Land & Architectural Survey Blog

Category: Construction

  • Construction technology behind Demolition works

    In this blog post I’ll be covering the construction technology aspect of demolition and what to consider when undertaking demolition for your construction project. This is a required competency if you’re on your RICSRICS APC. This would be useful for quantity surveyors and land surveyors.

    Do I need planning permission for demolition?

    Do I need planning permission for demolition?

    Excavator working at the demolition of an old industrial buildin

    Demolition
    Demolition

    In short yes you do need planning permission for demolition work, read more here:

    Planning permission is often required before demolition work can begin in the UK. The Public Health Act 1961 makes it necessary to notify the local authority.

    Before demolition work can start, you need to notify the local authority, especially in the Inner London area, where by-laws require notification to be deposited with the district surveyor.

    In Scotland, a warrant is required from the building authority of the burgh or county where the demolition work is taking place.

    Additionally, you must inform the Health and Safety Executive of the appropriate local authority governing your project in Great Britain.

    Before any building demolition work can begin, the building owner or their agent must notify the public utilities companies, such as gas, electricity, water, and drainage authorities, as well as telecommunications services and other businesses with installations in the building.

    It’s the contractor’s responsibility to ensure all services and installations they’re working on are safe or have been removed by the appropriate authority.

    Building demolition

    What is demolition?

    What is demolition?

    This is a skilled and dangerous operation, so unless the job is very small, it’s best to leave it to a specialist contractor. Demolition can be broken down into two main categories:

    • partial demolition of a structure
    • complete removal of the entire structure.

    Before any demolition or remodeling, you must carefully remove all saleable items such as copper, lead, steel fittings, and many others.

    As a general rule, taking down requires a thorough knowledge of building construction so you can identify and support load-bearing members and walls.

    Partial demolition usually requires manual labor with tools like hammers and picks. These types of operations involve the removal of smaller parts of a building, such as bricks to create new openings or rafters to add dormer windows.

    Preliminary considerations

    SURVEYS

    Before any demolition work is started, a detailed survey and examination should be done on the building or structure and its surroundings.

    Photographs are then taken so that the state of affairs can be considered in the future.

    All existing problems on neighboring properties should be inspected, observed and safely stored in a distinct place.

    The relationship and condition of adjoining properties that may be influenced by the demolition must also be considered and noted, given the existence of easements, wayleaves, party rights and boundary walls.

      The roof and framed structure. Make sure the order of demolition won’t cause unbalanced thrusts to occur during the work.
  • The roof and framed structure. Make sure the order of demolition won’t cause unbalanced thrusts to occur during the work.

    • Inspect all load-bearing walls and then assess their condition and thickness to determine whether they can be demolished or will need to be rebuilt.

    It’s crucial to ensure that these extend beyond public footpaths, as well as past the boundaries of the property.

    • Before construction, get a second opinion on your balconies, heavy cornices and stairs.
    • Services
    • drainage
    • electrical supply;
    • service pipes and gas mains
    • water mains and services pipes;
    • telephone cables, underground and above ground;
    • radio and television relay cables;
    • district heating mains.

    Prior to demolition, you should survey the entire site to ensure hazards are removed. You’ll want to make sure there are no oil drums or gas cylinders laying around. If the building’s construction is unclear, study all available drawings and analyze them carefully. Alternatively, conduct a detailed survey of a building under the guidance of an experienced surveyor.

    INSURANCE

    Insurance companies and underwriters usually regard demolition work as especially hazardous. As a result, the demolition process is typically contracted out. Even minor work such as removal might not be covered under a general contractor\u2019s insurance policy. In other words, where demolition or removals form part of a contract for additional work, builders should make sure that their insurance will cover all issues, including claims from operatives and other parties involved with these aspects of the work. Insurance must also cover any third party risks, such as damage claims to property and business, public utilities, and local authority maintained roads and paving.

    Insurance companies and underwriters usually regard demolition work as especially hazardous. As a result, the demolition process is typically contracted out. Even minor work such as removal might not be covered under a general contractor\u2019s insurance policy. In other words, where demolition or removals form part of a contract for additional work, builders should make sure that their insurance will cover all issues, including claims from operatives and other parties involved with these aspects of the work. Insurance must also cover any third party risks, such as damage claims to property and business, public utilities, and local authority maintained roads and paving.

    your business, public utilities, and roads. We also cover damage to your property, as well

    your business, public utilities, and roads. We also cover damage to your property, as well

    SALVAGING

    Salvage is an old practice of using materials or parts that are no longer needed. They are often resold, though they can also be avoided if they\u2019ll fit well with the new building. This can be a cost benefit towards the project but also avoids sending the waste to land fills. For example, when building an extension to an existing structure, salvaged roof tiles may go unnoticed and blend right in. They are usually cheaper new if they\u2019re not rare due for being discontinued by the manufacturer. Other examples include fireplaces, roofing slates, stairways, London Stock bricks and useful lengths of structural timber.

    Salvage

    Salvage is an old practice of using materials or parts that are no longer needed.

    They are often resold, though they can also be avoided if they’ll fit well with the new building.

    This can be a cost benefit towards the project but also avoids sending the waste to landfills.

    For example, when building an extension to an existing structure, salvaged roof tiles may go unnoticed and blend right in.

    They are usually cheaper new if they’re not rare due for being discontinued by the manufacturer.

    Other examples include fireplaces, roofing slates, stairways, London Stock bricks, and useful lengths of structural timber.

    Buildings and Salvage

    Buildings are designed to last, but over time new ones will be built and older ones will be demolished.

    Because of this, it’s essential for us to re-purpose such old architectural features as salvage.

    Demolition and Salvage

    When quoting for demolition work, contractors will consider the salvage potential.

    They will also consider a balance between the time and costs factors for careful reclamation and resale, against simply demolishing without regard.

    The latter will still require transportation of surplus materials from site, as well as attracting tipping costs at licensed receiver businesses.

    These must be highlighted carefully in the contract as to who owns the salvage of the demolition, as if this is not clear from the tender stage disputes can arise.

    HOARDINGS

    A site survey can help determine whether a location should be designated as historically significant, so that special protection for pre-existing properties, public highways, or other places used by the general population is granted.

    A site survey can help determine whether a location should be designated as historically significant, so that special protection for pre-existing properties, public highways, or other places used by the general population is granted.

    Consultation with the local authority will be required to determine their requirements for temporary works, not least the health and safety aspects. The local authority usually requires a formal application, licensing fees and possibly financial deposits against damages, particularly if the work abuts a public thoroughfare and highway.

    Consultation with the local authority will be required to determine their requirements for temporary works, not least the health and safety aspects. The local authority usually requires a formal application, licensing fees and possibly financial deposits against damages, particularly if the work abuts a public thoroughfare and highway.

    Long blank hoarding with space for advert mockup on construction site

    Hoarding
    Hoarding

    Requirements for site surveys include determining whether a location should be designated as historically significant, so that special protection for pre-existing properties, public highways, or other places used by the general population is granted.

    ASBESTOS SURVEY

    ASBESTOS SURVEY

    In the UK there are many laws and regulations relating to the use, handling, and management of asbestos. This is understandable because inhaling asbestos fibers can result in lung cancer. Much of our existing building material contains large amounts of asbestos. It was introduced for various reasons, including its fire retardant properties and resistance to damage caused by insects.

    In the UK there are many laws and regulations relating to the use, handling, and management of asbestos. This is understandable because inhaling asbestos fibers can result in lung cancer. Much of our existing building material contains large amounts of asbestos. It was introduced for various reasons, including its fire retardant properties and resistance to damage caused by insects.

    Asbestos was often sprayed onto the steelwork of buildings to protect them from fire, used as a pipe insulation and in board form as a cladding or lining. This is why before making alterations or demolishing any buildings, it’s essential that an asbestos appraisal is done. The major legislation includes:

    Asbestos was often sprayed onto the steelwork of buildings to protect them from fire, used as a pipe insulation and in board form as a cladding or lining. This is why before making alterations or demolishing any buildings, it’s essential that an asbestos appraisal is done. The major legislation includes:

    The Asbestos (Licensing) Regulations of 1983 require a license to be held by an employer who carries out work on sprayed finishes that contain asbestos and where asbestos insulating board is used.

    The Asbestos (Licensing) Regulations of 1983 require a license to be held by an employer who carries out work on sprayed finishes that contain asbestos and where asbestos insulating board is used.

    • The Control of Asbestos at Work Regulations 2002. These relate to all work with asbestos, and affect anyone liable to exposure. The regulations provide a specific requirement for the identification and management of any asbestos products in non-domestic buildings when maintenance is required. This means they must document any up-to-date specialist surveys that were carried out, their location, condition and assessment of their risk of exposure.

      • Control of Asbestos at Work Regulations 2002

      These regulations relate to all work with asbestos and affect anyone liable to exposure.

      The regulations provide a specific requirement for the identification and management of any asbestos products in non-domestic buildings when maintenance is required.

    • See also the Health and Safety Executive (HSE) publications Methods for the Determination of Hazardous Substances (MDHS 100); Surveying, sampling and assessment of asbestos containing materials – 2001.

      • If you’re selling your home or considering renovations, an asbestos survey is a must-have.

    • There are a few types of asbestos surveys:

      • Presumptive Survey

      A method of identifying asbestos products in a space is by conducting a presumptive survey, which typically involves inspecting the building for materials that might contain asbestos.

      This type of evaluation is mainly used by building owners and facility managers, who take responsibility for ensuring that the asbestos material does not pose any harm to building occupants.

      Sampling Survey

      It can be difficult to identify the type of asbestos when there’s a potential for it being present.

      A sampling survey is usually given before a presumptive survey in order to positively identify the substance, depending on where your material has been exposed.

      Asbestos is a mineral that has been linked to a number of serious health problems, including mesothelioma. Some types of asbestos, such as chrysotile, have been banned under the Asbestos (Prohibition) Regulations 1999.

      Asbestos is a mineral that has been linked to a number of serious health problems, including mesothelioma. Some types of asbestos, such as chrysotile, have been banned under the Asbestos (Prohibition) Regulations 1999.

      • Sampling and identification survey: The assessment of samples and identification surveys This type of survey is a prerequisite before any demolition and refurbishment work can commence. It can serve as the basis for specialist contractors to tender for asbestos removal.

      Sampling and identification survey: The assessment of samples and identification surveys This type of survey is a prerequisite before any demolition and refurbishment work can commence. It can serve as the basis for specialist contractors to tender for asbestos removal.

      The Personal Protective Equipment Regulations 1992 and the Control of Substances Hazardous to Health Regulations 2002 require employers to take necessary steps to protect their employees. For asbestos surveys and removals, one of these steps might be limiting your breathing through a respirator.

      The Personal Protective Equipment Regulations 1992 and the Control of Substances Hazardous to Health Regulations 2002 require employers to take necessary steps to protect their employees. For asbestos surveys and removals, one of these steps might be limiting your breathing through a respirator.

      Stamp with finger on plan of house background.

      Planning permission for demolition

      Planning permission for demolition

      FURTHER PLANNING AND RISK CONSIDERATIONS

        The method of construction, including design, health and safety requirements and the structural integrity of components.
    • The method of construction, including design, health and safety requirements and the structural integrity of components.

      • Our asbestos assessment results in a diagram for wet or dry removal, with an explanation of the various materials used (with strengths and weaknesses), their hazards as health or safety risks which are relevant to your work activity (see subsection on Asbestos Survey), and material reuse possibilities (see subsection on Salvaging).

    • Occasionally, facades are retained as part of a preservation order: therefore, temporary supports may be required (see Chapter 5.1 on shoring).
    • Find a way to isolate the effects of demolition, like preventing dust and debris from spilling onto people and buildings. Protection would include things like putting down a dust sheet or using a tarp to cover the area.
    • Exposure of hazardous materials. Along with building materials and previous occupancy, contamination from iffy soil can happen. Consider taking soil samples to your lab for an analysis.
    • Move as much of the existing infrastructure as possible to the new site. Ensures that all utilities are addressed and provides notice for any exclusions.
    • Regulations from local planning authority and Health and Safety Executive. Check restricted hours of work, noise levels, and dust levels as well.
    • Debris Disposal – Most debris generated in construction projects will need to be disposed of properly. We’ll discuss different methods to do this, such as rubble chutes and skips.

      • METHODS OF DEMOLITION

      METHODS OF DEMOLITION

      When choosing how to demolish a structure, various factors come into play. Location, material, and site conditions help determine the most suitable method.

    • Types of Structures: For example, a two-storey framed structure.
    • Type of construction element: example masonry wall, prestressed concrete, or structural steel.
    • Location of buildings For example, a building in an isolated location with a border more than twice the height of the building to be demolished.

      • Every site is unique, and the demolition process should take this into account. The techniques and procedures given below are intended to provide general guidance.

      HAND DEMOLITION

      HAND DEMOLITION

      When demolition is necessary, it’s essential to use the least disruptive method possible. This could involve utilizing hand tools or other items that are hand-held. Evaluate the impact on the surrounding area carefully.

      PUSHER ARM DEMOLITION

      PUSHER ARM DEMOLITION

      This demolition method is advised for buildings with a firm level base.

      This method is only advised to be used on buildings with a firm level base. Make sure you take the appropriate safety precautions when using this machine.

      When an operator encounters a building whose height exceeds 6.0 m, it is better to lower the building by hand. The pusher arm should not be overloaded.

      When an operator encounters a building whose height exceeds 6.0 m, it is better to lower the building by hand. The pusher arm should not be overloaded.

      A qualified operator is required to work from inside of a reinforced vehicle. The vehicle should be able to withstand the impact of flying debris, and have shatterproof glass in their windows. When adopting this method of demolition, the structure being demolished should first be detached from adjoining structures by manual means.

      A qualified operator is required to work from inside of a reinforced vehicle. The vehicle should be able to withstand the impact of flying debris, and have shatterproof glass in their windows. When adopting this method of demolition, the structure being demolished should first be detached from adjoining structures by manual means.

      DELIBERATE COLLAPSE DEMOLITION

      DELIBERATE COLLAPSE DEMOLITION

      This method involves the complete collapse of a building, which will then be removed by experts.

      This method is the complete collapse of a building, which will then be removed by experts. Expert engineering advice should be sought before this technique is used on buildings with other buildings or very steep sites.

      DEMOLITION BALL TECHNIQUES

      DEMOLITION BALL TECHNIQUES

      Demolition ball techniques involve a crew of workers driving a demolition ball into the building from one side.

      To demolish a structure, a crew of workers drives a demolition ball into the building from one side. In some cases, this can be done by swinging it from above using a crane-type appliance. Workers can use three different techniques to do this:

      • vertical drop;
      • vertical drop;
      • swinging in line with the jib;
      • swinging in line with the jib;
      • slewing jib.

        • slewing jib.

        Whenever possible, a skilled operator is essential.

        A wrecking ball can only be used for a vertical drop technique when it comes to the use of a normal-duty mobile crane. Any other techniques need to use heavy duty machines such as convertible dragline excavators. And an anti-spin device should be attached to the hoist rope in all cases. It is advisable to reduce the length of the crane jib as the process goes on, but it’s never okay for the jib head to dip below 3 metres at any point in time.

        Pitched roofs need to be removed by hand down to the wall plate level. This means at least 50-70% of the interior needs to be cleared. Next, demolition should proceed floor by floor, starting with the lowest one.

        Do not use any demolition ball techniques on buildings over 30,000 meters, because the fall of debris is uncontrollable, and you won’t have enough space if you do. You should always separate attached buildings by hand to leave a space around the perimeter of the building. This space needs to be at least 6,000 meters, or half the height of the building; whichever one is greater.

        Do not use any demolition ball techniques on buildings over 30,000 meters, because the fall of debris is uncontrollable, and you won’t have enough space if you do. You should always separate attached buildings by hand to leave a space around the perimeter of the building. This space needs to be at least 6,000 meters, or half the height of the building; whichever one is greater.

        WIRE ROPE PULLING DEMOLITION

        The size and circumference of the steel wire ropes should be appropriate for the task at hand, but not less than 38 millimeters. The ends should be firmly attached with a gradual pulling tension to avoid sudden and violent release of their load. No person should be more than 3/4s of the distance from the winch to either side of the rope.

        The size and circumference of the steel wire ropes should be appropriate for the task at hand, but not less than 38 millimeters. The ends should be firmly attached with a gradual pulling tension to avoid sudden and violent release of their load. No person should be more than 3/4s of the distance from the winch to either side of the rope.

        If the technique of pulling doesn’t cause the structure to collapse after a few tries, it might be weakened and should not be approached. One way to avoid this is by demolishing it with an alternative means like demolition balls or pushers. Care should be taken to ensure the vehicle or winch you’re using stays grounded – don’t lift off the mountings or wheels!

        If the technique of pulling doesn’t cause the structure to collapse after a few tries, it might be weakened and should not be approached.

        DEMOLITION BY EXPLOSIVES

        This is a specialist method that involves placing explosives within the fabric of the building, then detonating them to cause partial or complete collapse.

        It should never be attempted by a building contractor without the advice and supervision of an expert.

        OTHER METHODS

        If site conditions are not ideal for you to use explosives, then the following specialist methods may be used:

        -Gas expansion burster In a prepared cavity, a steel cylinder filled with liquefied gas is inserted. Once fired, the expansion of the gas causes the fabric to break into large chunks.

        • Hydraulic burster: A steel cylinder with your number of pistons, which are forced out radially under hydraulic pressure.
        • Thermal reaction: the method requires to cut out and remove a steel structural member, a mixture is applied around the member. The mixture is usually ignited by electric current, which results in a large amount of heat that causes the metal to become pliable. This heat causes a small wire rope attached to a winch to be sufficient enough to cause collapse of the element.

          • Thermal Reaction

          The method requires cutting out and removing a steel structural member, applying a mixture around the member. The mixture is usually ignited by electric current, resulting in a large amount of heat that causes the metal to become pliable.

          This heat causes a small wire rope attached to a winch to be sufficient enough to cause collapse of the element.

          • Thermic lance: This method involves a steel tube, sometimes packed with steel rods, through which oxygen is passed. The tip of the lance is heated to around 3,500 °C by preheating it when the supply of oxygen is introduced. It will melt all the materials it encounters and cause very little damage to anything else.

          Thermic Lance

          This method involves a steel tube, sometimes packed with steel rods, through which oxygen is passed. The tip of the lance is heated to around 3,500 °C by preheating it when the supply of oxygen is introduced. It will melt all the materials it encounters and cause very little damage to anything else.

          It’s essential to remember that all demolition works have inherent dangers and risks. Therefore, specialty contractors should be employed to complete those types of tasks.

          Reference:

          Advance Construction Technology 4th edition

      • What is an asbuilt survey?

        In construction, asbuilt surveys are a critical part of the process.

        They provide an accurate record of the completed work, which can be used to verify that the work was completed as specified in the contract documents.

        Asbuilt surveys can also be used to identify any potential problems or discrepancies between the as-built conditions and the contract documents.

        This information can then be used to correct any issues before they become major problems.

        If you’re working on a construction project, it’s essential to understand the importance of an asbuilt survey.

        What is an asbuilt survey?

        An asbuilt survey is a type of land survey that is performed after the construction of a new structure or alteration to an existing one.

        Its purpose is to create an accurate record of the finished project in order to provide a reference for future renovations or additions.

        The asbuilt survey will show the location of all walls, doors, windows, and other features, as well as their dimensions.

        This information can be used to obtain building permits or for other legal purposes.

        What are the benefits of an asbuilt survey?

        Understanding the benefits of an asbuilt survey can help ensure successful construction projects.

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        An asbuilt survey is a highly accurate measurement of a physical space or object.

        Asbuilt surveys are used to record the dimensions and features of existing structures and sites for a variety of purposes, including:

        • to create as-built drawings for construction projects
        • to verify that a structure has been built according to its blueprint
        • to document changes made to a structure during construction or over time
        • to aid in the planning of renovations or demolition projects

        Asbuilt surveys can be conducted with a variety of tools, including laser scanners, GPS devices, and traditional surveying equipment.

        The data collected in an asbuilt survey can be used to create two-dimensional (2D) drawings or three-dimensional (3D) models of the surveyed area.

        Two miniature figures in high-vis uniform with a theodolite survey a house blueprint

        Asbuilt survey
        Asbuilt survey

        How to get an asbuilt survey?

        How to get an asbuilt survey?

        If you need an as-built survey for your project, there are a few things you can do to get one. First, you can contact a surveying company and ask if they offer as-built surveys. Many companies offer this service, so you should be able to find one that can help you.

        Another option is to search for as-built surveys online.

        There are many websites that offer this service, so you should be able to find one that meets your needs.

        Once you find a website that offers as-built surveys, you will need to provide some basic information about your project.

        This includes the location of the project, the size of the project, and the completion date.

        Once you have provided this information, the website will generate a list of potential surveyors who can help you with your project.

        You can then contact these surveyors and request quotes for their services.

        Once you have received quotes from several different surveyors, you can compare them and choose the one that offers the best value for your project.

        Conclusion

        An as-built survey is a type of survey that is conducted after construction has been completed in order to document the finished product.

        This type of survey is important in order to have a record of the completed project, as well as to ensure that all aspects of the construction meet the required standards.

        As-built surveys can be conducted by a variety of professionals, such as architects, engineers, or even independent contractors.

        If you are considering having an as-built survey conducted, be sure to consult with a professional in order to get the most accurate and comprehensive results.

      • Stage 3 of the RIBA plan of Work

        This blog post is part of the RIBA plan of work series RIBA plan of work series. Here we’ll be covering Stage 3 of the RIBA plan of work which covers spatially coordinated design.

        The purpose of Stage 3 is to spatially coordinate the design. The information at the end of this stage needs to be coordinated sufficiently so that minor changes can’t happen at Stage 4 and you can submit a planning application with detailed information for the design.

        The purpose of Stage 3 is to spatially coordinate the design. The information at the end of this stage needs to be coordinated sufficiently so that minor changes can’t happen at Stage 4 and you can submit a planning application with detailed information for the design.

        Stage 2 of the Architectural Concept should be finalized and approved, along with the Project Brief before proceeding into Stage 3. The project shouldn’t proceed to Stage 3 if any spatial requirements spatial requirements or adjacencies adjacencies remain inconclusive. During Stage 3, the Change Control Procedures should be used to manage any functional changes to the Project Brief and Architectural Concept. Minor aspects of the design may need to be adjusted in response to tasks underway. For example, a core might need to be rearranged in order for the toilet and riser layouts to work out.

        To design a Stage 3 Spatially Spatially Coordinated, each design team member would work independently at Stage 4, or you could coordinate with specialist subcontractors on design. All of the project information should be coordinated too.

        The majority of project strategies, produced by specialist consultants, should be coordinated and concluded by the end of stage 3. Allowing work on other strategy items to enter stage 4 is only disruptive to the design process if the designer has not been included in early discussions on a strategy matter.

        We expect the lead designer to review the services schedules for specialists and comment on what tasks have been proposed when they will be undertaken, and if any tasks may interfere with the stage 4 design process.

        The design team may want to consider changing the design process, including early stage 4 information delivery, in order to make the procurement process more effective. For example, being able to provide a scope of work or detailed design for a complex area of the project, like the cladding, will have an immediate benefit. The contractor will have an easier time bidding on items because they don’t have to assume what they will be responsible for. All aspects of the project are listed out in depth so that contractors know exactly what needs to be done.

      • Stage 2 of the RIBA plan of work

        Following our main post on RIBA Plan of workRIBA Plan of work we’re going to cover the RIBA Stage 2.

        Stage 2 is all about getting the concept design right and making sure that the visuals of the building are proceeding according to the client’s vision. The critical challenge of this stage is to make sure that the tasks undertaken are aligned with the goals of Stage 2. Going into too much detail too early can divert the attention away from what matters most for Stage 3; but if there’s not enough detail, Stage 3 becomes inefficient.

        Dealing with Planning first

        The RIBA recommends dealing with any developer obligations and levies before submitting an early planning application, because it’s quite risky. You may encounter clarity regarding these additional costs when you submit an early application. if not, you risk running into many project risks.

        One of the most difficult tasks for a project team is determining where Stage 2 begins and ends. The RIBA Plan of Work requires that a design Concept be produced first before moving but not get into the detail design.

        Dealing with the right amount of design concept design

        Dealing with the right amount of design concept design

        One challenge at Stage 2 is determining what tasks and information requirements are needed to achieve the goal of the stage. In some cases, a designer might need intuition to design or make an architectural concept. In other situations, a detailed analysis might be required in order to test the design that has been created.

        One challenge at Stage 2 is determining what tasks and information requirements are needed to achieve the goal of the stage. In some cases, a designer might need intuition to design or make an architectural concept. In other situations, a detailed analysis might be required in order to test the design that has been created.

        For example, some clients might be happy with ‘rule of thumb’ calculations for stairways and toilets in an office building, or for light touch engineering inputs for other elements. Others may want greater certainty in the design, requiring detailed calculations for these elements. It’s important that the lead designer focuses the designing team on tasks which support and underpin the goals of Stage 2 and that will make the design as resilient as possible when Stage 3 starts up, when work will need to intensify on engineering teams and specialists needs to accelerate with work on this project.

        For example, some clients might be happy with ‘rule of thumb’ calculations for stairways and toilets in an office building, or for light touch engineering inputs for other elements. Others may want greater certainty in the design, requiring detailed calculations for these elements. It’s important that the lead designer focuses the designing team on tasks which support and underpin the goals of Stage 2 and that will make the design as resilient as possible when Stage 3 starts up, when work will need to intensify on engineering teams and specialists needs to accelerate with work on this project.

        Clients need to decide what information is required at this stage. Do you want to invest in large quantities of 2D content? 3D technologies, including VR and AR, are no longer gimmicks. They’re valid ways of undertaking Design Reviews and their usefulness should be considered alongside the requirement for traditional deliverables.

        Do you want to invest in large quantities of 2D content?

        3D technologies, including VR and AR, are no longer gimmicks.

        They’re valid ways of undertaking Design Reviews and their usefulness should be considered alongside the requirement for traditional deliverables.