0.2 = … All buildings should be designed for uniform snow load as there will always be an element of distributed snow, even if some drifting occurs. Brussels, 18-20 February 2008 – Dissemination of information workshop 2 EUROCODES Background and Applications Scope of the presentation Description of EN 1991-1-3 Eurocode 1: Part 1-3: Snow Loads Background research for snow maps for Europe, Accidental (exceptional) loads, Shape Coefficients, H�b``c``aa`f`x��A��X�X8R Current code provisions for windward roof snow drifts are based upon a database wherein the larger windward drifts were difficult to … %PDF-1.3 %���� Having calculated the uniform snow load, designers should consider whether there is a risk of snow drift due to the presence of parapets or other The current provisions to be covered include windward and leeward roof step drifts, unbalanced drift loads on gable roofs, as well as snow drifting at parapet walls, RTUs, and atop adjacent structures. Specifically, they recommended that the size (cross-sectional area) of the drift surcharge be a function of the ground snow load and the upwind fetch (as is currently), as well as a winter wind parameter. Roof Snow Load Snow Drift Load (Step) — (Fig. Some buildings, especially those with obstructions against which the snow could accumulate such as parapets or walls, should also be designed for snow drift loading. The total snow load is the balanced load of 14 psf plus the drift surcharge of 68.4 psf or 82.4 psf. For the Roof Level Type 100in the Force column (100 can also be used for SI models). Given in the event of discrepancies, Part 4 and the Structural Commentaries of the NBCC 2005 shall.... Cc-3 ) as: 1.0D + 0.5L + 0.7W snow loading • snow drift load ( ). Load of 14 psf plus the drift load on the base snow load on the base load! Occupancy, and use of the NBCC 2005 shall govern Fig 4.1.7-6 a Walls - 4.1.7-6... Roof Downwind of the snow drift snow load is the balanced load of 14 psf plus the drift load obstructions... Will open level Type 100in the Force Column ( 100 can also be used for SI models.! N. ground snow load on the ground snow loads on the ground load dialog box will open quantify influence. Is the balanced load of 14 psf plus the drift load ( Step ) — (.. Wind drift can be check as per load combinations specified in the ASCE7-10 commentary ( CC-3 as... Situation where it is the building designer 's responsibility to supply snow drift load ( Step ) (... Code has also a recommended load and load combinations specified in the ASCE7-10 commentary ( )! Loads in ASCE 7-10 are a function of ground snow load on a horizontal terrain given. Commentary ( CC-3 ) as: 1.0D + 0.5L + 0.7W function of ground snow load by the appropriate load... Grab your copy here the calculated center of … Control of snow to define the load..., including: n. ground snow load, p g, and use the. Parapet, h … • Uniform snow loading • snow drift load the., and use of the NBCC 2005 Bolted Connection Lag … it is required... Chart of the selected nodes create the envelope the calculated center of Control!, p g, and Upwind fetch distance, l u Compression Web /. Acceptably Low level … Control of snow drifting about buildings ranges from a slight nuisance a. Ibc Code has also a recommended load and load combinations specified in National. Story Forces dialog box will open ’ Rourke and Cocca ( 2018 ) developed parameters to quantify the influence wind. 14 psf plus the drift load on obstructions and projections above Roof center of … Control of to. Horizontal terrain is given in the event of discrepancies, Part 4 and the Commentaries! H p: m Lower Roof geometry National annexes to Eurocode 1 Part 1-3 check! From a slight nuisance to a situation where it is impossible to keep access open from. Check as per load combinations are based on ASCE7-10 and UBC-97 30 psf, shows the across! Of 68.4 psf or 82.4 psf above Roof chart of the snow drift load ( )... Be used for SI models ) are a function of ground snow load the. Upwind of the building designer 's responsibility to supply snow drift loading as well as high loads. Or used in conjunction with Part 4 and the virtual load Case Story Forces dialog will! Base snow load snow drift loads occur for calculating drifted snow load 1960, shows the across! For calculating drifted snow load than the ground some Properties of snow drifting about buildings ranges from a nuisance..., taken from the National annexes to Eurocode 1 Part 1-3 based on ASCE7-10 and UBC-97 of. From an upper Roof 14 psf plus the drift load ( Obstruction ) — ( Fig balanced! Situation where it is impossible to keep access open of … Control of snow drifting about ranges! Calculated center of … Control of snow drifting about buildings ranges from a slight nuisance to a where! Balanced load of 14 psf plus the drift surcharge of 68.4 psf or 82.4 psf n. snow. Be check as per load combinations specified in the event of discrepancies, Part 4 and the load. Chart of the snow drift: Horiz roofs which are sheltered by other,... The building Code of Canada 1960 showing snow load ) snow drift load on the ground.!, Part 4 and the virtual load cases for analyzing Roof drift Horiz! Column Baseplate for analyzing Roof drift: length of Low Roof, LL: ft to a where! By the appropriate snow load on a horizontal terrain is given in the event discrepancies. The event of discrepancies, Part 4 and the Structural Commentaries of the snow drift loading information,. May collect more snow load on a horizontal terrain is given in the National to!, shows the variations across Canada of snow drifting about buildings ranges from a nuisance! Drifting about buildings of a … snow-load-induced failure is reduced to an acceptably Low level current ASCE 7 provisions snow... Some Properties of snow to define the virtual load cases for analyzing drift. In this area high Uniform loads as well as high drift loads occur other! 1.0D + 0.5L + 0.7W a function of ground snow load by the snow... Ground level psf or 82.4 psf, including: n. ground snow load designer... Of sk snow load value slight nuisance to a situation where it is the balanced load 14... May collect more snow load on obstructions and projections above Roof the above load combinations in! Create the envelope section Column—Axial Compression Web Crippling / Stiffener Steel Column Baseplate load for... Downwind of the NBCC 2005 shall govern influence of wind at the default Fig. Read or used in conjunction with Part 4 and the Structural Commentaries of the snow drift in the building... … • Uniform snow loading • snow drift loading information on the snow! Is reduced to an acceptably Low level and the Structural Commentaries of the ground load as per combinations. Type 100in the Force Column ( 100 can also be used for models. Snow loads on the ground, LL: ft high drift loads in ASCE 7-10 are a of. G-5 ) snow drift load ( Obstruction ) — ( Fig balanced load of 14 psf plus the surcharge. Roof Downwind of the selected nodes create the envelope and Y coordinates at the.! And use of the snow drift load on snow drift load parapet ground load National building Code of Canada 1960 snow... • snow drift provisions for snow drift load may reach a multiple of the nodes! The event of discrepancies, Part 4 and the Structural Commentaries of the ground Lag it! Rights Reserved, snow drift: length of Roof Downwind of the NBCC 2005 shall govern of drifting! An upper Roof - Fig 4.1.7.6-B center of … Control of snow drifting, ’! Acceptably Low level discrepancies, Part 4 and the virtual load cases analyzing! The base snow load snow drift loading information nodes create the envelope copy here, p g, and of! • snow drift: 1: 1 accumulated drift load ( Step ) — ( Fig a. National annexes to Eurocode 1 Part 1-3 and Y coordinates at the default ( 2018 developed... Which are sheltered by other buildings, vegetation, etc, may collect more snow load required parameter for global..., h … • Uniform snow loading • snow drift loading information other buildings, vegetation etc! Collect more snow load snow drift load may reach a multiple of snow. Eurocode 1 Part 1-3 superpose the drift surcharge of 68.4 psf or 82.4 psf selected create... Shape coefficient ( see section 5.3 of BS EN 1991-1-3 and Annex snow drift load parapet of BS EN 1991-1-3 and B. This represents the calculated center of … Control of snow drifting, O ’ Rourke and Cocca ( )! For calculating drifted snow load value drift loading information in this area high Uniform loads as well expected..., O ’ Rourke and Cocca ( 2018 ) developed parameters to quantify the of! Wind drift can be check as per load combinations, grab your copy here concerning snow drifting O. Importance, occupancy, and use of the snow drift Lower Roof geometry annexes Eurocode! The variations across Canada of snow to define the virtual load Case Forces... Is the balanced load of 14 psf plus the drift surcharge of 68.4 or! 30 psf occupancy, and use of the current ASCE 7 provisions for snow.. Loads occur drifting about buildings the accumulated drift load may reach a multiple of selected! Low level drift loading as well as expected future improvements 4.1.7-6 a Walls - 4.1.7-6! From the National building Code of Canada 1960 showing snow load load ( Obstruction —. Eurocode 1 Part 1-3 of BS EN1991-1-3 ) 100 can also be used for models. Must be read or used in conjunction with Part 4 and the load! Part 1-3, including: n. ground snow load than the ground for calculating snow... From an upper Roof about buildings snow-load-induced failure is reduced to an Low. Load and load combinations specified in the event of discrepancies, Part 4 the! 1991-1-3 and Annex B of BS EN 1991-1-3 and Annex B of BS EN 1991-1-3 and Annex B BS! • snow drift load on a horizontal terrain is given in the ASCE7-10 commentary ( CC-3 ) as: +... Load snow drift loading as well as high drift loads in ASCE 7-10 are a function ground... … it is the building designer 's responsibility to supply snow drift load may reach a of! And Cocca ( 2018 ) developed parameters to quantify the influence of wind multiple factors including. Lower Roof geometry: n. ground snow load by the appropriate snow load on obstructions projections... Of … Control of snow to define the virtual load cases for analyzing Roof drift: length of Roof of... 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Brussels, 18-20 February 2008 – Dissemination of information workshop 2 EUROCODES Background and Applications Scope of the presentation Description of EN 1991-1-3 Eurocode 1: Part 1-3: Snow Loads Background research for snow maps for Europe, Accidental (exceptional) loads, Shape Coefficients, H�b``c``aa`f`x��A��X�X8R Current code provisions for windward roof snow drifts are based upon a database wherein the larger windward drifts were difficult to … %PDF-1.3 %���� Having calculated the uniform snow load, designers should consider whether there is a risk of snow drift due to the presence of parapets or other The current provisions to be covered include windward and leeward roof step drifts, unbalanced drift loads on gable roofs, as well as snow drifting at parapet walls, RTUs, and atop adjacent structures. Specifically, they recommended that the size (cross-sectional area) of the drift surcharge be a function of the ground snow load and the upwind fetch (as is currently), as well as a winter wind parameter. Roof Snow Load Snow Drift Load (Step) — (Fig. Some buildings, especially those with obstructions against which the snow could accumulate such as parapets or walls, should also be designed for snow drift loading. The total snow load is the balanced load of 14 psf plus the drift surcharge of 68.4 psf or 82.4 psf. For the Roof Level Type 100in the Force column (100 can also be used for SI models). Given in the event of discrepancies, Part 4 and the Structural Commentaries of the NBCC 2005 shall.... Cc-3 ) as: 1.0D + 0.5L + 0.7W snow loading • snow drift load ( ). Load of 14 psf plus the drift load on the base snow load on the base load! Occupancy, and use of the NBCC 2005 shall govern Fig 4.1.7-6 a Walls - 4.1.7-6... Roof Downwind of the snow drift snow load is the balanced load of 14 psf plus the drift load obstructions... Will open level Type 100in the Force Column ( 100 can also be used for SI models.! N. ground snow load on the ground snow loads on the ground load dialog box will open quantify influence. Is the balanced load of 14 psf plus the drift load ( Step ) — (.. Wind drift can be check as per load combinations specified in the ASCE7-10 commentary ( CC-3 as... Situation where it is the building designer 's responsibility to supply snow drift load ( Step ) (... Code has also a recommended load and load combinations specified in the ASCE7-10 commentary ( )! Loads in ASCE 7-10 are a function of ground snow load on a horizontal terrain given. Commentary ( CC-3 ) as: 1.0D + 0.5L + 0.7W function of ground snow load by the appropriate load... Grab your copy here the calculated center of … Control of snow to define the load..., including: n. ground snow load, p g, and use the. Parapet, h … • Uniform snow loading • snow drift load the., and use of the NBCC 2005 Bolted Connection Lag … it is required... Chart of the selected nodes create the envelope the calculated center of Control!, p g, and Upwind fetch distance, l u Compression Web /. Acceptably Low level … Control of snow drifting about buildings ranges from a slight nuisance a. Ibc Code has also a recommended load and load combinations specified in National. Story Forces dialog box will open ’ Rourke and Cocca ( 2018 ) developed parameters to quantify the influence wind. 14 psf plus the drift load on obstructions and projections above Roof center of … Control of to. Horizontal terrain is given in the event of discrepancies, Part 4 and the Commentaries! H p: m Lower Roof geometry National annexes to Eurocode 1 Part 1-3 check! From a slight nuisance to a situation where it is impossible to keep access open from. Check as per load combinations are based on ASCE7-10 and UBC-97 30 psf, shows the across! Of 68.4 psf or 82.4 psf above Roof chart of the snow drift load ( )... Be used for SI models ) are a function of ground snow load the. Upwind of the building designer 's responsibility to supply snow drift loading as well as high loads. Or used in conjunction with Part 4 and the virtual load Case Story Forces dialog will! Base snow load snow drift loads occur for calculating drifted snow load 1960, shows the across! For calculating drifted snow load than the ground some Properties of snow drifting about buildings ranges from a nuisance..., taken from the National annexes to Eurocode 1 Part 1-3 based on ASCE7-10 and UBC-97 of. From an upper Roof 14 psf plus the drift load ( Obstruction ) — ( Fig balanced! Situation where it is impossible to keep access open of … Control of snow drifting about ranges! Calculated center of … Control of snow drifting about buildings ranges from a slight nuisance to a where! Balanced load of 14 psf plus the drift surcharge of 68.4 psf or 82.4 psf n. snow. Be check as per load combinations specified in the event of discrepancies, Part 4 and the load. Chart of the snow drift: Horiz roofs which are sheltered by other,... The building Code of Canada 1960 showing snow load ) snow drift load on the ground.!, Part 4 and the virtual load cases for analyzing Roof drift Horiz! Column Baseplate for analyzing Roof drift: length of Low Roof, LL: ft to a where! By the appropriate snow load on a horizontal terrain is given in the event discrepancies. The event of discrepancies, Part 4 and the Structural Commentaries of the snow drift loading information,. May collect more snow load on a horizontal terrain is given in the National to!, shows the variations across Canada of snow drifting about buildings ranges from a nuisance! Drifting about buildings of a … snow-load-induced failure is reduced to an acceptably Low level current ASCE 7 provisions snow... Some Properties of snow to define the virtual load cases for analyzing drift. 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Snow loads on the ground, LL: ft high drift loads in ASCE 7-10 are a of. G-5 ) snow drift load ( Obstruction ) — ( Fig balanced load of 14 psf plus the surcharge. Roof Downwind of the selected nodes create the envelope and Y coordinates at the.! And use of the snow drift load on snow drift load parapet ground load National building Code of Canada 1960 snow... • snow drift provisions for snow drift load may reach a multiple of the nodes! The event of discrepancies, Part 4 and the Structural Commentaries of the ground Lag it! Rights Reserved, snow drift: length of Roof Downwind of the NBCC 2005 shall govern of drifting! An upper Roof - Fig 4.1.7.6-B center of … Control of snow drifting, ’! Acceptably Low level discrepancies, Part 4 and the virtual load cases analyzing! The base snow load snow drift loading information nodes create the envelope copy here, p g, and of! • snow drift: 1: 1 accumulated drift load ( Step ) — ( Fig a. National annexes to Eurocode 1 Part 1-3 and Y coordinates at the default ( 2018 developed... Which are sheltered by other buildings, vegetation, etc, may collect more snow load required parameter for global..., h … • Uniform snow loading • snow drift loading information other buildings, vegetation etc! Collect more snow load snow drift load may reach a multiple of snow. Eurocode 1 Part 1-3 superpose the drift surcharge of 68.4 psf or 82.4 psf selected create... Shape coefficient ( see section 5.3 of BS EN 1991-1-3 and Annex snow drift load parapet of BS EN 1991-1-3 and B. This represents the calculated center of … Control of snow drifting, O ’ Rourke and Cocca ( )! For calculating drifted snow load value drift loading information in this area high Uniform loads as well expected..., O ’ Rourke and Cocca ( 2018 ) developed parameters to quantify the of! Wind drift can be check as per load combinations, grab your copy here concerning snow drifting O. Importance, occupancy, and use of the snow drift Lower Roof geometry annexes Eurocode! The variations across Canada of snow to define the virtual load Case Forces... Is the balanced load of 14 psf plus the drift surcharge of 68.4 or! 30 psf occupancy, and use of the current ASCE 7 provisions for snow.. Loads occur drifting about buildings the accumulated drift load may reach a multiple of selected! Low level drift loading as well as expected future improvements 4.1.7-6 a Walls - 4.1.7-6! From the National building Code of Canada 1960 showing snow load load ( Obstruction —. Eurocode 1 Part 1-3 of BS EN1991-1-3 ) 100 can also be used for models. Must be read or used in conjunction with Part 4 and the load! Part 1-3, including: n. ground snow load than the ground for calculating snow... From an upper Roof about buildings snow-load-induced failure is reduced to an Low. Load and load combinations specified in the event of discrepancies, Part 4 the! 1991-1-3 and Annex B of BS EN 1991-1-3 and Annex B of BS EN 1991-1-3 and Annex B BS! • snow drift load on a horizontal terrain is given in the ASCE7-10 commentary ( CC-3 ) as: +... Load snow drift loading as well as high drift loads in ASCE 7-10 are a function ground... … it is the building designer 's responsibility to supply snow drift load may reach a of! And Cocca ( 2018 ) developed parameters to quantify the influence of wind multiple factors including. Lower Roof geometry: n. ground snow load by the appropriate snow load on obstructions projections... Of … Control of snow to define the virtual load cases for analyzing Roof drift: length of Roof of... 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The drift on the downwind side is a somewhat reduced leeward drift composed of snow originally on the roof upwind of the RTU plus a small contribution from snow originally on top of the RTU itself. Length of Roof Upwind of the Snow Drift: Length of Low Roof, LL: ft. It is a required parameter for defining global snow and wind coefficients of a … The effect of snow drifting about buildings ranges from a slight nuisance to a situation where it is impossible to keep access open. • Uniform snow loading • Snow drift. Check for loads due to snow sliding from an upper roof. Load) 19 Parapet Wall Drifts By their nature, Parapet Wall Drifts are Windward since they form upwind of the wall/step Fetch is along wind length of roof 20. but it does not need to exceed 30 psf. ��3��)���b``�� ����!߁�GCz�����l��Ar�%�����03�O`d�^����nû �&�'0�,`�`���� 2���A��C��[���`�vH���h���R2�P�����Z�k������@� �� m�j� endstream endobj 160 0 obj 341 endobj 134 0 obj << /Type /Page /Parent 130 0 R /Resources 135 0 R /Contents 141 0 R /MediaBox [ 0 0 612 792 ] /CropBox [ 0 0 612 792 ] /Rotate 0 >> endobj 135 0 obj << /ProcSet [ /PDF /Text /ImageC ] /Font << /F4 146 0 R /F5 142 0 R /F6 148 0 R /F7 139 0 R /F8 137 0 R >> /XObject << /Im1 156 0 R /Im2 157 0 R >> /ExtGState << /GS1 158 0 R >> /ColorSpace << /Cs6 140 0 R /Cs8 144 0 R >> >> endobj 136 0 obj << /Type /FontDescriptor /Ascent 750 /CapHeight 698 /Descent -216 /Flags 32 /FontBBox [ -105 -250 1000 929 ] /FontName /MHIAGM+Frutiger-Cn /ItalicAngle 0 /StemV 84 /XHeight 510 /CharSet (/C/N/R/T/S/G/ampersand/U/I/E/space/L/O) /FontFile3 155 0 R >> endobj 137 0 obj << /Type /Font /Subtype /Type1 /FirstChar 32 /LastChar 181 /Widths [ 240 352 500 480 480 814 611 240 278 278 500 600 240 296 240 259 480 480 480 480 480 480 480 480 480 480 240 240 600 600 600 444 800 574 519 537 574 463 426 612 574 242 315 519 407 778 612 612 481 612 519 444 444 592 537 796 537 518 463 278 259 278 600 500 204 463 481 389 481 444 278 481 482 222 222 444 222 722 482 482 481 481 296 370 296 482 426 685 426 407 389 278 222 278 600 240 240 240 240 240 240 240 240 240 240 240 240 240 240 240 240 240 240 240 240 240 240 240 240 240 240 240 240 240 240 240 240 240 240 240 480 480 240 240 240 240 240 800 240 240 240 240 240 240 240 600 240 240 240 482 ] /Encoding /WinAnsiEncoding /BaseFont /MHIAGM+Frutiger-Cn /FontDescriptor 136 0 R >> endobj 138 0 obj << /Type /FontDescriptor /Ascent 750 /CapHeight 698 /Descent -210 /Flags 32 /FontBBox [ -169 -250 1000 935 ] /FontName /MHPENG+Frutiger-Roman /ItalicAngle 0 /StemV 94 /XHeight 510 /CharSet (/l/b/C/w/N/o/quotesingle/c/R/D/comma/y/T/x/p/e/S/z/d/q/F/f/hyphen/I/five\ /a/E/r/space/h/period/g/s/i/W/A/parenleft/t/zero/j/parenright/n/M/u/one/\ k/O/nine/B/v/m) /FontFile3 151 0 R >> endobj 139 0 obj << /Type /Font /Subtype /Type1 /FirstChar 32 /LastChar 181 /Widths [ 278 389 556 556 556 1000 722 278 333 333 556 600 278 333 278 278 556 556 556 556 556 556 556 556 556 556 278 278 600 600 600 500 800 722 611 611 722 556 500 722 722 278 389 667 500 944 722 778 556 778 611 500 556 722 667 1000 667 667 556 333 278 333 600 500 278 556 611 444 611 556 389 611 611 278 278 556 278 889 611 611 611 611 389 389 389 611 500 833 500 500 500 333 222 333 600 278 278 278 278 278 278 278 278 278 278 278 278 278 278 278 278 278 278 278 278 278 278 278 278 278 278 278 278 278 278 278 278 278 278 278 556 556 278 278 278 278 278 800 278 278 278 278 278 278 278 600 278 278 278 611 ] /Encoding /WinAnsiEncoding /BaseFont /MHPENG+Frutiger-Roman /FontDescriptor 138 0 R >> endobj 140 0 obj [ /ICCBased 153 0 R ] endobj 141 0 obj << /Length 2211 /Filter /FlateDecode >> stream © 2009–2021 Modulo Software Inc. All Rights Reserved, Snow Drift Load (Obstruction) — (Fig. Permissible snow load: USA. G-8). Specifically, they recommended that the size (cross-sectional area) of the drift surcharge be a function of the ground snow load and the upwind fetch (as is currently), as well as a winter wind parameter. 3. If the drift is due to an adjacent structure or terrain within 20 ft of the roof, multiply the drift load by the factor: 20 s 20 where s is the spacing in feet. Last, calculate the snow drift surcharge load: To find the maximum surcharge load, multiply the drift height by the snow density: \({p}_{d} = {h}_{d}{γ}\) In our case, \({p}_{d} = (2.1 ft)*(17.9 pcf)\) \({p}_{d} = 37.6 psf\) The maximum snow drift surcharge load is then superimposed on the balanced snow load: \({p}_{max} = {p}_{d}+{p}_{s}\) Snow load shape coefficients for exceptional snow drifts 33 ANNEX C 38 European Ground Snow Load Maps 38 ANNEX D 53 Adjustment of the ground snow load according to return period 53 ANNEX E 55 Bulk weight density of snow 55 Bibliography 56 3 . Specified Snow Load [4.1.6.2] S = … Therefore, the ratio of roof live and dead and snow and dead are the same as the basic loads we used to Superpose the drift load on the base snow load. ���TX%��|����v���Uy9y��~���:���h�S��!͒4���r��4z�/K?�8h�|�ڝ-GO����O��e�;�. Figure 1. It is determined based . This drift Building Component. The phenomenon is of the same nature as that illustrated for multilevel roofs in … The numbers of the selected nodes create the envelope. snow load by the appropriate snow load shape coefficient (see section 5.3 of BS EN 1991-1-3 and Annex B of BS EN1991-1-3). Wind Drift Load Combinations. Roof snow load is defined as the weight of snow on the roof surface used in design of the building structure (IBC, 2012). Steel. 5. Building Component. 132 0 obj << /Linearized 1 /O 134 /H [ 1028 464 ] /L 1049783 /E 440548 /N 4 /T 1047024 >> endobj xref 132 29 0000000016 00000 n 0000000931 00000 n 0000001492 00000 n 0000001650 00000 n 0000001899 00000 n 0000002178 00000 n 0000002969 00000 n 0000003375 00000 n 0000004171 00000 n 0000004212 00000 n 0000006499 00000 n 0000007294 00000 n 0000007587 00000 n 0000007659 00000 n 0000007984 00000 n 0000008782 00000 n 0000009073 00000 n 0000009870 00000 n 0000011401 00000 n 0000013606 00000 n 0000016811 00000 n 0000017709 00000 n 0000020387 00000 n 0000022036 00000 n 0000023190 00000 n 0000336651 00000 n 0000440317 00000 n 0000001028 00000 n 0000001470 00000 n trailer << /Size 161 /Info 131 0 R /Root 133 0 R /Prev 1047013 /ID[<1fce3776266b23923ad6c9f6bf942585><1fce3776266b23923ad6c9f6bf942585>] >> startxref 0 %%EOF 133 0 obj << /Type /Catalog /Pages 130 0 R /PageLabels 129 0 R /Outlines 127 0 R >> endobj 159 0 obj << /S 160 /O 377 /L 393 /Filter /FlateDecode /Length 160 0 R >> stream Chart of the National Building Code of Canada 1960 showing snow load on the ground. Parapets on Upper Roof May be Used to Reduce Step Loads– The effect of a parapet on the upper roof is to provide a location for trapping some of the drifting snow on the upper roof. Concerning snow drifting, O’Rourke and Cocca (2018) developed parameters to quantify the influence of wind. Some Properties of Snow Plan view of 3-D parapet wall corner drift . See Section 7.9, ASCE 7. Section Strength Bolted Connection Lag … The characteristic value of sk snow load on a horizontal terrain is given in the national annexes to Eurocode 1 part 1-3. n. Importance, occupancy, and use of the building . This represents the calculated center of … To define the virtual load cases for analyzing roof drift: 1. 2. Primary Structure - Fig 4.1.7-6 A Walls - Fig 4.1.7.6-B. Parameters for calculating drifted snow load on obstructions and projections above roof. Roof Snow Load Snow Drift Load (Step) Snow Drift Load (Obstruction) Wind. Section Column—Axial Compression Web Crippling / Stiffener Steel Column Baseplate. 4. The above load combinations are based on ASCE7-10 and UBC-97. 2. Dist. O’Rourke’s (2010) book, Snow Loads: Guide to the Snow Load Provisions of ASCE 7-10, is necessary in order to fully understand and advance the topic of leeward drift reduction due to a parapet. The Snow/Wind Load dialog has conditions for which snow/wind loads are generated: Envelope - Defines those structure elements for which snow and wind loads will be generated. Min dist where (Cw = 1.0) = 10*h' = 7.333 m, Obstruction effect limit = 3 Ss / γ = 1 m. By using Jabacus or information derived from this Service, you have agreed to the Terms of Service. In this area high uniform loads as well as high drift loads occur. Select Loads – Load Cases. The webinar will provide a detailed review of the current ASCE 7 provisions for snow drift loading as well as expected future improvements. The maximum drift load is. Ground Snow Load, pg: psf: Figure 7-1, pages 84-85 and Table 7-1, page 92: Length of High Roof, Lu: ft. Materials. Length of Roof Downwind of the Snow Drift: Horiz. The Load Cases dialog box will open. �%��l�:�m|�=*���1�u`�8�����A�A��;{� �W�V0�mX�g As sketched in Figure 3 for the leeward roof step geometry, a triangular drift surcharge, placed atop the balanced or flat roof snow load, is prescribed. v~��6``�26��b`V��Rpwu�ɐ�a�Nn��Z���@�"0P(� ����f�W� Originally published February 1972. Snow drift load is in a triangular shape with maxim load pd at edge between upper and lower roof and decrease to zero for a length W. The drift load shall be added to normal roof snow load. Snow drift loads in ASCE 7-10 are a function of ground snow load, P g, and upwind fetch distance, l u. This case is used to calculate the snow load drift on obstructions above the roof level such as parapet walls, firewalls, chimneys, etc. ... presence of parapet, valley or higher construction, ...) and distributed in multiplying by the cosine of the angle of the roof. Figure 6. Click the Virtual Workoption button. The peak drift height, h … 3. Seismic. 260plf combined uniform load = 140plf, or 54% of 260, snow (S) load portion and 120plf, or 46% of 260, dead load portion; 650lbs combined point load = 350lbs, or 54% of 650, snow (S) load portion and 300lbs, or 46% of 650, dead load portion. snow-load-induced failure is reduced to an acceptably low level. This information must be read or used in conjunction with Part 4 and the Structural Commentaries of the NBCC 2005. Wind drift can be check as per load combinations specified in the ASCE7-10 commentary (CC-3) as: 1.0D + 0.5L + 0.7W. The drift on the upwind side of rooftop units (RTUs) is a windward drift as it is for parapet walls. 11 ... Current ASCE 7 drift function of fetch and ground snow load Physics based simulation suggests that Click [Add]and the Virtual Load Case Story Forces dialog box will open. G-8) Wind. G-5) Snow Drift Load (Obstruction) — (Fig. It is the building designer's responsibility to supply snow drift loading information. Fig I-7 Fig I-8 Fig I-23. To allow for this, we recommend that the drift load be considered to taper from the peak value to the uniform roof load on a 5:1 slope. Roofs which are sheltered by other buildings, vegetation, etc, may collect more snow load than the ground level. Type VXin the Label edit box. Figure 1, taken from the National Building Code 1960, shows the variations across Canada of snow loads on the ground. "toe" of the drift. Height of parapet, h p: m Lower Roof geometry. level roofs, the accumulated drift load may reach a multiple of the ground load. P.A. H��W�r�H��!�v�Ԓ@zt���i�m���{ Concerning snow drifting, O’Rourke and Cocca (2018) developed parameters to quantify the influence of wind. Windward snow drifts are an important consideration for many roof geometrics, including roof steps, parapet walls, and various roof projections. Leave the Dir. … Select Mode – Analysis – Load Cases. Seismic. In the event of discrepancies, Part 4 and the Structural Commentaries of the NBCC 2005 shall govern. Leave the X and Y coordinates at the default. The IBC code has also a recommended load and load combinations, grab your copy here. 1. Schaerer. on multiple factors, including: n. Ground snow load value. Snow density is. from Eave to Ridge, W: ft. Horizontal Distance from Eave to Ridge: Type of Roof If you live in the US, our snow load calculator compares the total weight on your roof with the permissible load calculated according to the standards issued by the American Society of Civil Engineers regarding the Minimum Design Loads for Buildings and Other Structures (ASCE7-16). Timber. Control of Snow Drifting about Buildings. Angle set to 0. Drift width w = 15.23 ft Surcharge load: pd = g*hd = 73.1 psf Windward Snow Drifts - Against walls, parapets, etc more than 15' long Building roof length lu = 170.0 ft Projection height h = 10.0 ft Snow density γ = 19.2 pcf Balanced snow height hb = 1.40 ft hc = 8.60 ft hc/hb >0.2 = … All buildings should be designed for uniform snow load as there will always be an element of distributed snow, even if some drifting occurs. Brussels, 18-20 February 2008 – Dissemination of information workshop 2 EUROCODES Background and Applications Scope of the presentation Description of EN 1991-1-3 Eurocode 1: Part 1-3: Snow Loads Background research for snow maps for Europe, Accidental (exceptional) loads, Shape Coefficients, H�b``c``aa`f`x��A��X�X8R Current code provisions for windward roof snow drifts are based upon a database wherein the larger windward drifts were difficult to … %PDF-1.3 %���� Having calculated the uniform snow load, designers should consider whether there is a risk of snow drift due to the presence of parapets or other The current provisions to be covered include windward and leeward roof step drifts, unbalanced drift loads on gable roofs, as well as snow drifting at parapet walls, RTUs, and atop adjacent structures. Specifically, they recommended that the size (cross-sectional area) of the drift surcharge be a function of the ground snow load and the upwind fetch (as is currently), as well as a winter wind parameter. Roof Snow Load Snow Drift Load (Step) — (Fig. Some buildings, especially those with obstructions against which the snow could accumulate such as parapets or walls, should also be designed for snow drift loading. The total snow load is the balanced load of 14 psf plus the drift surcharge of 68.4 psf or 82.4 psf. For the Roof Level Type 100in the Force column (100 can also be used for SI models). Given in the event of discrepancies, Part 4 and the Structural Commentaries of the NBCC 2005 shall.... Cc-3 ) as: 1.0D + 0.5L + 0.7W snow loading • snow drift load ( ). Load of 14 psf plus the drift load on the base snow load on the base load! Occupancy, and use of the NBCC 2005 shall govern Fig 4.1.7-6 a Walls - 4.1.7-6... 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