Your search keyword '"R. Mark Lawson"' showing total 12 results

1. Large-scale experiment of a novel non-domestic building using BPSC systems for energy saving

Author

Jian Fei Chen, Rehan Masood, M.A. Paya-Marin, Krishanu Roy, R. Mark Lawson, James B.P. Lim, and Bhaskar Sen Gupta

Subjects

Thermal efficiency, 060102 archaeology, Renewable Energy, Sustainability and the Environment, business.industry, 020209 energy, 06 humanities and the arts, 02 engineering and technology, Energy consumption, law.invention, law, Ventilation (architecture), 0202 electrical engineering, electronic engineering, information engineering, Retrofitting, Environmental science, 0601 history and archaeology, Electricity, business, Process engineering, Energy (signal processing), Thermal energy, Heat pump

Abstract

The performance of a newly developed back pass non-perforated unglazed solar air collector (BPSC) is investigated in this paper for its thermal efficiency. BPSC is a cost-effective solar panel for new commercial buildings and industrial facades, which can be used as a main building wall or for the retrofitting of old buildings. BPSC provides a preheated air source for heating and ventilation, leading to a reduction in energy consumption. This study investigates the potential energy saving of a large scale non-domestic building that uses the BPSC system to provide pre-heated air for heating and ventilation. For this purpose, two identical buildings were constructed and tested at Kingspan R&D facilities in Kingscourt, Ireland. From the test results, it was found that the back pass solar air collector was able to reduce the heating load of the test buildings by approximately 20%. The most critical factors affecting the collector efficiency are air flow rate, collector height, and solar radiation. To enhance the performance of the BPSC system, it was assisted with a pre-heated air to water heat pump (AWHP) system. Finally, the performance of the BPSC, assisted with AWHP system was also evaluated experimentally, and it was found that an electricity savings of 36%, can be achieved through thermal energy efficiency of BPSC.

Published

2020

2. Optimum use of composite structures for demountable construction

Author

Ana M. Girão Coelho, Eleftherios S. Aggelopoulos, and R. Mark Lawson

Subjects

Materials science, business.industry, Composite number, 0211 other engineering and technologies, Stiffness, 020101 civil engineering, 02 engineering and technology, Building and Construction, Welding, Structural engineering, Span (engineering), Finite element method, 0201 civil engineering, law.invention, Shear (sheet metal), Cable gland, law, 021105 building & construction, Architecture, medicine, Limit state design, medicine.symptom, Safety, Risk, Reliability and Quality, business, Civil and Structural Engineering

Abstract

This paper explores the concept of the optimum span to depth ratio of reusable composite beams with demountable bolted shear connectors so that the beams may be designed most efficiently in terms of their weight and the shear connector distribution along the span. Three patterns of shear connectors were evaluated by a simple pseudo-plastic model and calibrated by finite element modules in terms of their effect on the overall composite beam stiffness in the range of 9 to 15 m span. The optimum span to depth ratio of symmetrical and asymmetrical beams was determined and compared to equivalent beams with welded shear connectors. It was found that the optimum span to depth ratio of uniformly loaded unpropped composite beams with demountable bolted shear connectors may be taken as 22 which allows for a utilisation factor of 0.7 at the ultimate limit state to ensure that plasticity does not occur in the first use cycle. It was found that the effect of asymmetry on the optimum span to depth ratio is small. For propped beams with demountable shear connectors, the optimum span to depth ratio may be increased to 24.

Published

2019

3. Partial shear connection in light steel composite beams

Author

Hogr Taufiq and R. Mark Lawson

Subjects

Materials science, Tension (physics), business.industry, Connection (vector bundle), Metals and Alloys, Base (geometry), 020101 civil engineering, 02 engineering and technology, Building and Construction, Bending, Structural engineering, Span (engineering), Horizontal plane, Composite beams, 0201 civil engineering, Shear (sheet metal), 020303 mechanical engineering & transports, 0203 mechanical engineering, Mechanics of Materials, business, Civil and Structural Engineering

Abstract

A new form of light steel composite beam has been developed that uses C sections acting in tension with shear connectors in the form of screws or bolts or perforations in the web of the C section. The shear and bending resistance is also increased by using side C sections to the beams. Bending tests on point-loaded beams of 0.8, 1.1 and 1.7 m span showed that for the short span beams, the longitudinal shear bond strength of the base C sections is 1.4 N/mm2 for plain C sections and 2.3 N/mm2 for perforated C sections when expressed over the horizontal plane. Plain side C sections added 80% and perforated side Cs added 130% to the load-bearing capacity of the composite beams with base Cs. The theory is extended to cover elastic design taking account of partial shear connection in which the shear stiffness of the perforated web of the C section is approximately 10 N/mm3 (per unit web area) and that of the plain web is approximately 3 N/mm3.

Published

2019

4. Large web openings in steel and composite beams

Author

R. Mark Lawson, Dr.-Ing. Delphine Sonck, and François Hanus

Subjects

Engineering, business.industry, Composite number, 0211 other engineering and technologies, Metals and Alloys, Shear resistance, 020101 civil engineering, 02 engineering and technology, Building and Construction, Structural engineering, Flange, Composite beams, 0201 civil engineering, Shear (sheet metal), Composite construction, Buckling, Mechanics of Materials, Deflection (engineering), 021105 building & construction, Physics::Accelerator Physics, business, Civil and Structural Engineering

Abstract

This paper presents the basis for the design of steel and composite beams with large web openings. The main design requirements are the transfer of shear by Vierendeel bending and the control of web buckling next to and between the openings. Cellular beams with regular circular openings are a common example of highly perforated beams and their flange areas are often highly asymmetric. For these beams, web-post moments may be generated to develop the full shear resistance of the cross-section. Tests on beams with circular, elongated circular and rectangular openings are presented which are used to verify the design methodology. In addition, the openings cause local displacements due to shear and bending, which add to the overall deflection of perforated beams. Simplified formulae are presented to determine the additional deflection relative to the equivalent solid-web beams.

Published

2017

5. Development of a cassette-panel transpired solar collector

Author

Christopher Kendrick, R Mark Lawson, and Richard Hall

Subjects

Cladding (construction), Engineering, General Energy, business.industry, Facade, business, Civil engineering, Renewable energy

Abstract

Transpired solar collectors (TSCs) are an elegantly simple, façade-integrated solar air-heating technology that is widely used to pre-heat the ventilation air supply of buildings. TSCs have historically been manufactured from long profiled pre-finished steel cladding sheets and used on industrial buildings, with which they are aesthetically compatible. Buildings such as offices and multi-storey residential buildings, however, often use flat building façade elements. In order to provide architects with the choice between a profiled or flat TSC absorber, which may be more suitable aesthetically in some circumstances, a novel, flat, cassette-panel TSC (CP-TSC) solar air-heating system has been developed and trialled in situ. Two prototype CP-TSC systems were installed onto an unoccupied 1960s multi-storey residential building at Oxford Brookes University and operated for 95 days during the winter of 2010/2011. The results show that under typical operating conditions, the CP-TSCs heated the ventilation air stream by 10–15°C on clear-skied, winter days, and that this air temperature rise can be predicted by a relatively simple energy balance model.

Published

2014

6. Load capacity of continuous decking based on small-scale tests

Author

R. Mark Lawson and Sunday Popo-Ola

Subjects

Engineering, business.industry, Mechanical Engineering, Composite number, Stiffness, Building and Construction, Structural engineering, Eurocode, Residual, Deck, Deflection (engineering), medicine, Bending moment, Limit state design, medicine.symptom, business, Civil and Structural Engineering

Abstract

A design method for continuous profiled decking based on post-elastic moment re-distribution is presented. This method is based on that permitted in EN 1993-1-3: Eurocode 3, and in this paper, its application to highly stiffened composite deck profiles is explored. The new aspect is the way in which the residual negative bending moment is established at high rotations using a non-linear moment–rotation stiffness relationship. Tests on three modern deck profiles of 80 mm depths are presented. It was found that the degree of redistribution of negative moment can be high, and so the stiffness coefficient used for deflection calculations should also reflect the degree of redistribution of moment that occurs at the serviceability limit state.

Published

2013

7. Application of Modular Construction in High-Rise Buildings

Author

Rory Bergin, Raymond Ogden, and R. Mark Lawson

Subjects

Architectural engineering, Engineering, Visual Arts and Performing Arts, business.industry, Architectural design, Building and Construction, Modular construction, Modular design, Construction engineering, Architecture, Sustainability, business, Civil and Structural Engineering, High rise

Abstract

Modular construction is widely used in Europe for multi-story residential buildings. A review of modular technologies is presented, which shows how the basic cellular approach in modular construction may be applied to a wide range of building forms and heights. Case studies on 12-, 17-, and 25-story modular buildings give design and constructional information for these relatively tall buildings. The case studies also show how the structural action of modular systems affects the architectural design concept of the building. The combination of modules with steel or concrete frames increases the range of design opportunities, particularly for mixed-use commercial and residential buildings. An overview of the sustainability benefits and economics of modular construction is presented based on these case studies. © 2012 American Society of Civil Engineers.

Published

2012

8. Simplified elasto-plastic analysis of composite beams and cellular beams to Eurocode 4

Author

R. Mark Lawson and A.H. Anthony Saverirajan

Subjects

Materials science, business.industry, Composite number, Metals and Alloys, Building and Construction, Slip (materials science), Eurocode, Structural engineering, Flange, Strain hardening exponent, Composite beams, Mechanics of Materials, Plastic bending, Composite material, business, Beam (structure), Civil and Structural Engineering

Abstract

The elasto-plastic analysis of composite beams is important when considering the increase in bending resistance of the beam and the end slip between the steel and concrete at higher strains. This paper provides a simplified method of elasto-plastic analysis by considering equilibrium of the composite cross-section as a function of its strain profile. A parabolic–rectangular stress block for concrete is used in this model with a declining concrete strength at strains exceeding 0.0035. The bending resistance of the composite beam is expressed as a function of the bottom flange strain, and is compared to fully plastic design to EN 1994-1-1: Eurocode 4 and the AISC LRFD Code. The effect of various parameters on the development of the plastic bending resistance of composite beams is investigated, such as asymmetry of the section, the steel strength, the influence of propped or un-propped construction, strain hardening in the steel and reducing concrete strength at high strains, interface slip, and the effect of openings in the web of the beams. It was found that a moment of 95% of the plastic bending resistance of a composite beam (0.95 M pl ) is reached at a flange strain of 2 to 4 × yield strain for propped beams and 5 to 10 × yield strain for un-propped beams. When strain hardening in the steel is included in the analysis, bottom flange strains at a moment of 0.95 M pl are reduced by up to 30% relative to the case without strain hardening.

Published

2011

9. Design Considerations For Modular Open Building Systems

Author

Sunday Popo-Ola, R. Mark Lawson, and Raymond Ogden

Subjects

Engineering, business.industry, Geography, Planning and Development, Stability (learning theory), Vertical load, Geodetic datum, Context (language use), Structural engineering, Modular design, Civil engineering, Urban Studies, Prefabrication, Robustness (computer science), Architecture, Horizontal force, business

Abstract

Modular construction is widely used for residential buildings of 4 to 8 storeys. In the context of open building systems, modular construction provides a systemised approach to design in which the benefits of prefabrication are maximised. There is demand to extend this form of construction to more than 12 storeys for residential buildings. This paper presents a review of modular technologies, and describes load tests and analysis on light steel modular walls that are used to justify the use of light steel technology to support higher loads. For taller modular buildings, the effect of installation and geometric inaccuracies must be taken into account and it is proposed that maximum out of verticality of a vertical group of modules is 50mm relative to ground datum. Using these geometric tolerances, the notional horizontal force used to evaluate stability of a group of modules should be taken as a minimum of 1% of the applied vertical load on the modules. Robustness to accidental load effects is important in all high-rise buildings and it is proposed that the tie force in the connections between modules should be taken as not less than 30% of the total vertical load applied to the module in both horizontal directions.

Published

2011

10. Design of stainless steel sections with circular openings in shear

Author

R. Mark Lawson, Asraf Uzzaman, and Antoine Basta

Subjects

Austenite, Materials science, business.industry, C sections, TN, Metals and Alloys, Shear resistance, Building and Construction, Structural engineering, TS, Stress (mechanics), Buckling, Mechanics of Materials, TJ, business, Civil and Structural Engineering

Abstract

This paper addresses the design of stainless steel sections with large circular openings subject to shear and bending. A total of nine tests on pairs of C sections using 2 and 3 mm thick stainless steel in austenitic 1.4301 and lean duplex 1.4162 grades was performed. The tests showed that the shear resistance at an opening is controlled by local compression at a radial cross-section at approximately 25° to the vertical. For closely spaced openings, the angle of highest stress increases to about 65° to the vertical. The shear resistance of a Class 4 web is also affected by local buckling around the opening, which is a function of its diameter to steel thickness ratio. An equilibrium model is presented which predicts the normal stress on the radial planes around an opening. A simplified formula for the local buckling strength around circular web openings is also presented, which agrees well with the test results.

Published

2015

11. Effect of serviceability limits on optimal design of steel portal frames

Author

Steven Martin, James B.P. Lim, R. Mark Lawson, Tiku T. Tanyimboh, Wei Sha, Yixiang Xu, and Duoc T. Phan

Subjects

Optimal design, Engineering, Serviceability (structure), business.industry, Eaves, Metals and Alloys, Ranging, Building and Construction, Structural engineering, Rafter, TA, Mechanics of Materials, Deflection (engineering), business, Civil and Structural Engineering, Parametric statistics

Abstract

The design of hot-rolled steel portal frames can be sensitive to serviceability deflection limits. In such cases, in order to reduce frame deflections, practitioners increase the size of the eaves haunch and / or the sizes of the steel sections used for the column and rafter members of the frame. This paper investigates the effect of such deflection limits using a real-coded niching genetic algorithm (RC-NGA) that optimizes frame weight, taking into account both ultimate as well as serviceability limit states. The results show that the proposed GA is efficient and reliable. Two different sets of serviceability deflection limits are then considered: deflection limits recommended by the Steel Construction Institute (SCI), which is based on control of differential deflections, and other deflection limits based on suggestions by industry. Parametric studies are carried out on frames with spans ranging between 15 m to 50 m and column heights between 5 m to 10 m. It is demonstrated that for a 50 m span frame, use of the SCI recommended deflection limits can lead to frame weights that are around twice as heavy as compared to designs without these limits.

Published

2013

12. Fire Safe Design of Composite Deck Slabs

Author

Henri Blaffart and R. Mark Lawson

Subjects

Fire test, Engineering, business.industry, Composite number, Forensic engineering, Limit state design, Building and Construction, Eurocode, Structural engineering, business, Civil and Structural Engineering, Deck

Abstract

This paper reviews the design criteria for composite slabs at the fire limit state in accordance with Eurocode 4 Part 1.2 and with other modern Codes. A review of fire test data is presented and an assessment is made of the requirements of EC 4 Part 1.2 relative to these tests. Simplified fire design tables are presented.

Published

1996