVC/CPVC/
ABS adhesive must be used at these cemented joints.
Step 10: The appropriate location forthe vacuum relief
valve in the system may be dictated by the particulars of
Solar to Filter System Piping:
To achieve optimum perfor-
mance levels from the sys-
tem, meet the recom-
mended water flow rates
in Table 3.
the system. Typically best locations are: out of a tee at
the supply connection of the pipe and collectors (see "E"
in Figure 1); out of a fitting, in place of any of the end caps;
and out of a tee in the supply or return line, just below the
roof level.
Step 11: If the plumbing in your system will not allow the
collectors to properly drain (eg: piping over the peak of
the roof), a manual drain line must be installed from the
lowest point in the system on the roof. Manually draining
the system during freezing weather should protect the
collectors from freezing.
Section 3
System Piping
Solar systems with less "" 45
than 300 square feet of collec-
for and located less than 20 feet from
the pool may be connected with 1 1/2'
schedule 40 pipe. All other systems should be
plumbed with 2" or larger, schedule 40 pipe. Plan the
piping to
minimize
the num-
ber of fit-
tings. It is
important
that pres-
s u r e
losses are
kept low so
that the
Collector, S>ze 4 x 8 4 x 10 "' 4. x 12
Recommended Flow Rate :
per Collector (gpm) 3.2 4 0 5.0
Minimum Flow Rate
per Collector (gpm)
2.0 2.5 3.D
Maximum Number of
Collectors per Row
g: 15 12`
maximum Table 3
amount of water flows through the
collectors.
Referring to Figures 2 and 3, note
that the supply to the solar col- Filter '
lectors is always at the inlet Pump
headers, and the return is
diagonally opposite, at
the outlet headers. The
three-way control valve, t
whether it is manual or ----
motor driven, is installed
in the inlet line to the col- ff—"
lectors. .
If the collectors' inlet
headers are installed
more than three feet
Control
Water Sensor
Solar System Piping
Solar
Sensor
Isolation
Valves
Ball Check
Valve I Valve
Check
Valve
3-way
Valve
Figure 3
Heater
Bypass
Ball Valve
ISCOPE
OF WORK:
I IINSTALLATIONOFASOLARPOOLHEATING
SYSTEM WITH A ROOF TOP COLLECTOR
WIND LOAD: WIND EXPOSURE: SOLAR SYSTEM: ROOF ANGLE:
I I IIIEXPOSURECATEGORYCIIDIMENSIONS: 4'-0 XP.L. (S', 10 OR 121 I COLLECTOR ON
DESIGNED FOR 150 MPH STANDARD FLUSHLUSH WIROOF e
1.
These drawings and engineering establish the installation requirements for Solar World solar
pool heating equipment on buildings in Florida 60 feet or less in height and at roof angles
from flat up to 45 degrees. The solar pool panels shall in all cases be. installed flush
on the upper Surface of the roof covering. This engineer has evaluated the installation
components and hardware currently provided by Solar World as its OEM installation
kits and found Them to meet the requirements of 111e Florida BmIding Code 2004
with 2006 Supplement. There shall be, no substitution of other vendormaterials without prior
approval of this engineer thru Solar World. 2. Plumbing
shall be per figure 1 (with of without the designated optional items). Florida Plumbing Code
shall be adhered to with particular attention to pipe support, per FPC table 308.
5, the ABS value of 4 ft shall be taken as the maximum for horizontal and 10 ft for vertical
solar piping. 3. Per
Florida Mechanical Code, solar pool heating installation shall be designed and installed to
prevent damage from freezing by manual or natural draindown. 4. This
engineer has determined that the hold-down strapping and fasteners supplied by Solar World
will not break under hurricane force winds up to and including 150 mph 3- second dusts.
This engineer hereby designates 24 inches as the maximum strap spacing see
figure 2. The only remaining variable of significance is the attachment of that strapping
to the underlying roof system using OEM stainless steel lag bolts thru the OEM strap
clamps. The lag bolts shall be #14 and 2.5 inches in length (minimum). The lags shall
achieve a cumulative solid embedment of at least 2 inches in the decking and underlying wood
roof truss or thru 36 sq inch area (min) 2 inch thick (nominal) wood blocking on
the underside of the roof sheeting. Where this is not possible, as in the case of a
concrete roof deck. lag shields are an acceptable alternate. If the deck is wood and it is
not feasible to position blocking to receive the lag, plated steel toggles with a'/. inch stainless bolt
and fender washer on top of suitable waterproofing SUCI1 as "Peel & Stick" is an
acceptable alternate which may be installed without further consultation with this engineer. This
toggle arrangement with specified stainless fender washer and waterproofing may
also be used for steel roof decks. 5. Installer
shall adhere to requirements of FBC Chapter 15 (Roofing) and best practices of the NRCA
Roofing & Waterproofing Manual to ensure that the solar installation does not cause roof
leaks at initial installation or as the system "ages". 6. This
design is based upon FBC 1609.6 Simplified Wind Load r0ethod: FBC: 1309.6,1.2 Components and
Cladding; IWO.6.2 Design Procedure; Assumed design conditions per Table 1609.
6B (pressure zone 1. 120 mph 3-sec gust, mean roof height 30 fl or less Exposure £3).
Pressure zones are shown herein as figure 3 F113C FIGURE 1609.6.2.2 with notes.
For other design conditions, the maximurn strap interval (spacing) shall be reduced as
follows: (a) roof height and exposure category by multiplying 24 inches by the reciprocal
of the adjustment factor shown in FBC TABLE 1609.6.2.1(4) figure 4 herein. Strap
interval spacing shall be reduced for higher wind speeds as follows for 130 mph multiply
24 inches by 0.9, for 140 mph multiply by 0.80, for 150 mph multiply by 0.70.
For example, the strap spacing for 150 mph shall not be greater than 24 times 0.70 16.75
inch max strap spacing. Maximum strap interval spacing shall be reduced in Pressure zone
2 by multiplying by 0.90. Maximum strap interval sparing shall be reduced in
Pressure Zone 3 by multiplying by 0.50. Multiple differences from assumed design conditions
shall result in a cumulative nlaxinlunl strap spacing reduction, for example; maximum
strap spacing for pressure zone 3 on a 40 ft roof in category C, 150 mph wind
zone would be computed as follows; 24 inches times 0.50 times 111.49 times 0.70 =
6 inch maximum strap spacing. Strap spacing on that same roof in pressure zone 1 would
be 24 inches times 1l1.49 times 0.70 = 12 inch maximum strap spacing. 7 Installers,
inspectors, building departments and others having questions may contact this engineer
directly — cell: 813 650 7246, fax: 866 397 9050, E-mail: bolson 1
@tampabay.rr.com N. STRAP
INSTALLATION ON SOLAR WORLD
POOL COLLECTOR ARRAY TOP STRAP
1) STRAP
SPACING (S) SHALL FIRST BE DETERMINED PER FBC & THE DESIGN
DRAWING w (2)
NUMBER OF STRAPS SHALL BE DETERMINED BY DIVIDING (S) IN m06AR PANEL
INCHES INTO P.L. IN INCHES i P (
3)
INSTALL TOP & BOTTOM STRAPS PARALLEL TO HEADERS AT IN MOST
CASES 24' = 12" H (4)
INSTALL OTHER STRAPS AT IS) DISTANCE (NORMALLY 24") aorroM STRAP
FROM EACH OTHER BEGINNING FROM THE TOP STRAP DOWN TYP. SOLAR
PANEL INSTALLATION Ot SG/.
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Nl ENGINEERED: ALLEN
GEZELMAN
16502 HANNA
RD. LUTZ, FLORIDA
33549 PE. # 59180
L'73
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CAD: SIGGI
BROCKS
3603 E.
RENELLIE CIR. TAMPA, FL
33629 SIGGI B@EARTHLINK.
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0 ! I + A,v rluua REVISION
NOJDATE
SHEET NAME:
PERMIT SET
JOB #: SHEET
NO:
A.1.
0
FLO -- DIRECTOR SYSTEM DIAGRAM VACUUM RELIEF VALVE--'' FO,''. OUTDOOR POOLS
I J SP SOLAR COLLECTORS
SOLAR SENSOR —..
VACUUI•.1 RELIEF VALVE
optional location{
END CAP
INLET LINE TO —'
SOLAR COLLECTOR OUTLET LINE
FLOWMETERELECTRONIC CONTROL — THEnNi0I,
IETER VALVE
CONTROL
LINE
ISOLATION CHECK VALVE optional)
1201240
V LINE ISOLATION rOUTLET TEE ALLVALVEoptional)
i- HEATER
BY-PASS FILTER
BALL VALVE opllonap
CHECK
VALVE " i HEATER I, l00,10l, all PPOOL
WATER UMP COOLWATER
I.I SOLAR HEATI' '
y Y~
SENSOR
It.
a...
w'':} %i. ;r .- t: HEATED ER i: TOPOOL