It engages, enlightens, and empowers structural engineers through interesting, informative, and inspirational content. Additionally, effective wind speed maps are provided for the State of Hawaii. The changes recently adopted for use in ASCE 7-16 will be a prominent part of the material. The ASCE 7-16 classification types are Open buildings, Partially Open, Partially Enclosed, and Enclosed buildings. Other permissible wind design options which do not reflect updated wind loads in accordance with ASCE 7-16 include ICC-600 and AISI S230. WIND LOADING ANALYSIS - MWFRS and Components/Cladding. Component and cladding (C&C) roof pressures changed significantly in ASCE 7-16, Minimum Design Loads and Associated Criteria for Buildings and Other Structures. The process to calculate wind load in the provisions of the American Society of Civil Engineers Standard (ASCE 7-16, 2016), the National Building Code of Canada [42], the Australian/New Zealand . We now follow the steps outlined in Table 30.3-1 to perform the C&C Calculations per Chapter 30 Part 1: Step 1:We already determined the risk category is III, Step 3: Determine Wind Load Parameters Kd = 0.85 (Per Table 26.6-1 for C&C) Kzt = 1 (There are no topographic features) Ke = 1 (Job site is at sea level) GCpi = +/-0.18 (Tabel 26.13-1 for enclosed building), Step 4: Determine Velocity pressure exposure coefficient zg = 900 ft [274.32] (Table 26.11-1 for Exposure C) Alpha = 9.5 (Table 26.11-1 for Exposure C) Kh = 2.01*(40 ft / 900 ft)^(2/9.5) = 1.044, Step 5: Determine velocity pressure qz = 0.00256*Kh*Kzt*Kd*Ke*V^2 = 0.00256*(1.044)*(1)*(0.85)*(1.0)*(150^2) = 51.1psf. Abstract. However, the roof still needs to be designed appropriately assuming the solar panels are removed or not present. ASCE/SEI 7-10 made the jump from using nominal wind speeds intended for the Allowable Stress Design (ASD) method to ultimate wind speeds intended for the Load and Resistance Factor Design (LRFD) method. Implementation, River Restoration with Large Wood - Detailed Design and Construction, Roadway Construction Inspection Techniques to Minimize Life-Cycle Costs, Roadway Construction Quality Control and Inspection Techniques for Asphalt Surfaced Pavements, Roadway Construction Quality Control and Inspection Techniques for Concrete Surfaced Pavements, Roller-Compacted Concrete Pavements - Applications and Guidance, School Zones - A Comprehensive Look at Signs, Markings ,and Safety Programs, Scope Creep: Focus on Prevention and Improve Project Performance, Sediment Characteristics, Sources, and Movement, Seismic Assessment and Design of Water and Sewer Pipelines, Seismic Assessment and Strengthening of Buildings and Structures in Areas of Low to Moderate Seismicity, Seismic Design of Steel Horizontal, Saddle-Support Tanks, Seismic Evaluation and Retrofit of Existing Buildings: An Overview of Changes to the New ASCE 41-13, Seismic Evaluation of Existing Buildings Using ASCE 41-13 Tier 2 and Tier 3 Procedures, Seismic Screening of Buildings Using ASCE 41-13, Selected Topics Regarding Geosynthetic Clay Liners, Setting and Achieving Personal and Organization Goals, Ship/Tow Simulation of Navigation Design Studies: Interpreting U.S. Army Corps of Engineers Requirements, Significant Changes to Tensile Membrane Structures, ASCE 55-16, Significant Changes to the General Requirements for Determining Windloads of ASCE 7-10, Significant Changes to the Wind Load Design Procedures of ASCE 7-10, Significant Changes to the Wind Load Provisions of ASCE 7-10 and Coordination with the 2015 IBC and 2015 IRC, Significant Changes to the Wind Load Provisions of ASCE 7-16, S-N Curves for Metal Fatigue, Best Practices, Origins, and Limitations, Snow and Rain Loads in ASCE 7-16: What's New and Different, Snow Loading for Non-Standard Roof Shapes, Soil Improvement Technical Committee Presentation on Soil Improvement, Soil Liquefaction Risk Mitigation Using Earthquake Drains and Other Drainage Techniques, Solving Problems and Pursuing Opportunities, Speaking - How to Prepare and Deliver a Convincing Presentation, Steel Structures On-Demand Webinar Package, Stormwater Infiltration Basin Design - Design Considerations and Example Projects, Stormwater Management On-Demand Webinar Package, Stream Restoration - In-Channel Structure Design and Placement, Stream Restoration - Proper Channel Sizing and the Significance for Future Channel Stability, Stream Restoration and Bioengineered Bank Stabilization - Fundamental Concepts, Stream Restoration Bioengineered Retaining Walls for Riverbank Stabilization, Stream Restoration On-Demand Webinar Package, Stream Restoration: What Works and What Doesn't Work, Structural Building Condition Surveys: Looking for Trouble, Structural Considerations for Building Additions, Structural Design of Steel Stairs and Rails, Structural Supports for Rooftop-Mounted Equipment, Structural Testing of Curtain Wall Systems, Structural Thermal Bridging in the Building Envelope, Supporting Suspended Loads from Building Structural Elements, Sustainable Geotechnical Applications: Coal Combustion Products Part II of VI, Sustainable Geotechnical Applications: Construction Using Recycled Materials Part I of VI, Sustainable Geotechnical Applications: Foundry Byproducts Part IV of VI, Sustainable Geotechnical Applications On-Demand Webinar Package, Sustainable Geotechnical Applications: Recycled Base Aggregates in Pavement Applications Part III of VI, Sustainable Geotechnical Applications: Sustainability & Life Cycle Analysis of Recycled Materials - Part VI of VI, Sustainable Geotechnical Applications: Tire Derived Aggregate in Geotechnical and Environmental Applications- Part V of VI, Sustainable Infrastructure Using Envision to Plan, Design and Rate Infrastructure Projects, Sustainable Sediment Management for Navigation Projects, Target Zero Injuries - Developing a Comprehensive Safety Program for Engineers and Constructors, The First Three Rules of Construction - Document, Document, Document, The Five Habits of Highly Effective Marketers, The Five Most Common Errors Made During Bridge Inspections, The Impact of Design, Construction and Maintenance Features on the Long-Term Performance of Pavements, The Importance of Floodplain Design in Stream Restoration, River Stablization and Flood Damage Mitigation Projects, The Integration of Computational Fluid Dynamics (CFD) Modeling Tools in Water Treatment Plant Design, The Measurement of Soil Suction in the Field for Geotechnical Engineering Applications, The Pricing of Delay Costs for Construction Projects, The Road Safety and Signage Audit - Proactive Roadway Safety in the 21st Century, The Role of the Specialty Engineer (From the Wood Truss Industry's Perspective), The Seismic Coefficient Method for Slope and Retaining Wall Design, Thin Pavement Surface Treatments to Improve Friction and Reduction Moisture Infiltration, Tornado Design Using ASCE 7-16 Commentary, Traffic Studies for Implementing Short-Term and Long-Range Roadway Improvements, Traffic Volume Data Collection: A Practical Guide, Transforming Urban Water Management - A New Strategy Explored, Transit Signal Preemption and Priority Treatments, Transportation Infrastructure Considerations for Super Heavy Load Moves, Troubleshooting Unsteady Flow HEC-RAS Models, Underground Construction Engineering Technical Committee Presentation on Recent Advancements in Underground Engineering and Construction, Underpinning and Strengthening of Foundations, Understanding HEC-RAS Errors, Warnings and Notes, Upcoming Revisions ASTME 1527 Standard Practice for Environmental Sites Assessment, Use of Geosynthetics for Waterproofing Critical Hydraulic Structures, Using HEC-RAS 5.0 for a Coupled 1D/2D Analysis, Using HEC-RAS 5.0 for Two Dimensional Hydraulic Analyses, Using HEC-RAS 5.0.7 for Two Dimensional Hydraulic Analyses, Using Nonlinear Analysis and Fiber Wrap Material for Efficient Seismic Retrofit, Using Technology to Mitigate Wet Weather Overflows and Reduce Infiltration and Inflow (I/I), Utilizing Drones to Improve Bridge Inspection Results, Verification of Computer Calculations by Approximate Methods, Vibration of Concrete Floors - Evaluation, Acceptance and Control, Visualizing Information for First Responders, Waste and By-Product Use in Road Construction, Water Balance Modeling for Alternative Covers, Whole Building Lifecycle Assessment: Quantifying Impacts of Construction Materials, Wind Design for Components and Cladding Using ASCE 7-16, Wind Design for Non-Residential Wood Structures, Wind Loading: MWFRS and C&C Approach for Non-Rectangular Low-Rise Buildings, Wood Structures On-Demand Webinar Package, Working Smarter - Using Brain Basics to Enhance Individual and Organizational Performance, Writing: How to Engage and Convince Your Readers. Using all of this criteria, we can then determine that the only two methods of Chapter 30 where we meet all criteria are Part 1 and 4 (see chart). Level 2 framing: a. S2.02 grid F/1.7-3.3 - This is a teeter-totter . Table 1. Each of these revisions is intended to improve the safety and reliability of structures while attempting to reduce conservatism as much as possible. STRUCTURE magazine is a registered trademark of the National Council of Structural Engineers Associations (NCSEA). ASCE 7 has multiple methods for calculating wind loads on a Parapet. Users can enter in a site location to get wind speeds and topography factors, enter in building parameters and generate the wind pressures. Further testing is currently underway for open structures, and these results will hopefully be included in future editions of the Standard. Design Example Problem 1b 4. ASCE/SEI 7-16 (4 instead of 3), the net difference is difficult to compare. K FORTIFIED Wind Uplift Design Pressure Calculator (ASCE 7-16) Find a Professional. Hip roofs have several additional configurations that were not available in previous editions of ASCE 7. 2022 American Society of Civil Engineers, Innovative seismic design shaped new airport terminal, Fast Forward: Visualization unveiled for unbuilt Frank Lloyd Wright tower, From the Field: Immersive identity shapes design of Meow Wolf Denver, Bidirectional energy hub successfully demonstrated in Tennessee, AEI International Student Design Competition 2023, 2022 GI Web Conference 2022: Earthquake Engineering and Soil Dynamics Technical Committee - Seismic Hazard Evaluation for the Western, Central, and Eastern US, 2022 GI Web Conference: A Quick Look into Some of the Latest in Grouting Research, Design and Practice, 2022 GI Web Conference: Earthquake Engineering and Soil Dynamics Technical Committee - Soil-Structure Interaction, 2022 GI Web Conference: Embankments, Dams, and Slopes Case Histories, 2022 GI Web Conference: Embankments, Dams, and Slopes Technical Committee - Extreme Events on Geotechnical Infrastructure, 2022 GI Web Conference: Geoenvironmental Engineering Technical Committee - Subsidence Risk Mitigation in a Low-level Radioactive Waste (LLW) Landfill Final Cover: A Case History, 2022 GI Web Conference: Geology and Site Characterization Technical Committee - Bioinspired Geotechnics, 2022 GI Web Conference: Soil Improvement Committee - Case Histories in Soil Improvement for Civil Infrastructure, 2022 GI Web Conference: Sustainability in Geotechnical Engineering Technical Committee - Novel Approaches Toward Sustainable Geotechnical Engineering, 2022 GI Web Conference: Unsaturated Soils Technical Committee - Unsaturated Soils in a Changing Climate, A Data Base and Recommendation on 400 Failed MSE Walls with Geosynthetic Reinforcement, Access Management On-Demand Webinar Package, Alternative Designs for Anchorage to Concrete, An Introduction to Traffic Signal Operations, Bridge Scour, Part 2: Understanding HEC-18 and General Guidance on Scour Analysis, Case Studies in Sustainable and Resilient Structural Engineering, Mechanics, and Materials (SR-SEMM), Case Study: A Fresh Look at the Citicorp Engineering Ethics Dilemma, Certification Guidelines for Stormwater Manufactured Treatment Devices, Culvert Design for Fish Passage - Concepts and Fundaments, Culvert Design for Fish Passage - Concepts and Fundaments-1, Culvert Modeling Using HEC-RAS in 1-D: Part 1, Building the Model, Design Modern Roundabouts - How to Handle Drainage and Grading, Design of Thrust Restraint for Pressure Pipes, Designing Nonbuilding Structures Using ASCE/SEI 7-16, Evaluation of Building Structural Stability - A Qualitative Approach, Evolutionary Optimization for Hybrid System of Post-Tensioned Cross-Laminated Timber and Light-Frame Wood Shear Walls in Mid-Rise Buildings, Fiber-Reinforced Polymer Composites for Civil and Environmental Engineers, Flexible Pavement Evaluation for Effective Decision Making, Geothermal Energy: A Renewable and Sustainable Source to Heat and Cool the Building Envelope, Geothermal Energy: A Renewable and Sustainable Source to Heat and Cool the Buildings Envelope, How & Why to Use ASCE 7-22 in Your Practice, International Perspectives on Water Resources and the Environment - Part 1, International Perspectives on Water Resources and the Environment - Part 2, Introduction of Geotechnical Grouting, Rock Mechanics, and Unsaturated Soil Mechanics On-Demand Webinar Package, Kendeda Building Part 1 - The Living Building Challenge, Kendeda Building Part 2 - Reuse and Red List, Kendeda Building Part 3 - Water and Landscape Architecture, Navigation Engineering On-Demand Webinar Package, People-Centric AI for Resilient, Sustainable, Safe and Healthy Built Environments, Performance Based Seismic Design of Structural Buildings, Permeable Pavements On-Demand Webinar Package, PFAS Contamination Translating Research to Practice, Prepare to Engineer Tomorrow, Starting Today with Responsible Innovation, Principled-Based Ethics: Character-Builder or Career-Ender, Refined Analysis to Support Bridge Management, SEI Standards Series: ASCE 7-22 On-Demand Webinar Package, Seismic Screening, Risk and Assessment of Buildings On-Demand Webinar Package, Significant Changes 7-22 On-Demand Webinar Package, Significant Changes to the Wind Load Provisions of ASCE 7-22 Part 2, Significant Changes to the Wind Load Provisions of ASCE 7-22 Part 3, Soils and Soil Mechanics - Nuances of Borehole and Sample Logging, Sustainability Series Part 1: Carbon Reduction and Renewable Energy, Sustainability Studies and Assessments of Ground Modification Works for Civil Infrastructure, Sustainable Geotechnical Applications: Recycled Base Aggregates in Pavement Applications - Part III of VI-1, Sustainable Geotechnical Applications: Sustainability & Life Cycle Analysis of Recycled Materials - Part VI of VI-1, Sustainable Geotechnical Applications: Tire Derived Aggregate in Geotechnical and Environmental Applications- Part V of VI-1, Traffic Signals On-Demand Webinar Package, Tuned Mass Damper Applications to Reduce Wind Induced Vibrations of Tall and Slender Structures, Updating Structural Specifications to Reduce Embodied Carbon, 2015 Special Design Provisions for Wind and Seismic (SDPWS) - Overview, 21st Century Bridge Evaluation: New Technologies and Solutions, A Data Base and Recommendations on 320 Failed MSE Walls with Geosynthetic Reinformenet, A General Overview of ASCE 7-16 Changes to Wind Load Provisions, A Rational Approach to Structural and Seismic Issues Related to Historic Buildings, Advanced Bridge Hydraulics - Moving beyond 1D, Advanced Topics in the Seismic Design of Non-Building Structures & Non-Structural Components to ASCE 7-10, Advanced Topics in the Seismic Design of Nonbuilding Structures and Nonstructural Components to ASCE 7-16. ASCE 7-16 describes the means for determining design loads including dead, live, soil, flood, tsunami, snow, rain, atmospheric ice, earthquake, wind, and fire, as well as how to assess load combinations. Copyright 2004-document.write(new Date().getFullYear()) | Meca Enterprises LLC, This article provides a Components and Cladding (C&C) example calculation for a typical building structure. (Note: MecaWind makes this adjustment automatically, you just enter the Width and Length and it will check the 1/3 rule). Figure 1. ASCE 7-16 has four wind speed maps, one for each Risk Category and they are also based on the Strength Design method. Using the same information as before we will now calculate the C&C pressures using this method. MWFRS and components and cladding Wind load cases Example - low-rise building - Analytical method Referring back to Table 30.6-2, it indicates in note 5 that when Fig 30.4-1 applies then we must use the adjustment factor Lambda for building height and exposure. Read Article Download. 2 Wind Design Manual Based on 2018 IBC and ASCE/SEI 7-16 OUTLINE 1. As described above, revised roof construction details to accommodate increased roof wind pressures include revised fastener schedules for roof sheathing attachment, revised sheathing thickness requirements, and framing and connection details for overhangs at roof edge zones.. 1: This research was limited to low-slope canopies and only for those attached to buildings with a mean roof height of h < 60 feet. Sketch for loads on the pipe rack for Example 1. The first method applies The zones are shown best in the Commentary Figure C30-1 as shown in Figure 6. Chapter 30 of ASCE 7-16 provides the calculation methods for C&C, but which of the seven (7) parts in this section do we follow? Using Method 1: Simplified Procedure (Section 6.4) Civil Engineering Resources. To do this we first need our mean roof height (h) and roof angle. See ACSE 7-10 for important details not included here. Figure 3. We just have to follow the criteria for each part to determine which part(s) our example will meet. There is interest at the ASCE 7 Wind Load Task Committee in studying ways to make these changes simpler and reduce possible confusion in the application of C&C provisions for the ASCE 7-22 cycle. Step 3: Wind load parameters are the same as earlier. The changes include revised wind speed maps, changes in external pressure coefficients for roof components and cladding and the addition of pressure coefficients to use for roof mounted solar arrays. It also has a dead and live load generator. Program incorporates all roof types and combinations defined in ASCE 7-05 or ASCE 7-10/16, Chapters 27-28. Thus starts the time when practicing engineers learn the new provisions of the Standard and how they apply to their practices. This revision in zone designations was required because the values in zones around the roof in previous editions of the Standard were shown as having the same pressure coefficient, i.e., corners at the eave versus corners at the ridge have been found to have varying pressures. This limitation was removed in ASCE 7-16, and thus the provisions apply to rooftop equipment on buildings of all heights. Example of ASCE 7-10 Risk Category II Basic Wind Speed Map. The component and cladding pressure coefficients, ( GCp ), for roofs on buildings with an h < 60 feet, have been revised significantly in ASCE 7-16. There is a definition of components and cladding in the commentary to ASCE 7-95. . Wind Loads - Components and Cladding Calculator to ASCE 7-16 Easy to use online Wind Loads - Components and Cladding engineering software for American Standards. Because the building is open and has a pitched roof, there . We will first perform the calculations manually, and then show how the same calculations can be performed much easier using the MecaWindsoftware. Experience STRUCTURE magazine at its best! These changes are illustrated in Figure 1. Login. Simpson Strong-Tie Releases New Fastening Systems Catalog Highlighting Robust, Code-Compliant, and Innovative Product Lines, Simpson Strong-Tie Introduces Next-Generation, Easy-to-Install H1A Hurricane Tie Designed for Increased Resiliency and Higher Allowable Loads Using Fewer Fasteners, Holcim US Advances Sustainability Commitment with Expansion of ECOPactLow-Carbon Concrete, Simpson Strong-Tie Introduces Titen HD Heavy-Duty Mechanically Galvanized Screw Anchor, Code Listed for Exterior Environments. The full-scale tests indicated that the turbulence observed in the wind tunnel studies from the 1970s, that many of the current roof pressure coefficients were based on, was too low. Mean . Example of ASCE 7-16 low slope roof component and cladding zoning. Most of the figures for C&C start at 10 sq ft [0.9 sq m] and so for the purpose of this example we will consider an effective area of 10 sq ft for all wall and roof wind zones. Additional edge zones have also been added for gable and hip roofs. This study focused on the non-hurricane areas of the country and used a new procedure that separated the available data by windstorm type and accounted for changes in the site exposure characteristics at the recording anemometers. Analytical procedures provided in Parts 1 through 6, as appropriate, of . The comparison is for 10 different cities in the US with the modifiers for Exposure B taken at 15 feet above grade, location elevation factor, smallest applicable EWA, and reduced wind speeds from new maps applied from ASCE 7-16 as appropriate. Examples of ASCE 7-16 roof wind pressure zones for flat, gable, and hip roofs. The designer may elect to use the loads derived from Chapter 30 or those derived by an alternate method.' We are looking at pressures for all zones on the wall and roof. The tests showed that the corner zones were too small for the high roof pressures that were being measured at these locations on the building. ASCE 7-16 states that the design of trucks and busses shall be per AASHTO LRFD Bridge Design Specifications without the fatigue dynamic load allowance provisions. FORTIFIED Realizes Different Homes have Different Needs . Design wind-uplift loads for roof assemblies typically are determined using ASCE 7-16's Chapter 30-Wind Loads: Components and Cladding. Terms and Conditions of Use Pressure increases vary by zone and roof slope. Expert coverage of ASCE 7-16-compliant, wind-resistant engineering methods for safer, sounder low-rise and standard multi-story buildings Using the hands-on information contained in this comprehensive engineering Page 3/14 March, 04 2023 International Building Code Chapter 16 Part 3. Thank you for your pateience as we make the transition. Step 1: The Risk Category is determined from Table 1.5-1 [1] based on the use or occupancy of the building. Table 2. Design Wind Pressures for Components and Cladding (C&C) . ASCE 7-16 is referenced in the 2018 International Building Code (IBC) for wind loads. Therefore this building is a low rise building. . In addition, this chapter assigns buildings and structures to risk categories that are indicative of their intended use. ), Design of Lateral Load Resisting Systems in Masonry Buildings, Design of Onsite Wastewater Disposal Systems, Design of Restrained Joints for Pressure Pipes, Design of Roof Structures - Avoiding Common Errors, Design of Sanitary Sewer Collection Systems, Design of Slab on Grade for Light Buildings on Shrink Swell Soils, Designing and Implementing Separated Bikeways, Designing Channels for Stream Restoration: Alluvial Channel Design, Designing Channels for Stream Restoration: Threshold Channel Design, Designing for Flood Loads Using ASCE 7 and ASCE 24, Designing Modern Roundabouts - How to Handle Drainage and Grading, Designing Structures for Tsunami Resilience using the New Chapter 6 of ASCE 7-16, Designing Water Balance Covers (ET Covers) for Landfills and Waste Containment, Designing with AWC's National Design Specification (NDS) for Wood Construction 2018 - Overview and Changes from Previous Editions, Determining Appropriate Level of Engineering and Use of 'Soft Engineering' for Stream Restoration Activities, Developing, Implementing, & Managing a Comprehensive Citywide Traffic Signal Coordination Program, Developing Pavement Performance Models for Asset Management Applications, Diagnosis, Repair, and Restoration of Building Facades, Digitization in the Field of Civil Engineering, Disaster Resilience of Infrastructure Systems: Quantification and Economic Valuation for Decision and Policy Making, Discussion on the new ASCE Manual of Practice on Surveying and Geomatics Engineering, Dynamically Loaded Machine and Equipment Foundations - A Design Primer, Earth Retaining Structures Technical Committee Presentation on Earth Retaining Structures, Effective Pavement Management and Its Benefits, Elimination of Deck Expansion Joints on Existing Bridges, Embankments, Dams and Slopes Technical Committee Presentation on Impacts of Extreme Events on Geotechnical Infrastructure, Embankments, Dams and Slopes Technical Committee Presentation on Impacts of Recent Extreme Events, Energy Piles - Background and Geotechnical Engineering Concepts, Engineer Your Own Success: 7 Key Elements to Creating an Extraordinary Engineering Career, Engineering Investigations of Hurricane Damage: Wind versus Water, Engineering Judgment - Structural Renovation of a 100-Year-old Historic Barn, Engineering Judgment: Low-Rise Building Design and Detailing, Engineering Mid-Rise Buildings of Wood Construction, Engineering Practice for Wetting-Induced Collapse of Soils, Engineering the Future: 2020 Code of Ethics, Engineering Treatments and Design Development Strategies for Creating Safe Routes to Schools, Enterprise Asset Management for Infrastructures, Environmental Issues and Mitigation for Low Volume Roads, Erosion Control and Revegetation Metrails; Design, Installation and Performance, Estimating Erosion Rates - Tools for Prioritizing TMDL-Water Quality Improvements, Stream Restoration, and Infrastructure Protection Projects, Estimating Flood Flows Using Regression Methods, Ethical Behavior - The Key to Earning Trust, Ethics in Sustainable Development for Civil and Structural Engineers, Evaluating Damage and Repairing Metal Plate Connected Wood Trusses, Evaluation and Quantifying Inefficiency in Construction: A Case Study Approach, Failure of Molecules, Bones, and the Earth Itself: Nanotechnology and Bioinspired Materials in Civil Engineering, From Engineering to Entrepreneurship: How to Prepare For, Start and Manage Your Own Engineering firm, From Project Engineer to Project Manager Look Before You Leap, Frost-protected Shallow Foundations - Design and Construction, Geophysical Imaging in Support of Geotechnical, Hydrologic and/or Environmental Site Characterization, Geophysical Imaging in Support of Structural and/or Pavement Investigations, Geo-Structural Investigation of Existing Structures, Geosynthetic Applications Accompanying Shale Gas Drilling Operations, Geosynthetic Basal Reinforcement Over Deep Foundations Including Geosynthetic Encased Stone-Sand Columns, Geosynthetic Clay Liners in Waste Containment Applications - Hydraulic and Chemical Compatibility Performance of GCLs in Landfill Liner Systems, Geosynthetic Clay Liners in Waste Containment Applications - Static Shear Strength of GCLs and GCL Interfaces, Geosynthetic Clay Liners in Waste Containment Applications: Hydraulic and Chemical Compatibility, Geosynthetic Reinforced Mechanically Stabilized Earth Walls, Geosynthetic Reinforced Soil Integrated Bridge System, Geosynthetics Used in Unpaved and Paved Roads, Geotextile Tubes for Erosion Control, Dewatering and Decontamination, Glued Laminated and Cross Laminated Timbers: Mass Timber for a New Generation of Wood Construction, Gray Areas of Responsibility in Masonry Design, Guidelines for Inspecting Earth Dams and Associated Outlet Works and Spillways, Highway and Street Safety On-Demand Webinar Package, How Construction Tolerances Affect Structural Design, How to Meet The Federal Traffic Sign Retroflectivity Requirements, How to Plan Projects Effectively - Two Part Series, How to Prepare and Implement a Successful Strategic Plan, Hydraulic Performance of Detention Pond Outlet Structures, Hydraulics 101 - Understanding the Basics, Hydrologic Trespass and Nuisance Considerations in Stormwater Management Design, Hydrology and Hydraulics On-Demand Webinar Package, Implementation of GIS in the Airport Environments, Improving Highway Safety: An Overview of 9 Proven Crash Countermeasures, Innovation in Civil Engineering: Examples and How to Do It, Innovative and Smart Construction: Use of Infrared Thermal Profiling and GPR Pavement Density Scanner, In-Situ Stabilization of Soil Slopes Using Nailed (or Anchored) Geosynthetics, Inspection and Rehabilitation Methodologies for Large Diameter Water Transmission Pipelines, Installation, Design and Performance of Prefabricated Drains, aka PVDs, Installation, Verification and Application of Driven Piles, Integrity Assessment of Deep Foundations: Principles and Limitations, International Building Code Essentials for Wood Construction - Fire Protection Basics for Structural Engineers, International Project Development and Construction Risk, Introduction to 2015 International Existing Building Code, Introduction to Design of Erosion Control Measures Using Riprap, Introduction to Jet Grouting and Its Applications, Introduction to Navigation Channel Design, Introduction to Runoff Analysis Using Unit Hydrographs, Introduction to Solid Waste Transfer Design for Rural Communities, Introduction to the Design of Wood Lateral-Force Resisting Systems in Accordance with 2015 International Building Code, Introduction to the Seismic Design of Nonbuilding Structures to ASCE 7-10, Introduction to the Seismic Design of Nonbuilding Structures to ASCE 7-16, Introduction to Unsaturated Soil Mechanics, Investigation and Repair of Fire-Damaged Framing, Investigation of Winter Roof Failures - Lessons Learned, Landfills and Waste Containment On-Demand Webinar Package, Large Wood Diaphragms in Heavy-Wall Buildings: New Understandings of their Seismic Behavior and Improving Their Performance, Learning from Failures of Wood-Framed Structures, Lessons From Failures of Building Envelope, Lessons Learned from the Design, Construction and Maintenance of Permeable Pavements for Stormwater Management, Life Cycle Assessment for Transportation Facilities, Long-Term Durability (aka, Lifetime) of Geosynthetics, Low-Volume Road Surface Drainage and Drainage Crossing Structures, Managed Lanes: From Planning through Design to Operations, Management and Leadership Skills for Civil Engineers On-Demand Webinar Package, Marketing 101 - Sleazy Activity or Mutually Beneficial, Mass Timber Structural Floor and Roof Design, Mentoring: Guidance for Mentors, Proteges and Organizations, Mitigating Effects of Corrosion and Deterioration in Construction, Mitigating Uncertainty - A Perspective for Engineers, Mitigation of Carbon Emissions from Construction Projects, Modeling Low Impact Development (LID) and Green Infrastructure (GI) using the EPA Stormwater Management Model (SWMM): Continuous Simulation, Modeling Low Impact Development (LID) and Green Infrastructure (GI) using the EPA Stormwater Management Model (SWMM): Event-based Modeling, Modeling Low Impact Development (LID) and Green Infrastructure (GI) using the EPA Stormwater Management Model (SWMM): SWMM Basics, Moment-Resisting Connections in Steel Structures, Navigation Engineering - Challenges of Sustainability and Resilience, Navigation Engineering - Understanding the Basics, Negotiating Better Engineering and Architectural Contracts, New and Emerging Technology for the Construction of Pavements, New ASCE Standard - Design, Construction and Maintenance of Permeable Interlocking Concrete Pavements, Observation Method For Scour - A New Tool for the Bridge Engineer, Pathogens in Urban Stormwater Systems - A Practical Guide for MS4s, Pathogens in Urban Stormwater Systems - Source Controls and Stormwater Control Measures, Pathogens in Urban Stormwater Systems On-Demand Webinar Package, Permeable Pavement - Design Considerations and Tips for Avoiding Failures, Petrographic Analysis of Concrete Deterioration, Pier and Beam Foundation Design for Wind and Flood Loads, Pipeline Condition Assessment Using Broadband Electromagnetic (BEM) Testing, Planning and Design for Stream Rehabilitation with Large Wood, Post-Tensioning Concepts and Practice - Beyond the Basics, Practical Application of Fiber Reinforced Polymer (FRP) in Strengthening Existing Concrete and Masonry Structures, Practical Concrete Repair and Rehabilitation Techniques for Major Concrete Structures Using ACI 546R-14, Practical Design of Bolted and Welded Steel Connections, Practical Design of Multistory Shear Walls, Practical Insights for Diaphragm Modeling in the Analysis of Building Structures, Practical Life-Cycle Analysis for Bridges, Practical Seismic Evaluation of Existing Buildings Using ASCE 41-13 Tier 1 Screening Procedure with a Case Study, Practical Use of Drones for Diverse Infrastructure Projects, Preparing and Implementing Construction Site Storm Water Pollution Prevention Plans, Prevent Accidents and Traffic Delays - The Art of Delivering and Maintaining Successful Signal Timing Improvements, Professional Skills Series in Leadership and Management: Career Development, Professional Skills Series in Leadership and Management: Change & Innovation, Professional Skills Series in Leadership and Management: Communication, Professional Skills Series in Leadership and Management: Leadership, Professional Skills Series in Leadership and Management: Project Management, Project Planning: How to Think Through Before You DO, Project Planning On-Demand Webinar Package, Project Team and People Management - Part I of II, Project Team and People Management - Part II of II, Public Speaking - How to Plan, Design, and Deliver a Presentation, Quality Management during Design and Construction.