Water Carrying Capacity and Rainwater Run-off

Water Carrying Capacity and Rainwater Run-off

The Right Profile For the Right Job

In Australia, we experience vast differences in regional conditions as well as variations in the functional and performance requirements of buildings, yet most roofing manufacturers offer the same profiles for all applications.

Fielders® provide the largest range of long length concealed fix decking on the Australian market. Each profile has been developed to give maximum performance in a variety of applications, giving you the right roofing profile for any conditions.

Figure DD WCC RD 001

Note:
Figures based on exposure conditions as follows:
1. Rainfall intensity - 370 mm / hr (Cairns 100 year).
2. Roof Slope - 5.0 degrees.
3. Flow condition - Steady state & uniform.
4. Flow (L/s/m) - Per metre width of sheet.

Fielders® three concealed fix roofing profiles have all your requirements covered. KingKlip 700® is a premium wide deck with a clip design allowing faster installation. And finally, HiKlip® 630 has the greatest water carrying capacity on the market.

All concealed fix decks are backed by Fielders® unique 20 Year Watertight Installation Guarantee - and more importantly, they have no more holes!

Fielders® HiKlip® 630

HiKlip® 630 is the strongest concealed-fixed roofing product, and secondly, it has the greatest water carrying capacity of any deck on the market.

Fielders® recognised the demand for a concealed fix deck that provided total protection for buildings located in areas prone to flash deluges, high wind and rainfall. The result was that Fielders® designed HiKlip® 630. HiKlip® 630 is a revolutionary deep rib deck with two important performance features. 

Both the HiKlip® 630 deck and clip mechanism exhibit great strength and are able to resist very high wind pressures whilst allowing the brackets and decking to slide independently of each other to accommodate temperature variations without unsightly step joints.

 

 

 

 

 

 

Figure DD WCC CFR 001

KingKlip 700®

 

Figure DD WCC CFR 002

 

Spanform™

Figure DD WCC CFR 003

 

Freeform™

 

Figure DD WCC CFR 004

 

TL-5™

 

Figure DD WCC CFR 005

 

Rainfall Intensity by Locality (mm/hr)

LocalityAverage recurrence
internal, once in:
20 years
*		100 years
**
Adelaide
123
186
Arkaroola
134
194
Ceduna
125
200
Mt. Barker
120
184
Mt. Gambier
108
168
Murray Bridge
117
181
Nuriootpa
111
164
Port Augusta
124
189
Port Pirie
125
201
Yorketown
118
197
Table DD RI LO 001
*Minimum for eaves gutters.
**Minimum for internal box and valley gutters.
Notes:
Data for other locations may be obtained from local drainage authorities. Data for any locality in Australia (to a resolution of 1/40th of a degree of latitude or longitude) may be obtained from the Bureau of Meteorology.
Data shown for large cities are the maxima within the greater city area. Data for specific locations within these areas may be obtained from the Bureau of Meteorology.
More stringent requirements should be considered for buildings where the avoidance of gutter overflow is of paramount importance.
All gutters and outlets, particularly box gutters served by internal sumps, need to be regularly inspected and maintained to avoid breakages.
 
LocalityAverage recurrence
internal, once in:
20 years
*		100 years
**
Bacchus Marsh
126
189
Ballarat
127
184
Benalla
133
187
Geelong
118
172
Hamilton
120
184
Healesville
129
192
Horsham
120
174
Korumburra
116
168
Lakes Entrance
124
179
Melbourne
127
186
Mildura
125
174
Morwell
129
196
Orbost
130
188
Stawell
127
185
Wonthaggi
114
165
Table DD RI LO 001
*Minimum for eaves gutters.
**Minimum for internal box and valley gutters.
Notes:
Data for other locations may be obtained from local drainage authorities. Data for any locality in Australia (to a resolution of 1/40th of a degree of latitude or longitude) may be obtained from the Bureau of Meteorology.
Data shown for large cities are the maxima within the greater city area. Data for specific locations within these areas may be obtained from the Bureau of Meteorology.
More stringent requirements should be considered for buildings where the avoidance of gutter overflow is of paramount importance.
All gutters and outlets, particularly box gutters served by internal sumps, need to be regularly inspected and maintained to avoid breakages.
 
LocalityAverage recurrence
internal, once in:
20 years
*		100 years
**
Bridgewater
101
156
Burnie
118191
Deloraine
108
165
Dover
97
165
Flinders Island
128
184
Hobart
99
155
Kingston
98
154
Launceston
101
150
Mt Wellington
122
191
New Norfolk
100
166
Queenstown
118
183
Scottsdale
119
190
Sorell
101
152
St. Helens
131
185
St. Marys
205
266
Table DD RI LO 001
*Minimum for eaves gutters.
**Minimum for internal box and valley gutters.
Notes:
Data for other locations may be obtained from local drainage authorities. Data for any locality in Australia (to a resolution of 1/40th of a degree of latitude or longitude) may be obtained from the Bureau of Meteorology.
Data shown for large cities are the maxima within the greater city area. Data for specific locations within these areas may be obtained from the Bureau of Meteorology.
More stringent requirements should be considered for buildings where the avoidance of gutter overflow is of paramount importance.
All gutters and outlets, particularly box gutters served by internal sumps, need to be regularly inspected and maintained to avoid breakages.
 
LocalityAverage recurrence
internal, once in:
20 years
*		100 years
**
Albury
135
191
Armidale
154
219
Batesmans Bay
211
279
Bathurst
143
197
Bowral
170
225
Broken Hill
130
181
Casino
198
256
Coffs Harbour
232
293
Cooma
129
183
Coonabarabran
178
247
Cowra
144
203
Dorrigo
214
273
Dubbo
159
221
Forbes
151
209
Glen Innes
159
219
Gosford
189
240
Goulburn
145
197
Inverell
179
251
Kempsey
220
283
Kiama
224
283
Lismore
219
278
Lithgow
141
191
Maitland
169
224
Merimbula
207
278
Mittagong
172
277
Mullumbimby
250
315
Murwillumbah
244
302
Muswellbrook
141
195
Newcastle
181
233
Nowra
219
280
Orange
152
214
Penrith
166
220
Port Macquarie
223
290
Robertson
228
297
Singleton
148
199
Sydney
214
273
Taree
190
241
Tweed Heads
245
303
Wollongong
233

294
Wyong
186240
Table DD RI LO 001
*Minimum for eaves gutters.
**Minimum for internal box and valley gutters.
Notes:
Data for other locations may be obtained from local drainage authorities. Data for any locality in Australia (to a resolution of 1/40th of a degree of latitude or longitude) may be obtained from the Bureau of Meteorology.
Data shown for large cities are the maxima within the greater city area. Data for specific locations within these areas may be obtained from the Bureau of Meteorology.
More stringent requirements should be considered for buildings where the avoidance of gutter overflow is of paramount importance.
All gutters and outlets, particularly box gutters served by internal sumps, need to be regularly inspected and maintained to avoid breakages.
 
LocalityAverage recurrence
internal, once in:
20 years
*		100 years
**
Canberra
137
194
Table DD RI LO 001
*Minimum for eaves gutters.
**Minimum for internal box and valley gutters.
Notes:
Data for other locations may be obtained from local drainage authorities. Data for any locality in Australia (to a resolution of 1/40th of a degree of latitude or longitude) may be obtained from the Bureau of Meteorology.
Data shown for large cities are the maxima within the greater city area. Data for specific locations within these areas may be obtained from the Bureau of Meteorology.
More stringent requirements should be considered for buildings where the avoidance of gutter overflow is of paramount importance.
All gutters and outlets, particularly box gutters served by internal sumps, need to be regularly inspected and maintained to avoid breakages.
 
LocalityAverage recurrence
internal, once in:
20 years
*		100 years
**
Biloela
220
298
Brisbane
251
333
Bundaberg
241
318
Cairns
282
368
Cape York
301
388
Charleville
170
236
Charters Towers
218
285
Cloncurry
172
228
Emerald
220
289
Goondiwindi
182
246
Gympie
228
299
Hughenden
199
266
Innisfail
254
323
Kingaroy
208
279
Longreach
189
251
Mackay
273
363
Mareeba
219
290
Mt Isa
169
223
Mt Morgan
225
300
Noosa
253
320
Posperpine
272
356
Rockhampton
248
336
Roma
192
358
Southport
246
308
Toowoomba
189
251
Townsville
260
346
Warwick
178
240
Weipa
293
370
Table DD RI LO 001
*Minimum for eaves gutters.
**Minimum for internal box and valley gutters.
Notes:
Data for other locations may be obtained from local drainage authorities. Data for any locality in Australia (to a resolution of 1/40th of a degree of latitude or longitude) may be obtained from the Bureau of Meteorology.
Data shown for large cities are the maxima within the greater city area. Data for specific locations within these areas may be obtained from the Bureau of Meteorology.
More stringent requirements should be considered for buildings where the avoidance of gutter overflow is of paramount importance.
All gutters and outlets, particularly box gutters served by internal sumps, need to be regularly inspected and maintained to avoid breakages.
 
LocalityAverage recurrence
internal, once in:
20 years
*		100 years
**
Alice Springs
139
204
Darwin
285
366
Katherine
230
304
Table DD RI LO 001
*Minimum for eaves gutters.
**Minimum for internal box and valley gutters.
Notes:
Data for other locations may be obtained from local drainage authorities. Data for any locality in Australia (to a resolution of 1/40th of a degree of latitude or longitude) may be obtained from the Bureau of Meteorology.
Data shown for large cities are the maxima within the greater city area. Data for specific locations within these areas may be obtained from the Bureau of Meteorology.
More stringent requirements should be considered for buildings where the avoidance of gutter overflow is of paramount importance.
All gutters and outlets, particularly box gutters served by internal sumps, need to be regularly inspected and maintained to avoid breakages.
 
LocalityAverage recurrence
internal, once in:
20 years
*		100 years
**
Abydos
199
275
Albany
142
217
Broome
252
343
Bunbury
148
215
Carnarvon
142
196
Collie
145
217
Dampier
231
337
Derby
254
343
Geraldton
132
173
Halls Creek
181
237
Hamersley
180
244
Hillside
192
265
Kalgoorlie
116
180
Katanning
125
203
Kununurra
256
347
Marble Bar
205
287
Meekatharra
111
155
Mundaring
139
204
Newman
143
195
Perth
146
214
Port Hedland
233
332
Roy Hill
160
216
Tom Price
164
222
Wittenoom
182
245
Table DD RI LO 001
*Minimum for eaves gutters.
**Minimum for internal box and valley gutters.
Notes:
Data for other locations may be obtained from local drainage authorities. Data for any locality in Australia (to a resolution of 1/40th of a degree of latitude or longitude) may be obtained from the Bureau of Meteorology.
Data shown for large cities are the maxima within the greater city area. Data for specific locations within these areas may be obtained from the Bureau of Meteorology.
More stringent requirements should be considered for buildings where the avoidance of gutter overflow is of paramount importance.
All gutters and outlets, particularly box gutters served by internal sumps, need to be regularly inspected and maintained to avoid breakages.
 

The data relates to a storm of five minutes duration and an average recurrence interval of one in 20 years for eaves gutters and one in 100 years for valley and internal box gutters, based on Australian Rainfall and Runoff (1987) published by Engineers Australia.