Climate Guide: Key concepts and definitions (continued)
This is a holistic guide for you and your practice to deliver sustainable projects and meet RIBA's 2030 Climate Challenge.
Chapters one to four are available separately.
Chapter 5: Energy and Carbon:
Net zero energy, net zero carbon, zero carbon, carbon neutral should be carefully distinguished as ():
路 Concerning operational energy uses, a net zero (operational) carbon asset is one where no fossil fuels are used, all the energy use (Module B6) has been minimised, meets (at a minimum) the local energy use target (e.g. kWh/m2/year) and all the energy use is generated on- or offsite, using renewables that demonstrate 鈥榓dditionality鈥. All direct emissions from renewables and any upstream emissions are 鈥榦ffset鈥. (*Direct emissions could include CH4 and N2O emissions from the combustion of biomass and biodiesel fuels. Upstream emissions include direct and indirect emissions from energy generation and distribution, Well-to-Tank (WTT) (which are upstream, or indirect) emissions for energy consumed in the building and from energy generation, as well as distribution.)
路 A net zero (operational) carbon infrastructure asset is one where the sum total of greenhouse gas (GHG) emissions, as aligned with the scope of Operational Expenditure (or OpEx) as determined by the asset owner鈥檚 preference, is one where no fossil fuels are used, all energy use has been minimised, meets the local energy use target and all energy use is generated on- or offsite, using renewables that demonstrate 鈥榓dditionality鈥, meets local carbon targets (e.g. kgCO2e/m2) and with additional 鈥榦ffsets鈥, equals zero.
路 Concerning operational water uses, a net zero (operational) carbon asset is one where water use (Module B7) is minimised, meets local water targets (e.g. litres/person/year) and where those GHG emissions arising from water supply and wastewater treatment are offset.
- A net zero embodied carbon, or net zero life cycle embodied carbon asset is one where the sum total of GHG emissions and removals over an asset鈥檚 life cycle (Modules A0鈥揂5, B1鈥揃5 and C1鈥揅4) are minimised, meet local carbon targets (e.g. kgCO2e/m2) and with additional 鈥榦ffsets鈥, equals zero.
- A net zero (whole life) carbon asset is one where the sum total of all asset-related GHG emissions, both operational and embodied, over an asset鈥檚 life cycle (Modules A0鈥揂5, B1鈥揃8, C1鈥揅4) are minimised, meet local carbon, energy and water targets and with residual 鈥榦ffsets鈥, equals zero. (*To meet the requirements of net zero (whole life) carbon, it is necessary to also meet the definitions individually for 鈥楴et Zero Upfront Carbon鈥, 鈥楴et Zero Capital Carbon鈥, 鈥楴et Zero Operational Carbon鈥 (for energy, infrastructure and water, as applicable).)
- A net zero upfront carbon asset is one where the sum total of GHG emissions, excluding biogenic carbon, from Modules A0 to A5 is minimised, meets local carbon targets (e.g. kgCO2e/m2) and with additional 鈥榦ffsets鈥, equals zero. (*Net zero upfront carbon can be claimed at Practical Completion, based on actual values, subject to verification and residual offsets.)
- A net zero capital carbon infrastructure asset is one where the sum total of GHG emissions are aligned with the scope of Capital Expenditure (CapEx) as determined by the asset owner鈥檚 preference, is minimised, meets local carbon targets (e.g. kgCO2e/m2) and with additional 鈥榦ffsets鈥, equals zero. (*Biogenic Carbon should only be accounted for where all modules A, B and C are included.)
- A carbon neutral asset is one where all carbon emissions are balanced with offsets, based on carbon removals or avoided emissions.
- A net zero in-use carbon asset is one where on an annual basis, the sum total of all asset-related GHG emissions, both operational and embodied (Modules B1鈥揃8), are minimised, meet local carbon, energy and water targets or limits and with residual 鈥榦ffsets鈥, equals zero. (*Net zero in-use carbon can be claimed annually.)
- Absolute zero carbon is eliminating all carbon emissions without the use of 鈥榦ffsets鈥.
(*A building that is 鈥net zero carbon in design鈥 is one that is designed to be net zero carbon based on generic values (i.e. typical industry average quantities based on 鈥楨nvironmental Product Declarations (EPD)鈥 or equivalent data from accepted industry databases), but it does not have actual embodied, operational performance data to allow verification of net zero carbon status. A 鈥net zero carbon enabled鈥 building is also one that is designed to be 鈥net zero carbon in-use鈥, but it does not have actual in-use, or end-of-life performance data to allow verification of net zero carbon status. At Project Completion, an asset is potentially 鈥榥et zero carbon enabled鈥 to allow for the occupier to achieve a 鈥榥et zero carbon in-use/occupation鈥, subject to actual usage data and metered consumption, as well as residual, associated offsets. At concept design stage, an asset can be predicted to be net zero, based on generic values, which are assessed using estimated quantities, and appropriate 鈥 if available national, if not regional or global 鈥 carbon factors from accepted industry databases (source and the territorial scope must be stated). When a building is called 鈥net zero carbon鈥, it means that that building is verified as 鈥榥et zero carbon鈥, using actual, measured data and a third-party-verified assessment. Actual values or as-built values are assessed using actual quantities and carbon factors from Environmental Product Declarations (EPDs) of the actual products/systems used (to be adapted to the project location; with transport including actual, on-site waste quantities, waste transportation and treatment).
鈥Thermal Mass鈥 is a material鈥檚 capacity to absorb heat, store it and slowly release it, extending indoor comfort hours, reducing operational costs and enhancing durability of a structure. (*It is determined by a material鈥檚 specific heat capacity (to store heat), thermal conductivity (to transfer/release heat), size and density (heavy-weight materials can store more heat than lightweight ones). The higher the material鈥檚 specific heat capacity, thermal conductivity and density are the higher the thermal mass of that material is and the greater of a 鈥榯hermal lag鈥 it will provide (or the longer it will take to heat up).
A 鈥Brise-soleil鈥 is an architectural feature, often used as an external shading element, to deflect sunlight. (*It uses a series of angled, horizontal, vertical, latticed or patterned louvre fins, or blades, specifically arranged to control the amount of sunlight (i.e. solar heat gains and daylight) entering a building.)
鈥楥arbon Capture鈥 is the process, by which carbon dioxide is removed from the atmosphere and stored within a material (e.g. stored as 鈥榖iogenic carbon鈥 in 鈥榖iomass鈥 by plants/trees through photosynthesis and other processes).
鈥Carbon Sequestration鈥 is the process by which carbon dioxide is removed from the atmosphere and stored within a material (e.g. stored as 鈥榖iogenic carbon鈥 in 鈥榖iomass鈥 by plants/trees through photosynthesis and other processes).
鈥Carbonation/Calcination鈥 are processes that artificially accelerate the 鈥榗arbon sequestration鈥 process through injecting carbon dioxide into solid materials. (*An example of carbonation in building construction materials is Portland cement, concrete and carbonated aggregates.)
The quality of renewable energy procurement is defined by its 鈥榚nergy attribute certificate鈥, which evidences that electricity is produced from renewable sources (e.g. sun, wind, hydropower), and that provides 鈥榓dditionality鈥.
鈥Life Cycle Assessment (LCA)鈥 is typically a 鈥楥radle-to-Grave鈥 methodology used to calculate a building, product and/or a service鈥檚 overall environment impact throughout its entire life.
Ventilation is the intentional introduction of natural, outdoor air into the building in a controlled manner, to remove heat and increase air quality. (*It can take place in the form of single-sided, cross/double-sided, (buoyancy-driven) stack (with solar chimneys where additional height can be provided) and down-draught, as seen in the wind catchers/towers of the Middle East.)
Microclimate is a set of localised, atmospheric conditions (within a built environment) that vary from its macro/surrounding environment.
Daylighting is the admission of natural light into a building, in a controlled manner, to reduce the need for artificial lighting. (*It can be from a direct (from the sun), indirect (from reflective surfaces) and/or a diffused light (from a skylight), and it must be carefully designed to mitigate against glare risk indoors which is a significant source for 鈥榲isual discomfort鈥.)
Heat Loss is the measure of total heat transfer from inside to outside of a building which can happen in the form of convection, conduction and/or radiation. (*It is directly impacted by the performance of the building fabric (i.e. the poorer the thermal insulation of a building is, the greater the heat loss there will be). It is measured in kW.)
鈥Form Factor鈥 is a measure of a building鈥檚 total thermal envelope surface area to the treated/conditioned, indoor floor area.
鈥Surface Area/Volume (S/V)鈥 represents the external surface area of a building in relation to its internal volume (i.e. conditioned space). (*The lower the S/V ratio is, the lower the building鈥檚 energy demand will be.)
鈥Window-to-Wall Ratio (WWR)鈥 is the ratio of the window/glazed areas on a building鈥檚 facade to that of the entire facade/wall area above grade.
[Solar] Shading is a method by which solar radiation can be mitigated in a building. (*It can be provided in the form of external, facade elements, internal blinds, as well as solar technology (with films/coatings added onto glass, such as low-e coating). It must be defined and detailed to effectively respond to different conditions each building orientation will present, and it must balance daylight access and solar heat gain mitigation well.)
Solar Heat Gain is the increase of a space鈥檚 thermal energy due to direct/indirect absorption of incident (short wave) solar radiation.
Airtightness is preventing air leakage (caused due to wind, stack effect and/or combustion), through construction gaps and flow of moisture, as well as heat, through a building鈥檚 envelope.
A 鈥Thermal Bridge鈥, also known as a 鈥楥old Bridge鈥 鈥 is a localised, weak spot in a building (within the insulation layer at various junctions/interfaces) where a building鈥檚 internal elements connect to its outside layer, and where heat dissipates.
A 鈥Thermal Break鈥 is a low, conductive material, placed in between two materials to slow down heat transfer from one to another.
Albedo is a measure of a surface鈥檚 reflectivity. (A high albedo material is able to reflect solar radiation and avoid accumulation of heat build-up from solar radiation. Light-coloured stone is a good example of a high albedo material 鈥 when compared to asphalt, which has a very low albedo, hence results in surface warm-up, especially during the hot periods.)
A Regularly Occupied Space is a space that is occupied minimum one continuous hour/day ().
鈥Thermal Lag鈥 is the time of exterior鈥搃nterior heat flow through a building鈥檚 external envelope. (*Its times are influenced by temperature differentials (螖T) between each face, the material鈥檚 thickness, its conductivity, density, texture, colour and surface coatings, as well as its exposure to air movement and speed.)
Heat pumps are a group of devices that can heat or cool a building 鈥 in a low carbon and energy-efficient manner 鈥 by transferring thermal energy from outside, using the refrigerant cycle. (*There are three types of heat pumps: air-source, ground-source and water-source. Water-source heat pumps absorb heat from a local water source (such as a lake, river, aquifer, etc.), and can be 鈥榦pen-loop鈥 (requiring water extraction from and discharge back to the main source) or deep, 鈥榗losed-loop鈥 (which can also be used for electricity generation).)
Similar to a battery, a [Solar] Thermal Storage captures surplus energy generated by the solar electricity (i.e. 鈥楶hotovoltaic (PV)鈥) panels, and stores it for use at a later time in the day.
An 鈥Ambient Loop鈥 is a heat-sharing network that enables low temperature heat sharing between different floors in the same building and/or between different buildings. (*Coupled either with ground (passive) or connected to a communal air-source heat pump (active), it operates at a low temperature (at 15 o颁鈥30oC instead of the typical 60o颁鈥90oC), minimising the heat distribution loss. An 鈥榓mbient loop鈥 can also be used for cooling, removing excess heat from one space, and taking the removed heat to elsewhere where heating is needed.)
District Energy Networks are networks of highly insulated pipes (buried into the ground across a large site) that transfer steam or hot water from an energy centre into multiple buildings, for heating and/or cooling purposes. (*The energy source of the district network may vary from biomass to electricity to coal, and it can only be low carbon if supplied by a centralised, low carbon technologies, such as large-scale heat pumps.)
An Air-source Heat Pump, placed outside of a building, absorbs heat from outside air and supplies it to radiators, underfloor heating systems and/or as hot air, directly into a space.
A Ground-source Heat Pump, with fluid-filled pipes embedded in the ground in boreholes or horizontal trenches, absorbs heat from the ground, which is heated by the sun. This heat is then transferred into a building, to supply space heating and/or domestic hot water demand.
鈥Solar Thermal Collectors鈥 are high-efficiency evacuated tubes, or flat plates that absorb heat from the sun to produce domestic hot water, which is then stored in a highly insulated cylinder. They can additionally be used to collect heat for electricity generation, space heating or cooling (with an absorption chiller). (*The collectors can either be concentrating (where the area intercepting solar radiation is greater than the area absorbing solar energy/radiation) or non-concentrating (where the area intercepting solar radiation is the same as the area absorbing solar energy/radiation).)
A Cooling Tower is a heat exchanger that removes heat, using water to transfer processed heat into the atmosphere. (*In buildings, it is primarily used for heating, cooling, ventilation and air conditioning, and it can provide a cost-effective, and energy-efficient operation of cooling systems.)
A Radiant Ceiling Panel is a metal panel that circulates hot or cold water through concealed copper tubing (attached on the back of the panel) to provide heating and/or cooling. (*Typically used in commercial buildings, these ceiling panels provide cost-effective heating/cooling, without producing any noise and/or draughts.)
A [Active] Chilled Beam is a type of heating, ventilation and air-conditioning (HVAC) system, designed to heat and/or cool buildings. (*It has pipes of water running through a 鈥榖eam鈥, either integrated into a suspended ceiling system, or as a stand-alone element that sits slightly away from the ceiling.)
鈥Thermally Activated Building System (TABS)鈥 is a low temperature heating and high temperature cooling system where water-filled pipes are embedded within concrete slabs, to provide radiative heating/cooling into a space.
At Displacement Ventilation, air is supplied at a low velocity at 20oC, to maintain occupant comfort. (*This system is most effective in buildings with high floor-to-ceiling heights. The supplied outdoor air in this system, would need to be dehumidified in tropical/sub-tropical climate regions.)
A Ventilated Facade is a facade system with a ventilated 鈥榓ir gap鈥 in between the external cladding, and the rear insulation layer.
Air Handling Units (AHUs) are devices that are used to condition and distribute air within a building, as part of a heating, ventilation and air-conditioning (HVAC) system. (*They are commonly used in medium to large, commercial and/or industrial buildings. They can be located either in the basement, on roof or on floors, and typically serve up to ten floors (up and down the building).)
A Fan Coil Unit (FCU) is a heating/cooling system, which serves the space that is located in and typically works in conjunction with a central AHU, which supplies ventilation air from outside. (*A FCU can be noisy and have high operational costs due to its regular maintenance need.)
鈥Mechanical Ventilation with Heat Recovery (MVHR)鈥 is a ventilation system that provides fresh, filtered air into a building, using the recovered energy that has already been used to heat the building. (*It is typically used in residential buildings and required by the 鈥楶assivhaus Standard鈥 (due to its high, 80% efficiency).)
Heat Recovery is the process through which heat (from the exhausted air out of the building) is captured and through a heat exchanger, is fed back to the incoming, supply air (from outside) which serves the occupied spaces.
鈥Dedicated Outdoor Air System (DOAS)鈥 is a type of heating, ventilation and air-conditioning (HVAC) system that has a dedicated system for delivering outdoor air ventilation, both for latent and sensible loads, and a parallel system for mainly the (remaining) sensible heat loads inside a building. (*Commonly installed outside, it brings fresh, dehumidified and cooled (in summer) and heated (in winter) air from the outside to inside, independently from the heating and/or cooling of the building).
鈥Underfloor Air Distribution System (UFAD)鈥 is a method for delivering space conditioning through an underfloor plenum, beneath a raised floor, as part of the building鈥檚 heating, cooling and air-conditioning (HVAC) system. It is commonly used in offices, or in other commercial buildings, to bring conditioned air directly into a building鈥檚 occupied zone.
A 鈥Building Integrated PV (BIPV) Panel鈥 is a solar/photovoltaic material (often in the form of a roof tile, window or a facade panel) that replaces conventional building materials, to generate energy on site.
A Clerestory Window is a high-level window (above human eye level) that is used to bring light deep into a space. (*It can also be used for bringing fresh air inside a building.)
A 鈥Light Shelf鈥 is an architectural feature that is used to reflect daylight deep into a space. (*It comprises of a light-coloured and/or reflective, horizontal surface that can either be fixed externally (which is usually more effective), internally, or both, depending on its optimum function in providing an even illumination gradient inside a space.)
鈥Operational Carbon鈥 Emissions鈥 of a building 鈥 associated with energy use (Module B6) 鈥 are the greenhouse gas (GHG) emissions arising from all energy consumed by an asset in-use, over its life cycle. 鈥極perational Carbon鈥 emissions 鈥 associated with water use (Module B7) 鈥 are those GHG emissions arising from water supply and wastewater treatment for an asset in-use, over its life cycle. The scope of 鈥極perational Carbon鈥 GHG emissions of an infrastructure asset are those that align with the scope of Operational Expenditure (OpEx) as determined by the asset owner鈥檚 preference. (*Modules A, B1鈥揃5 and C should be clearly identified as 鈥楥apital鈥 or 鈥極perational鈥 within the scope. Modules B6 and B7 are always 鈥極perational鈥) ().
鈥Embodied Carbon鈥 Emissions鈥 of an asset 鈥 also known as 鈥楲ife Cycle Embodied Carbon Emissions鈥 鈥 are the total greenhouse gas (GHG) emissions and removals associated with materials and construction processes throughout the whole life cycle of an asset (Modules A0鈥揂5, B1鈥揃5, C1鈥揅4 with A0 assumed to be zero for buildings) (*Demolition of a previous structure, or building should be separately identified and included within Module A5) ().
鈥Upfront (Embodied) Carbon鈥 emissions of a building are the greenhouse gas (GHG) emissions associated with materials and construction processes up to practical completion (Modules A0鈥揂5). (*Upfront carbon excludes the biogenic carbon sequestered in the installed products at practical completion. Demolition of a previous structure, or building should be separately identified and included within Module A5) ().
鈥Biogenic Carbon鈥 refers to the carbon removals associated with 鈥榗arbon sequestration鈥 into 鈥榖iomass鈥, as well as any emissions associated with this sequestered carbon. (*Biogenic carbon shall be reported separately if reporting only 鈥榰pfront carbon鈥 but shall be included if reporting 鈥榚mbodied carbon鈥 or 鈥榳hole life carbon鈥) ().
The scope of 鈥Capital Carbon鈥 (greenhouse gas) GHG emissions of an infrastructure asset are those that align with the scope of Capital Expenditure (or CapEx) as determined by the asset owner鈥檚 preference. (*Modules A, B1鈥揃5 and C should be clearly identified as 鈥楥apital鈥 or 鈥極perational鈥 within the scope) ().
鈥Other Operational Processes鈥-related emissions (Module B8) are those (greenhouse gas) GHG emissions associated with the operation and use of an asset that are not included in Modules B1鈥揃7 but are required to enable it to operate and deliver its service (WLCN, 2022).
鈥User Carbon鈥-related emissions (Module B9) are those that arise from 鈥users鈥 utilisation of infrastructure and the service it provides during operation鈥 (). These emissions are not included in , which is the global standard for managing infrastructure carbon ().
鈥Beyond Building Life Cycle Stage鈥 captures the loads, as well as the benefits beyond the typical 鈥楥radle-to-Grave鈥 life cycle of a building. (*It allows accounting for the recycling potential of the building鈥檚 materials and/or the exported energy) ().
鈥Carbon Capture and Storage (CCS)鈥 is a series of technologies that capture carbon dioxide, transport it (usually via pipelines) and store it (typically in geological sites on land and undersea), before it enters the atmosphere and contributes to 鈥榞lobal warming鈥. (*The economics, commercial viability and scalability of the CCS technologies are still being studied.)
鈥Direct Air Capture (DAC)鈥 is a technology that extracts carbon dioxide (CO2) from the atmosphere and sells it to companies that produce carbonated drinks or CO2-absorbing concrete. (*This technology can also turn captured CO2 into synthetic fuels to replace diesel, gasoline or natural gas. The longer-term (such as use in materials) or permanent (such as in injections to the deep geological formations) provide the greatest benefits from this technology).
鈥Cross-Laminated Timber (CLT)鈥 is a type of engineered, panelised wood product that is manufactured by laminating layers of solid-sawn lumber with a high-performance glue.
鈥Glued Laminated Timber (GLT)鈥 鈥 also known as 鈥楪lulam鈥 鈥 is a type of structural engineered wood product that is manufactured by gluing layers of dimensional lumber together with durable and moisture-resistant, structural adhesives.
鈥Residual Emissions鈥 are emissions that remain after a built asset, or an organisation have implemented all technically and economically feasible solutions to reduce emissions in all scopes and from all sources. (*The quantity of residual emissions is estimate through to 2050, and identified in the 2050 trajectory) ().
Offsetting is 鈥reducing [greenhouse gas] GHG emissions (including through avoided emissions) or increasing GHG removals through activities external to an actor, in order to compensate for GHG emissions, such that an actor鈥檚 net contribution to global emissions is reduced鈥. (*Typically arranged through a marketplace for carbon offset credits, or other exchange mechanisms, offsetting claims are only valid under a rigorous set of conditions that ensure the involved reductions/removals are additional, not overestimated and exclusively claimed) ().
鈥楽cope 3鈥 Emissions capture all the indirect emissions, such as business travel, purchases of goods, energy procured for tenants or waste disposal that are not addressed in 鈥楽cope 2鈥.
鈥Additionality鈥 is the procurement of renewable energy for the asset鈥檚 use which results in new installed, renewable energy capacity that otherwise would not have occurred, had the intervention not taken place (). (*For example, 鈥楧irect Air Carbon (DAC)鈥 capture has 鈥榓dditionality鈥, whereas the restoration of a forest that is not in danger does not.)
鈥楽cope 1鈥 Emissions cover emissions directly generated by the built environment and/or its related activity, such as the emissions from a central plant, or boilers and/or the construction vehicles on a project site.
鈥楽cope 2鈥 Emissions include indirect emissions that are a result of electricity, heating and/or cooling purchases.
A 鈥Renewable Energy Certificate (REC)鈥 is a market-based mechanism (in the USA) that is created by state, or regulatory action to make it easier to track and trade renewable energy. (*It represents the environmental attributes of a renewable energy project (e.g. solar, wind), and it can be sold separately or together with the electricity that the project produces. One megawatt-hour (MWh) of electricity that is produced by a qualifying renewable energy project generates one REC) ().
Double Counting of Carbon is the process where two parties assert the same carbon emissions鈥 reduction, or removal for mitigation and/or compliance purposes.
鈥Offset Credits鈥 鈥 also known as 鈥Carbon Offset Credits鈥 are tradable/transferable, non-tangible instruments (certified by a government, or an independent certification body) to an internationally recognised carbon accounting standard. (*They typically represent one tonne of carbon dioxide-equivalent (CO2e), or an equivalent amount of other (greenhouse gas) GHGs, that is reduced, avoided or sequestered by a project) ().
鈥Clean Development Mechanism (CDM)鈥 is an international carbon finance scheme and a project-based mechanism (under the ) that allows emissions-reduction projects in developing countries, to earn 鈥楥ertified Emission Reduction (CER)鈥 credits 鈥 each equivalent to one tonne of carbon dioxide (CO2) avoided or removed from the atmosphere. These CERs can be traded and sold, as well as used by industrialised countries to meet a part of their emissions鈥 reduction targets under the Kyoto Protocol.
鈥Bioenergy with Carbon Capture and Storage (BECCS)鈥 is the process of removing carbon dioxide (CO2) from the atmosphere by extracting 鈥榖ioenergy鈥 from 鈥榖iomass鈥, and capturing CO2 from it, then storing it.
鈥Time Value of Carbon鈥 is the concept where (greenhouse gas) GHG emissions reduced today are more critical than emissions reduced later, due to increasing risk associated with immediate and scalable climate inaction.
A Biotope 鈥 often used synonymously to 鈥楬abitat鈥 鈥 is a geographical region, in which the biological environment is uniform in its environmental conditions and the distribution of the flora and fauna that live in it.
Bitumen 鈥 also known as 鈥榓sphalt鈥 鈥 is a sticky, highly viscous and waterproof binding agent produced from petroleum, commonly used for paving and roofing.
鈥Biochar鈥 is a solid, organic material (charcoal-like residue made of carbon and ashes) that is 鈥obtained from thermochemical conversion of 鈥渂iomass鈥 in an oxygen-limited environment鈥 (). (*Often used as a soil additive, 鈥榖iochar鈥 can sequester carbon in the ground for centuries, while also improving soil fertility (especially in degraded, tropical soils), increase agricultural productivity and improve water quality.)
鈥Integrated Project Delivery (IPD)鈥 is a project delivery method that involves all the key stakeholders to continuously build efficiency (and in the end, 鈥榣ean construction鈥) throughout a project鈥檚 entire design and construction phases. (*Coupled with an iterative design process, IPD can increase a building鈥檚 delivery speed to market by >30% ().)
A 鈥Feedback Loop鈥 is a process in which some, or all outputs of a system are used as inputs in some or all parts of the system鈥檚 future operations.
鈥Energy Use Intensity (EUI)鈥 is the total amount of energy that is used in a building in a year, divided by its floor area. (*It is often considered as a measure of a building鈥檚 energy efficiency. RIBA 2030 Climate Challenge and and are some of the industry sources that define EUI targets (in kWh/m2/year) for different building uses, to achieve net zero carbon.)
鈥Spatial Daylight Autonomy (sDA)鈥 is a measure of daylight availability within a space. (*It is expressed in percentage of floor area that receives a specific amount of daylight which is defined as 鈥榤inimum 300lux for at least 50% of the annual occupied hours (8am鈥6pm) on the horizontal work plane (760mm above the finished floor, or work plane height) for >55% of regularly occupied floor area鈥. SDA is defined by the , and noted in the relevant credit/feature of and ).
鈥Visible Light Transmittance (VLT)鈥 is a measure of the amount of visible light that passes through a lens or a glazed material. (*It is expressed in percentages and used as a rating for glass/window films. VLT ranges from 10% (highly reflective, or dark/tinted glass) to 90% (clear glass), and it is influenced by the glazing type, glass coating/s and the number of glass panes.)
鈥Unified Glare Rating (UGR)鈥 is a measure of the glare level within a space. (*Originally proposed by Kai S酶rensen in 1987, it ranges from 5 to 40, with the lower rating representing less glare. standard defines UGR values for typical environments/uses (e.g. UGR <19 for reading, writing, training, and meeting activities). A UGR <10 will produce minimal glare and a UGR 鈮30 would severely impair visibility ().)
鈥Formaldehyde鈥 is a strong-smelling, colourless and flammable chemical (with a formula of CH2O), which is used in building materials (e.g. laminate flooring), insulation, the resins of the manufactured, composite wood products (i.e. hardwood plywood, particleboard and medium-density fibreboard), household products (e.g. glues, permanent press fabrics, paints, coatings, finishes), preservatives (used in cosmetics and medicine), fertilisers and pesticides. (*It is also a gas that is released from un-vented, fuel-burning appliances (e.g. gas stoves), during tobacco smoking, and also in nature, through 鈥榖iomass鈥 combustion (e.g. forest and bush fires) and/or decomposition. defines the maximum formaldehyde threshold (in 碌g/m3) in occupiable spaces.)
鈥Particulate Matter (PM)鈥 鈥 also called 鈥楶article Pollution鈥 鈥 is a mixture of particles (tiny pieces) of solids, or liquids found in the air that are directly emitted from a source (such as construction sites, unpaved roads, smokestacks, tobacco smoke, candles, fires, cleaning products and air fresheners). (*It is classified according to its size as PM2.5 (for fine, inhalable particles with a diameter of 鈮2.5渭m) and PM10 (for inhalable particles with a diameter of 鈮10渭m). This classification is used in concentration measurements, the unit of which is 碌g/m3. defines the maximum PM thresholds in occupiable spaces.)
鈥Sound Transmission Class (STC)鈥 is a rating of sound isolation of a building assembly, measuring its effectiveness in reducing sound transmission between spaces. (*First introduced in 1961, it is a widely used rating for interior partitions, doors, windows, floors and ceilings. The higher the STC rating is, the better sound insolation the assembly is to achieve. The credit and the feature define the minimum STC thresholds (in decibels (dB) and for different uses and functions) in occupiable spaces.)
鈥Reverberation Time (RT)鈥 is the time (in seconds) required for the sound in a space to decay by 60 decibels (dB), when a source suddenly stops. (*It is 鈥a function of the room volume, surface area and absorptive properties surface finishes鈥 (). defines the RT ranges for different space types.)
鈥Noise Rating (NR)鈥 Curves is a method for rating noise in occupied spaces, to determine acceptable indoor environments for speech communication, hearing preservation and annoyance, and it takes into account the frequency of the noise. (*Defined in , the curves range from NR 0 to NR 130 (against maximum sound pressure levels in decibels (dB)) where NR 30 is for example, identified as the maximum noise rating level in private dwellings, hospitals, theatres, cinemas and conference rooms).
鈥Walk Score庐鈥 is a measure of a location鈥檚 walkability. (*Developed by a private company in 2007, carrying the same name, it is presented in numbers, which range from 0 to 100, where a 0鈥24 score means 鈥car-dependent鈥 (i.e. almost all errands require a car), and 90鈥100 鈥 labelled as 鈥walker鈥檚 paradise鈥 鈥 defines a location or a region all walkable (i.e. with amenities within 0.4km of its central location). The and credits outline minimum 鈥榃alk Score鈥 thresholds to be met to earn credits in these certification systems).
鈥Bike Score庐鈥 is a measure of a location鈥 cyclability. (*It is calculated by measuring the cycle lanes, hills, destinations and road connectivity, as well as bike commuting mode share. Developed and launched by in 2012, it is presented in numbers, which range from 0 to 100, where a 0鈥49 score means 鈥somewhat bikeable鈥, and 90鈥100 鈥 labelled as 鈥biker鈥檚 paradise鈥 鈥 defines a location or a region all cyclable (i.e. all daily errands can be accomplished on a bike).
鈥Whole Life Carbon Emissions鈥 are the sum total of all asset-related greenhouse gas (GHG) emissions and removals, both operational and embodied, over the life cycle of an asset, including its disposal (Modules: A0鈥揂5; B1鈥揃7; B8 optional; C1鈥揅4, and all including 鈥榖iogenic carbon鈥, with A0 assumed to be zero for buildings). (*Overall 鈥榃hole Life Carbon鈥 asset performance includes separately reporting the potential benefit from future energy recovery, reuse and recycling (Module D1 and D2). Demolition of a previous structure, or building should be separately identified and included within Module A5) ().
A 鈥Digital Twin鈥 is a digital model, virtually representing a physical object, or a system throughout its life. (*It is updated using real-time data, which is obtained from sensors that are fitted in the physical object/system鈥檚 vital areas of functionality, measuring its performance (e.g. its energy output, temperature, weather conditions). The gathered data is relayed to a processing system and then incorporated into the object/system鈥檚 digital model. This virtual model can be used to run performance analyses (through simulations) and generate potential improvements for the physical object/system.)
*For Table 2.01 (a) and (b) An overview of some of the key questions, outcomes, built environment 鈥榓ctors鈥 and outputs against the typical built environment project stages
A 鈥楽hoebox鈥 Energy Model is an initial, oversimplified energy model of a building (which is often represented in a rectangular box) to conduct an early design stage analysis of the building鈥檚 potential energy use in order to inform design decisions.
鈥Life Cycle Analysis (LCA)鈥 鈥 also known as 鈥楲ife Cycle Assessment鈥 鈥 is the process of estimating a building, product and/or a service鈥檚 overall environmental impact throughout its entire life (i.e. 鈥楥radle-to-Grave鈥). (*The standard provides a framework for appraising the built environment鈥檚 environmental impacts by setting out principles for whole life carbon assessments of built projects.)
鈥Carbon Budget鈥 is the maximum allowable 鈥榗umulative amount of global carbon dioxide emissions that is estimated to limit global surface temperature to a given level above a reference period, taking into account global surface temperature contributions of other [greenhouse gasses] GHGs and climate forcers鈥 ().
鈥Building End-of-Life (BEL) Report鈥 is a report produced at the end of a building鈥檚 useful life, to describe its condition (e.g. its structural state, the performance of its mechanical equipment, systems, envelope, interior fit-out materials/products), in order to determine the building elements鈥 future function 鈥 based on potential scenarios (i.e. whether they can be reused as they are (i.e. fulfilling the same function), or require upgrading (to improve performance), or must be 鈥榰p-鈥 or 鈥榙own-cycled鈥, or 鈥榬ecycled鈥 (to turn them into other materials/products that can serve 鈥榥ew鈥 functions), or discarded (i.e. sent back to manufacturers or treated as waste)). (*鈥楤uilding鈥 and/or 鈥楳aterial Passports鈥 can be useful tools to inform the BEL.)
A 鈥Buy-back Scheme鈥 is an arrangement that allows companies to take responsibility for their product鈥檚 entire life cycle by reselling items (back to the suppliers, or manufacturers), and/or reusing them (by repairing them, or in a different function) to reduce waste which increases existing resource use and saves cost (through reuse of materials and/or secondary purchasing).
Value Engineering (VE) 鈥 also called 鈥榁alue Analysis鈥 鈥 is a systematic and disciplined procedure and review of goods, or products and services to improve their value (defined as the ratio of function to cost) by using an examination of function. (*It promotes the substitution of materials with lower cost alternatives, without sacrificing the functionality of the goods, or product and service.)
*For Figure 5.07 Diagram showing life cycle stages and modules over an asset鈥檚 entire life (adapted from )
User Activities-related emissions (Module B8) are those greenhouse gas (GHG) emissions associated with a user鈥檚 utilisation of the buildings or infrastructure during the use stage, excluding Modules B6 and B7 (). (*鈥楿ser Carbon鈥 (Module B9) which is infrastructure specific (as in PAS 2080, 2016), can be included within Module B8) ().
Chapter 6: Water
Water Scarcity is both a natural and a human-induced phenomenon, describing 鈥the point at which the aggregate impact of all users impinges on the supply or quality of water under prevailing institutional arrangements to the extent that the demand by all sectors, cannot be satisfied fully鈥 (). (*Population faces 鈥榳ater scarcity鈥 when annual water supplies are <1,000m3 per person (). And perennial water shortages in cities are defined as having <100litres per person per day of sustainable surface and groundwater flow within their urban extent ().)
鈥Water Stress鈥 is a measure of the total, annual average water demand of 鈥榖lue water鈥 in a river basin, or sub-basin, and it occurs when the demand is between 10% and 20% more than the annual average water available in that basin. (*When the ratio is 20%鈥40%, the stress is measured as 鈥medium stress鈥 and if it is more than 40%, it presents 鈥severe stress鈥 (). When a territory withdraws 25% or more of its renewable freshwater resources, that territory is categorised to be 鈥榳ater-stressed鈥 ().)
Greywater 鈥 also known as 鈥楪ray Water鈥 鈥 is the wastewater generated in households (and other buildings) that come from sinks, showers, bathtubs, washing machines and dishwashers. (*It has lower levels of contamination when compared to 鈥楤lackwater鈥, but it still requires treatment (via biological (e.g. constructed wetlands and biodiverse landscapes), or mechanical systems (e.g. sand filtration and systems based on ultraviolet (UV) radiation) or bioreactors) before it can be reused for toilet flushing, landscape or crop irrigation (apart from edible plants) and other, non-potable uses.)
Blackwater 鈥 also known as 鈥楽ewage Water鈥, or 鈥楤rown Water鈥 鈥 is the wastewater generated in households (and other buildings) that come from bathrooms and toilets, containing faecal matter and urine. (*In some countries (e.g. Australia), wastewater from kitchens and dishwashers are also considered blackwater due to contamination by grease and pathogens. Blackwater can be treated via biological (e.g. reedbeds), or chemical processes (e.g. aerated systems), and it requires disinfection before it can be reused for irrigation (although not for edible plants) and toilet flushing.)
Potable Water 鈥 also known as 鈥楧rinking Water鈥 鈥 is the water that comes from surface and ground sources. (*It is treated for microorganism, bacteria, toxic chemicals, viruses and faecal matter before it can be used for drinking, food preparation/cooking purposes, among other uses.)
A Peri-urban area is the porous transition zone from rural to urban land, located at the edge/outskirts of urban areas.
鈥Water Footprint鈥 is an environmental indicator, which measures the amount, or volume of fresh water (in litres or m3) used throughout the life cycle of a consumer item or service. (*It is a concept developed by Arjen Hoekstra at the IHE Delft Institute for Water Education in 2002. There are three types of 鈥榳ater footprint鈥: green (water from precipitation), blue (water from surface, or groundwater sources) and grey (fresh water required to assimilate pollutants in the production process)) ().
[Surface] Water Runoff is the (excess) water (from rain, storm, snow, sleet or hail) that flows from the roof and ground surfaces of the built environment to a drainage system, as it can no longer rapidly infiltrate in the soil. (*This can occur when the ground surface is impermeable (i.e. preventing water to be soaked into the ground), or if the soil is saturated (by water, to its full capacity) or when the rainfall is very heavy/intense.)
鈥Water Availability鈥 is defined as the quantity of freshwater (on surface and at ground) that can be used for human activities, without significantly harming the ecosystems and other users ().
鈥Water Proofing鈥 is increasing water reuse systems and storage capacities, and having better urban planning, improving risk management and enhancing citizen engagement in cities to reduce their exposure to flood risk ().
鈥Climate-Smart Agriculture (CSA)鈥 is an approach to 鈥buffer rural livelihoods from climate change and increasing rainfall variability鈥. (*It combines financing, technologies and smart policies to increase productivity, enhance resilience and reduce greenhouse gas emissions. Examples of CSA include drought-tolerant maize, dairy development, soil management, waste-reducing rice thresher and carbon finance (to restore crop fields), among others) ().
鈥Farmer-led Irrigation鈥 Development is a process, in which small-scale farmers (smallholders) intentionally 鈥invest in, expand or improve their agricultural water use by adopting or developing small-scale, locally relevant and market-oriented solutions鈥 ().
鈥Green Infrastructure (GI)鈥 is a strategically planned network of natural and semi-natural areas to deliver a wide range of ecosystem services (e.g. air quality, water purification, climate mitigation and adaptation, stormwater management, heat stress reduction, biodiversity increase and space for recreation) to support people and wildlife. (*Some of the GI types include urban forests, rain gardens, constructed wetlands, green/blue roofs and bioswales.)
鈥Day Zero鈥 is the day when severe water restriction starts in a city, by largely switching off municipal water supplies. This is also the day when citizens would likely start queueing for their daily ration of water. (*It emerged as a term in discussions and planning for addressing Cape Town鈥檚 water crisis in 2018. It was used as a reference for the day 鈥when water supplies in Cape Town鈥檚 reservoirs drop below 13.5%鈥 ().)
Grey Infrastructure is a human-engineered infrastructure for water resources (such as water and wastewater treatment plants, pipelines, dams, seawalls, roads, etc.).
A Faucet or Tap Aerator is a small screen 鈥 commonly inserted at the end of a faucet 鈥 to reduce the amount of water (coming out of the faucet), control the stream, prevent water splashing, maintain or improve water pressure, and reduce the risk of lead and debris exposure.
鈥Net Positive Water鈥 is where all the water use has been minimised, meets (at a minimum) the local water use targets (e.g. litres/person/day or in other units/metrics), and all the water use is 鈥榞enerated鈥 on site, through rainwater harvesting, grey- and/or blackwater recycling and reuse.
A 鈥95th Percentile Rainfall Event鈥 is the rainfall event with a participation depth that is greater than or equal to 95% of all the 24-hour storm events on an annual basis.
An Ultraviolet (UV) Filter is a water filtration solution that disinfects and purifies water, by exposing water-borne viruses and bacteria to UV lights, which kill them.
Sludge is a muddy deposit that is created by a natural event (e.g. mud in a riverbed after a flood), or a residual, semi-solid slurry that is produced as a by-product of the wastewater and sewage treatment processes (e.g. biosolids). (*It can be treated via thickening (which reduces the total volume of sludge to less than half of its original volume), digestion (which enables the organic solids to be decomposed into stable substances) and dewatering (which reduces the amount of water in it) processes.)
A Cesspool 鈥 also known as 鈥楥esspit鈥 鈥 is an underground holding tank for storing liquid waste and sewage.
A Constructed Wetland is an engineered water treatment system that utilises natural processes (involving wetland vegetation, soil and microbes) to treat and improve the water quality. (*It is an excavation on land that can treat grey- and blackwater, stormwater runoff and industrial wastewater, while also creating wildlife habitat.)
A Reedbed is a natural water filtration system that can be used to treat and improve water quality before it gets discharged into the environment. (*Found between water and land, it is a transitional habitat that utilises reeds鈥 ability to transport oxygen to the soil, encouraging microorganisms to digest the contaminants in the effluent) ().
A 鈥Waste Stabilisation Pond (WSP)鈥 is a natural wastewater treatment system that is made of a man-made depression 鈥 enclosed by earthen embankments, forming a shallow and open basin, with a large water body (i.e. pond) 鈥 where grey- and blackwater (or faecal sludge) are treated by natural processes (through bacteria), which reduce the wastewater鈥檚 organic content and remove pathogens from it. (*The ponds can be used individually or linked together in a series, to improve treatment capacity. There are three types of WSP: anaerobic, facultative and aerobic 鈥 each with different treatment and design characteristics ().)
鈥Non-revenue Water (NRW)鈥 is the water that is produced and is 鈥榣ost鈥 (due to leaks or other) or unaccounted for before it reaches the customer.
Kinetic Energy is a form of energy that an object has due to its motion. (*There are five types of kinetic energy which are all measured in Joules: radiant, thermal, sound, electrical and mechanical. Walking, jumping or falling all involve kinetic energy.)
Silver Iodide is an inorganic compound that is a bright yellow solid but has a grey coloration due to the impurities of metallic silver that it commonly contains. (*With a formula of Agl, it is used in the formation of ice crystals in 鈥楥loud Seeding鈥 operations. 鈥Silver iodide exists naturally in the environment at low concentrations, and is not known to be harmful to humans or wildlife鈥 ().)
Gabion is a modular containment system (called 鈥楪abion Basket鈥, or 鈥楪abion Cage鈥), which is made with a mesh structure that is filled with rocks, stone, concrete or other, non-degradable material. (*It is used for landscaping, retaining walls (for erosion control and dams) and sea defence.)
Bioremediation is a treatment technique that utilises organisms (such as microbes and bacteria) to remove environmental pollutants from air, soil, water and industrial effluents, among others 鈥 through the biological degradation of pollutants into non-toxic substances.
Evapotranspiration is the total water loss to the atmosphere from the Earth鈥檚 surface. (*It combines evaporation (movement of water from soil, canopies and water bodies to the air) and transpiration (movement of water from the root systems, through vegetation and their leaves, and into the air). Usually expressed in units of depth, it can be affected by factors, including heat, humidity, air speed (for evaporation), plant and soil type, as well as water content and cultivation practices (for transpiration).)
A Rain Garden 鈥 also called a 鈥楤ioretention Facility鈥 鈥 is a garden of native shrubs, perennials and flowers that are planted in a small land depression, which acts as an infiltration point, temporarily holding (during the rainfall event) and soaking in rain/stormwater runoff from roofs, driveways, patios and/or streets.
A Bioswale is a shallow, landscaped depression 鈥 a 鈥榗hannel鈥 鈥 that captures, treats and infiltrates stormwater runoff as it moves downstream. (*It has a top layer of enhanced soil with plants, and a porous, bottom layer of typically gravel which is packed in a geotextile, to prevent any cloggage by sludge or roots).
A Filter Drain 鈥 also known as a 鈥楩rench Drain鈥 鈥 is a shallow, linear trench 鈥 lined with a geotextile and filled with gravel or stone 鈥 which is used to collect, filter and soak runoff water into the surrounding soil.
A 鈥Sustainable Urban Drainage System (SuDS)鈥 is a water management and a drainage system that by mimicking natural water processes, collects, stores, filters rain-/stormwater runoff (close to where the rain falls) and conveys it by slowly releasing it back into the environment. (*Some of the most common examples of SuDSs include permeable pavement, bioswales, wetlands, green roofs and detention basins.)
A Filter Strip 鈥 also referred to as a 鈥楤uffer Strip鈥 鈥 is a gently sloping, vegetated strip of land, which slowly conveys and infiltrates stormwater. (*It is commonly used to reduce contamination of stormwater runoff from roads, highways, small car parks and other pervious surfaces. It is also used in agriculture, to control 鈥榥onpoint source鈥 pollution.)
A Filter Trench is a shallow excavation of land 鈥 filled with rubble or stone 鈥 that creates a temporary, subsurface storage for stormwater runoff. (*It can be used to filter and convey stormwater downstream sustainable urban drainage system components) ().
A Soakaway is a hole/pit 鈥 dug into the ground and filled with coarse stone and rubble (or plastic crates) 鈥 which receives surface water from a drainage pipe, and enables it to slowly infiltrate in the soil, reducing flood risk and improving the ground鈥檚 stability.
A Detention Basin 鈥 also referred to as a 鈥楧ry Pond鈥 or a 鈥楬olding Pond鈥 鈥 is an open, excavated, often flat, vegetated land that is commonly installed adjacent to rivers, streams, lakes or bays to attenuate the peak flow from a rainfall event, by storing water for a short period of time. (*Primarily used as a mitigation measure for flooding, it can also protect against downstream erosion.)
An Infiltration Basin 鈥 also known as a 鈥楻echarge Basin鈥 鈥 is a vegetated, shallow depression of land, designed to store stormwater runoff until it gradually infiltrates through the soil of the basin floor. (*The basin is generally dry, except for during heavy rainfall periods. The performance of the basin largely depends on the soil鈥檚 permeability and the depth to the water table.)
鈥Water-sensitive Urban Design (WSUD)鈥 is an approach to land planning and engineering that integrates the urban water cycle into the urban design, to minimise overall environmental degradation. (*It considers stormwater, groundwater and wastewater management, as well as water supply. Greywater recycling and reuse, rainwater harvesting, urban greening for stormwater filtration, water-efficient landscaping and localised wastewater treatment systems are some of the common WSUD techniques. WSUD practices include integration of bioretention systems, swales and basins, infiltration trenches, buffer strips, constructed wetlands, sand filters, permeable pavement, rainwater tanks and Aquifer Storage and Recovery (ASR), among others.).
Soil Tillage is the mechanical manipulation of soil to control for weeds and pests and to prepare for seeding. It includes digging, stirring and overturning the soil.
Mulching is covering soil with a thick (usually organic) material to conserve its moisture, improve its health and fertility and to reduce weed growth. (*A mulch can be temporary (e.g. bark chips) or permanent (e.g. plastic sheeting).)
鈥Blue Water鈥 is the fresh surface and groundwater water that is found in lakes, rivers and aquifers. (*Its availability varies within a year and also from year to year. 鈥楻echarged鈥 by precipitation, 鈥榖lue water鈥 can be used for drinking and agricultural irrigation where it is abstracted to maintain transpiration.)
A 鈥10-year Rain Event鈥 鈥 also known as a 鈥10-year Storm Event鈥 鈥 is a rain/storm event that is 鈥capable of producing rainfall expected to be equaled or exceeded on the average of once in 10 years鈥 ().
鈥Groundwater Table鈥 鈥 also known as the 鈥榃ater Table鈥 鈥 is the upper surface of zone of saturation where ground鈥檚 pores and fractures are saturated with water.
An Agrochemical 鈥 also known as 鈥楢grichemical鈥 鈥 is a chemical product (e.g. pesticides, fertilisers, animal husbandry chemicals) used in agriculture.
鈥Eutrophication鈥 is the process by which water in aquatic or terrestrial environment becomes progressively enriched with nutrients and minerals (particularly with nitrogen and phosphorus) which leads to the increased growth of algae, changes in the organisms鈥 balance and water quality degradation.
A Biodegradable product is one that is capable of being broken down and decomposed by bacteria or other living organisms, in turn, avoiding pollution.
Riparian Ecosystems are ecosystems that occur along watercourses and water bodies, and they include riverbanks, floodplains and wetlands.
A Levee 鈥 also known as a 鈥楧yke鈥 or an 鈥楨mbankment鈥 or a 鈥楩loodbank鈥 鈥 is a naturally occurring ridge, or an artificially constructed wall structure (typically earthen), which usually runs parallel to a river鈥檚 course in its floodplain or along low-lying coastlines, to protect against flooding.
Effluent is a liquid waste or sewage that is produced and discharged by an industrial or commercial premises (e.g. industrial outfall, sewage treatment plant), outflowing into a natural water body (e.g. a river or sea).
鈥Virtual / Embedded Water鈥 鈥 also known as 鈥業ndirect Water鈥 鈥 is the water that is 鈥榟idden鈥 in the processes, services and products. (*A concept coined by geographer, John Anthony Allan in 1993, 鈥榲irtual water鈥 represents the embedded water that is exchanged when goods and services are traded from one placed to another.)
鈥Integrated Water Resource Management (IWRM)鈥 is 鈥a process which promotes the co-ordinated development and management of water, land and related resources, in order to maximise the resultant economic and social welfare in an equitable manner without compromising the sustainability of vital ecosystems鈥 ().
Micro-irrigation is a type of irrigation system that uses low-pressure and -flow rate (compared to average sprinkler systems) to reduce the likelihood of overwatering the planted area. (*It is commonly used in agriculture (for row crops), orchards, and vineyards, as well as in horticulture (wholesale nurseries), landscapes and gardens. Directly delivering water to where it is needed the most (i.e. the plants鈥 root zone), this type of irrigation minimises water wastage, which may occur due to evaporation.)
Drip Irrigation 鈥 also known as 鈥楾rickle Irrigation鈥 鈥 is a type of micro-irrigation system that allows water to drip to the plants鈥 roots at very low rates (at 2鈥20 litres/hour) (). (*Distributing water through a network of pipes, valves, tubing and emitters, this system can drip water either from above the soil or buried below the surface.)
Xeriscaping is the practice of landscaping or gardening with drought-tolerant and slow-growing plants, adaptable to local climate and environment, to conserve water from irrigation and reduce yard trimming.
Hydrozoning is the practice of clustering together plants that have similar water requirements, to conserve water from irrigation.
In the context of climate change, 鈥maladaptation鈥 is a process 鈥whereby people become even more likely to be negatively affected by climate change鈥 as a result of a certain (adaptation) action/s taken ().
A 鈥Resilience Corridor鈥 is a planning strategy that promotes the development of the same-named 鈥榓rteries鈥 (especially in coastal cities) by utilising existing, dry and raised (i.e. located on higher grounds) roads (in especially coastal cities) as 鈥an infrastructure link to tie the surrounding, vulnerable communities along the coast, to upland territories鈥 (). (*As a form of retreat, a 鈥榬esilience corridor鈥 also offers coastal communities an emergency egress opportunity in times of flooding.)
A Sand Engine/Motor is a type of beach nourishment where natural process of wind, waves and tides redistribute a large amount of sand/sediment (that is added to the coast in bulk) along the coast, over many years, avoiding the need for continuous beach nourishment. (*As a buffer against sea level rise, it protects against coastal flooding, mitigates the impacts of storm surges and protects the coastline.)
A Tidal Wetland is a flat, vegetated area of land, subject to regular flooding by tides. (*Often found along seacoasts (within reach of ocean鈥檚 tides), it includes salt marshes (near river mouths, in bays, on coastal plains and behind barrier islands), mangrove swamps (which replace salt marshes in subtropical and tropical regions of the world) and tidal freshwater marshes (along some tidal rivers).)
A Salt Meadow 鈥 also known as a 鈥極cean Meadow鈥 or a 鈥楽eagrass Meadow鈥 鈥 is an underwater ecosystem (formed by seagrasses) which are flowering, marine plants that are found in shallow, coastal waters. (*It provides food and habitats for a diversity of marine life, including invertebrates (e.g. shrimps, crabs) and offers refuge for endangered species (e.g. seahorses, turtles).)
A Salt Panne (and pool) is a water-retaining, shallow depression found within salt and brackish marshes, where the marsh is poorly drained. (*Occurring both in low (which is usually devoid of vegetation) and high (which has moderate amount of vegetation) salt marshes, a panne鈥檚 increased salinity dictates the type of flora and fauna is able to grow within it.)
An is a modular, precast concrete armour unit used for the construction of coastal and marine defences, including dykes and breakwaters.
A Tide Pool 鈥 also known as a 鈥楻ock Pool鈥 鈥 is an isolated, shallow pool of seawater which is found in the ocean鈥檚 intertidal zone. (*It provides habitats for snails, mussels, anemones, urchins, seaweed, small fish and crustaceans, among others.)
A Blowout Dune is a sandy depression in a dune ecosystem which is caused by the removal of sediments by wind. (*Commonly found on arid margins and in coastal settings, it can also be formed by vegetation loss, which leaves the soil bare, allowing it to be easily blown away by the wind.)
Peatlands are terrestrial wetland ecosystems, characterised by waterlogged soils made of dead and decaying plants, called 鈥榩eat鈥 (which is also known as 鈥榯urf鈥). (*They store 鈥vast amounts of carbon 鈥 twice as much carbon as all the world鈥檚 forests鈥 ().)
鈥Water Gap鈥 is a disparity found between water supply and demand, indicating the growing 鈥榳ater scarcity鈥.
Chapter 7: Ecology and Biodiversity
A 鈥Carbon Sink鈥 is a natural or an artificial reservoir/medium that indefinitely absorbs and stores carbon dioxide from the atmosphere, using biological and physical mechanisms and processes. (*Oceans (capturing 鈥榖lue carbon鈥) and vegetation (where the soil stores carbon) are the largest, natural carbon sinks on the planet. Bio-based building materials (e.g. timber, hemp, mycelium), and 鈥楥arbon Capture and Storage鈥 technologies are some of the 鈥榓rtificial鈥 methods used for sequestering carbon.)
鈥Net Biodiversity Loss鈥 is the decline or disappearance of biological diversity (i.e. the variety of all living things on the planet). (*It describes the decline of different levels of biological organisation, genetic variability, number and variety of species and the biological communities within a defined geographic area.)
Rewilding is a progressive approach to conservation and ecological restoration, by enabling natural processes to shape land and sea, consequently repairing damaged ecosystems and restoring degraded landscapes.
鈥Urban Fabrics鈥 is a planning theory that demonstrates 鈥how the transportation systems create city form and function鈥. (*Developed by , it aims to enable planners to create strategies for managing different 鈥榝abrics鈥 in three main city types: walking city, automobile city and transit city (). Based on their transport infrastructure priorities, each fabric (with their physical elements and environment) has a specific set of spatial relationships, typology of buildings and land-use patterns.)
Ecosystem Services are direct and indirect contributions and benefits the ecosystems 鈥 known as the 鈥榥atural capital鈥 鈥 provide for people. (*Examples include purification of water and air, regulation of erosion and natural hazards, decomposition of waste, pollination of plants, provision of food, energy, and biogenic materials, as well as non-material benefits, such as recreational, cultural and educational functions, among others.)
An Urban Food System is a system for producing food in urban areas, and it relies on the technical, social and economic design and development of urban environments in the distribution of food, land, water and energy production (). (*It can promote food security, increase access to fresh produce, minimise food waste, transport-related carbon emissions (due to food source being close to the point of consumption) and pollution, as well as enhance community health, among many other benefits.)
Biodiversity Value is the social, environmental and economic value biodiversity brings to people, including recreational, cultural, spiritual, health and physical protection against natural disasters, among others.
鈥Biodiversity [Loss/Damage] Mitigation Hierarchy鈥 is a tool widely used as an approach for identifying strategies that limit a development鈥檚 negative impacts on biodiversity. (*It commonly involves a series of iterative and sequential steps (to be followed throughout a project鈥檚 life cycle), prioritising avoidance, followed by minimisation, restoration and offsets, as the last resort.)
鈥Biodiversity Action Plan (BAP)鈥 is an internationally recognised programme that addresses threatened species and habitats. (*Developed following the , it is designed to protect and restore biological systems.)
鈥The International Union for Conservation of Nature (IUCN) Red Lists of Threatened Species鈥 鈥 also known as the 鈥業UCN Red List鈥 鈥 is the world鈥檚 most comprehensive inventory, providing information on the global extinction risk status of various biological species (). (*Established in 1964, it provides data which is used to measure progress towards 鈥樷 (adopted by governments at COP10) 鈥 specifically the Target 12, which aims to prevent extinction of known, threatened species and to improve, as well as sustain their conservation status by 2020.)
鈥EU Biodiversity Strategy for 2030鈥 is a comprehensive, long-term plan 鈥 developed and launched by the European Union (EU) in 2020 鈥 to protect nature and reverse ecosystems鈥 degradation. (*As a core part of the 鈥樷, it requires the restoration of degraded ecosystems, especially those with the highest potential to absorb and store carbon from the atmosphere) ().
鈥Local Nature Partnerships (LNPs)鈥 are partnerships of a wide range of local businesses, organisations and people that come together with the aim to help improve their local, natural environment.
鈥Urban Greening Factor (UGF)鈥 is a planning tool that is used to evaluate both the quality and the quantity of the proposed urban greening. (*Adapted from the 鈥Green Space Factor (GSF)鈥 鈥 originally developed in Germany, as a tool for landscape planning 鈥 UGF is calculated using a rating system where each surface type on a proposed development, is given a rating/score that ranges between the lowest, 0 and the highest, 1. As an example, indicates 鈥UGF scores of 0.4 for predominantly residential and 0.3 for predominantly commercial developments鈥 as a minimum.)
鈥Lawton Principles鈥 are a set of principles that promote 鈥the creation of a healthy, ecological network, operating across the landscape as a whole, not in isolated reservoirs鈥 (). (*Defined in 2010 by Sir John Lawton in his report to the UK Government, called 鈥樷, the five principles include: core areas (with the highest wildlife value), corridors and stepping stones (that allow for movement and interaction), restoration areas (where species and habitats can be restored), buffers zones (which protect all these areas from the pressure of human influence) and sustainable use areas (that have greater human influence and resource use).)
鈥Biodiversity Net Gain (BNG)鈥 is an approach to development and/or land management that is used to improve a site/land鈥檚 biodiversity value. (*It aims to leave the natural environment in a measurably better state than its original conditions. (*The UK Department for Environment, Food and Rural Affairs (Defra)鈥檚 鈥樷 underpins the UK鈥檚 鈥檚 minimum 10% biodiversity net gain requirement for all development sites.)
鈥Habitat-Banking鈥 is trading in habitat or biodiversity 鈥榗redits鈥 (which are generated by habitat creation, or enhancement, to offset residual biodiversity losses caused by a development) to compensate for unavoidable habitat destruction, through development ().
鈥Nature Climate Solutions (NCS)鈥 are actions that conserve, restore and improve land management, to increase carbon storage or avoid greenhouse gas emissions in landscapes and wetlands all around the world ().
鈥Natural Infrastructure (NI)鈥 is 鈥a planned or managed, natural, or semi-natural system that is designed to provide a specific benefit鈥 (). (*It may consist of a stand-alone natural ecosystem or a hybrid solution, which combines a natural system and a grey infrastructure.)
鈥Phytotechnology鈥 is the application of plants to engineering problems.
Bio-based Materials 鈥 also referred to as 鈥楤iomaterials鈥 鈥 are materials made from substances that are derived from living (or once-living) organisms. (*Often biodegradable, they include bioplastics, engineered wood and cellulose fibres, among others.)
Mycelium is a web-like structure of a fungus that is prevalent in forests, fields and heavily wooded areas. (*With is multicellular structure, it can grow into macro-size 鈥榝ruits鈥, which we commonly recognise as mushrooms. Mycelium can be used to create building materials that are renewable, strong and light. Due to its inherent properties, it can be recycled and regrown for many times.)
Biocrete is a concrete-like material, created by a mixture of natural fibre and hydrated lime or calcium hydroxide. (*It is generally not intended as a load-bearing material. To increase its (load bearing) capacity, sand can be added to biocrete 鈥 at the expense of its thermal insulating properties. Seen as a disadvantage, biocrete can take up to five times longer than a (traditional) concrete to cure ().)
A Bio-based Building Component is a building component that is in full or in predominance made of bio-based materials.
A Bioreactor is a manufactured, vessel-like device or a system that supports a biologically active environment. (*Maintaining an uninterrupted balance in the biochemical processes, it offers a uniform background for microorganisms to grow and turn into a 鈥榩roduct鈥.)
A Regenerative Process is a renewal process where damaged or missing elements are restored to their full function.
Bio-cementation is an ecological process and 鈥a technique that uses microorganisms to produce calcium carbonate for construction purpose鈥, as a binding agent ().
Biomanufacturing is a type of manufacturing or biotechnology that relies on biological processes 鈥 using enzymes and microorganisms 鈥 to manufacture a variety of products for different sectors, including pharmaceutical (e.g. vaccines, antibacterial drugs, cell therapies), consumers products (e.g. detergents, textiles, biofuels), food and beverage (e.g. fermentation) and industrial and environmental (e.g. chemicals, bio-cementation).
A Bioplastic is a plastic material that is produced from a natural or a renewable source, such as vegetable oils, sugarcane, straw, woodchips, corn starch, recycled food waste and yeast, among others. (*It is commonly used for packaging, cutlery, bowls and straws, and it can either be biodegradable (e.g. thermoplastic starch, polylactic acid) or non-biodegradable (e.g. bio-based polyethylene, bio-polycarbonate).)
Biofuel is a fuel that is derived from 鈥榖iomass鈥 (i.e. plant, or algae material or animal waste). (*Considered as a renewable energy source, it is typically used for transportation purposes. The most common examples of biofuel include ethanol (either used as 100% ethanol fuel, or blended with gasoline to produce 鈥榞asohol鈥, or used as a gasoline additive) and biodiesel (used in diesel engines and usually blended with petroleum diesel fuels in various percentages). Other biofuels include methane gas, biogas, methanol, butanol and dimethyl ether ().).
Suburbanisation 鈥 also known as 鈥楧ispersed Land Development鈥 鈥 is a shift of population from central urban areas into rural urban fringes (i.e. suburbs), resulting in a suburban sprawl of low-density, peripheral, urban growth.
鈥Habitat Fragmentation鈥 鈥 also known as the 鈥楽pecies Fragmentation鈥 鈥 is a process by which large and continuous habitats are divided into smaller, isolated patches of habitats, causing population fragmentation and ecosystem decay. (*鈥楬abitat Fragmentation鈥 can occur due to natural processes (e.g. volcano eruption, fires and climate change) or human activities (e.g. urbanisation, logging and cutting down forests and land conversion).)
An 鈥Edge Effect鈥 is an ecological alteration in a natural population, or a community structure that occurs at the boundary of two or more habitats. (*Linked with the development of sudden, artificial edges, it breaks down the continuity of adjacent habitats, leading to higher probabilities of local species extinction. Examples include when an agricultural field meets a forest or when a road cuts through a forest.)
An 鈥Urban Teleconnection鈥 is a 鈥processed-based conceptualisation that intertwines land use and urbanisation by linking places through their processes鈥 (). (*It can extend from short distances (e.g. between a central urban area and a peri-urban area) to longer distances (e.g. between places across nations or continents). The unexpected linkages that occur between the urban and the hinterland can be a result of urban鈥搑ural income inequalities (which can cause urban migration), extraction/sourcing of raw materials for construction and land use changes due to migration, among others ().)
鈥Inclusionary Zoning鈥 鈥 also known as 鈥業nclusionary Housing鈥 鈥 are municipal and county planning ordinances / local policies that mandate or provide incentives for including affordable housing units (at below market rate) in new developments. (*First developed in the USA in the early 1970s, 鈥業nclusionary Zoning鈥 is used as a planning tool to encourage mixed-income neighbourhoods. The proportion of the affordable housing units a developer must build (according to this Zoning requirements) usually depends on the size of the project).
Density Factor is a zoning term used to describe the maximum number of dwelling units that are permitted per acre on a development. (*It is calculated according to the town鈥檚 land use plan and relevant neighbourhood plans, as well as the town鈥檚 ordinances and applicable zoning regulations.)
鈥Tallness Factor鈥 is a metric (developed by ) that is used to describe the average height of an urban area, with the aim to specifically 鈥decouple density from 鈥渢allness鈥 in analysing the life cycle greenhouse gas emissions of cities鈥.
Economy of Scale is a term used to describe the greater benefit an organisation or an intervention can bring from the increased size of its operation.
鈥Farm to Fork鈥 is a strategy that is used to reduce environmental impact of primary food production, and provide a healthy food supply, while also ensuring fair economic returns to the producers (i.e. farmers).
An 鈥Agrivoltaic鈥 鈥 also known as an 鈥楢grophotovoltaic鈥 鈥 is the simultaneous use of land for both agriculture and solar energy generation.
Agroecology is the application of ecological processes, concepts and principles to agricultural food production. (*Recognised both as a climate change mitigation and adaptation strategy, it 鈥centres on food production that makes the best use of nature鈥檚 goods and services, while not damaging these resources鈥 (). 鈥Agroforestry鈥 鈥 which combines agriculture and trees 鈥 is a well-recognised example of agroecology.)
鈥Bioregional Planning (BP)鈥 is planning that aims to preserve the integrity of a bioregion through informing 鈥land-use planning and decision-making, by a range of sectors whose policies and decisions impact on biodiversity鈥 (). (*It includes a map of critical biodiversity areas, together with land-use guidelines for preventing loss or degradation to natural habitats in critical biodiversity areas.)
鈥Biophilic Urbanism (BU)鈥 is a planning approach that aims to systematically integrate nature into the urban fabric. (*Focusing on the ecological systems and human activities (that are delivered by biophilic interventions), it aims to improve connections between urban dwellers and nature, and derive benefits from natural services, as well as functions ().)
Epistemology is 鈥the philosophical study of the nature, origin, and limits of human knowledge鈥 ().
鈥Climate Dynamics鈥 is the field that studies the processes, which control the climate system and its evolution ().
鈥Garden City鈥 was an urban planning movement that promoted satellite communities around a central city, separated by greenbelts. (*Devised in the 20th century by town planner, Ebenezer Howard, it aimed at capturing the primary benefits of the city and the countryside, while avoiding the disadvantages they both presented.)
鈥Regenerative Design鈥 is a process that adopts a whole systems鈥 approach to design with the aim to restore, renew or revitalise processes鈥 own sources of energy and materials. (*It uses whole systems thinking to create resilient and equitable systems, which integrate the society鈥檚 needs with the integrity of nature ().)
Urban Regeneration 鈥 sometimes also referred to 鈥楿rban Renewal鈥 鈥 is an approach to city planning to ameliorate the appearance, infrastructure and economy of a 鈥榙ecaying鈥 (i.e. obsolete or blighted) city area by improving its physical and environmental aspects.
Environmental Ethics is a branch of philosophy that studies the moral relationship of human beings to the environment.
Agroecosystems are cultivated ecosystems where communities of plants and animals interact with their physically and chemically modified environment by people, to produce food, fibre, fuel and other products for consumption and processing. (*They are composed of grassland and cropland) ().
鈥Land Sparing鈥 鈥 also known as 鈥楲and Separation鈥 鈥 is an approach where urban areas are separated from the high-yielding, intensified agriculture and natural habitats (on a small land footprint), to promote ecosystem services in agricultural settings 鈥 allowing for environmentally friendly food production. (*Examples include woodlands, wetlands, natural grasslands and meadows on arable lands.)
鈥Land Sharing鈥 is an approach where low-yielding, wildlife-friendly farming systems (on a larger land footprint, with biodiversity-rich species throughout) enable the conservation of crucial species that are incompatible with agriculture, by segregating biodiversity conservation from production.
A greenfield site is an undeveloped land (such as a grassland, woodland or an agricultural land) that is typically found outside of urban areas.
Hydroponics is the process of growing plants 鈥 usually crops 鈥 without using soil. (*In the hydroponic system, terrestrial or aquatic plants are fed on mineral nutrient salts that are dissolved in water. Commonly grown in greenhouses or contained environments, plants that can be grown using a hydroponic system include tomatoes, peppers, lettuces, strawberries and cucumbers, among others.)
Aquaponics is the process of producing food by combining aquaculture (i.e. farming fish) and hydroponics (i.e. growing plants in a nutrient solution). (*In the aquaponic system, plants (commonly leafy lettuce, tomatoes, basil, cauliflower, etc.) are grown in a grow bed on top of a fish tank, which contains fish. As plants absorb the nitrates (from the fish waste that has gone through a biofilter) and other nutrients, they grow. In this process, plants clean and filter the water, which gets recirculated back to the fish tank, leading to the next cycle鈥檚 start. Aquaponic systems can either use freshwater or contain salt or brackish water, and their unit size can vary from small, indoor units to larger commercial ones.)
Aeroponics is the process of growing plants in an air or mist environment, without using soil or an aggregate medium. (*In the aeroponic system, plants grow in a soilless medium, called rockwool. Examples of plants that can be grown using this system include microgreens, leafy greens, fruiting and rooting crops, among others.)
鈥Seven-layer System鈥 is a system, emerged from the 鈥楩orest Garden鈥 (an agroforestry) concept that was pioneered by horticulturist Robert Hart, based on his observations that natural forests can be divided into distinct layers. (*The system is comprised of seven layers: 鈥canopy layer鈥 (consisting of mature fruit trees), 鈥low-tree layer鈥 (consisting of smaller nut and fruit trees), 鈥shrub layer鈥 (consisting of fruit bushes), 鈥herbaceous layer鈥 (consisting of perennial vegetables and herbs), 鈥谤丑颈锄辞蝉辫丑别谤别鈥 (consisting of plants grown for their roots and tubers), 鈥ground cover layer鈥 (consisting of edible plants that are spread horizontally) and 鈥vertical layer鈥 (consisting of vines and climbers).)
A Regenerative Agricultural Practice is a farming and grazing technique that by increasing soil fertility, water retention and cleanliness, soil carbon sequestration and biodiversity, it improves the overall health of the local ecosystem. (*It includes practices such as employing crop rotation, using greater crop variation and shifting from synthetic to organic fertilisers.)
Permaculture is 鈥an approach to land management and settlement design that adopts arrangements observed in flourishing natural ecosystems鈥. (*It uses design processes, based on 鈥榳hole-systems thinking鈥 and considers strategies that promote 鈥榗ircular鈥 approaches for all materials and resources) ().
Aquaculture 鈥 also known as 鈥楢quafarming鈥 鈥 is the farming of aquatic organisms, including fish, molluscs, crustaceans, algae, aquatic plants and other organisms. (*It can take place both in controlled marine and freshwater environments. 鈥惭补谤颈肠耻濒迟耻谤别鈥 (e.g. breeding molluscs or prawns or other organisms, using seawater), 鈥fish farming鈥 (e.g. selective breeding of fish in fresh- or seawater), 鈥补濒驳补肠耻濒迟耻谤别鈥 (e.g. cultivating algae) are some examples.)
鈥Bio-based Economy鈥 鈥 also referred to as 鈥楤ioeconomy鈥 鈥 is an economy that draws its resources from the living nature (e.g. 鈥榖iomass鈥), and uses 鈥榖iotechnology鈥 to produce of goods, services and energy. (*It is important to note that 鈥榖io-based economy鈥 takes into consideration the production of non-food goods, while 鈥榖ioeconomy鈥 covers both bio-based economy and the production, and use of food and feed ().)
An Espalier is a decorative fruit tree, woody plant or a shrub that has been 鈥榯rained鈥 to grow flat against a wall, fence or trellis.
Chapter 8: Connectivity and Transport
Previously Developed Land is land that is/was occupied by a permanent structure. (*Land that has been occupied by agricultural or forestry buildings, or that has been developed for mineral extraction or waste disposal purposes, or that has been built-up as gardens, parks and/or that only had temporary structures, are not considered as 鈥榩reviously developed land鈥. ().)
Reclaimed Land is newly created land from the sea, or other water bodies. (*This could be land that is impaired by a natural phenomenon, such as a tsunami, or earthquake. It could also be a submerged wetland that is reclaimed for agricultural use. It is important to note that reclamation of land on coastal areas have significant, negative environmental impacts to the local, natural ecosystem.)
鈥15-Minute City鈥 is an urban concept, describing a city vision where the effective planning of infrastructure and urban development would enable city residents to meet all their needs by walking and/or cycling at a short (15-minute) distance from their homes. (*The concept 鈥 also known as 鈥楥omplete Neighbourhoods鈥 鈥 was originally inspired by French-Colombian scientist, .)
鈥Reblocking鈥 of an informal settlement is realignment of structures to enable basic services to be delivered, while also likely resulting in more usable space and reduced fire risk.
A Metropolis is a large city with more than 300,000 inhabitants. (*It is typically defined as the capital city of a country.)
A Polycentric City is a city that has one or more employment sub-centres outside of the central business district, to achieve a balanced metropolitan system.
A Monocentric City is a city that has a single, 鈥楥entral Business District (CBD)鈥.
A Regenerative City is a city that enhances and restores natural systems, whose resources the city draws from hinterland, for its sustenance.
A 鈥Sprint Rapid Transit Vehicle鈥 is a transportation system that uses tram-style vehicles, which run on road-going wheels, rather than tracks, to provide fast and reliable journeys ().
鈥Last-mile鈥 is a terminology used to describe the last part of a journey where people and goods are moved from a transportation hub to their final destination.
鈥Artificial Intelligence (AI)鈥 is a field that combines computer science and robust datasets, to facilitate decision-making and problem-solving. (*It is the simulation of human intelligence in machines, which are programmed to think like humans and mimic their actions.)
An 鈥Autonomous Vehicle鈥 鈥 also known as a 鈥榮elf-driving鈥, or 鈥榙riverless car鈥 鈥 is a car that incorporates vehicular automation (with a variety of sensors), enabling it to sense its surroundings, and move with little or no human intervention.
鈥Demand-Responsive Transport (DRT)鈥 鈥 also known as 鈥楧emand-Responsive Transit鈥 鈥 is a form of shared, quasi-public or private, flexible transport, used by groups of people, who can arrange (via a mobile app, or telephone) a pick-up or drop-off from/to their desired location and time. (*Including taxis, buses, minibuses and other vehicles, these vehicles change their routes (based on the particular transport demand), rather than following a fixed route.)
A Mobility Hub is a place where spaces for cars, bikes, taxi hire or drop-off, parcel pick-up stations, and interchange between rail, bus or local shuttle are provided 鈥 ideally adjacent to public realm. (*A mobility hub should be visible from adjacent streets, and have generous, public space with wide, pedestrian paths, travel information display boards, covered waiting areas and convenience stalls for snacks ().)
鈥Advanced Air Mobility (AAM)鈥 is an airborne technology that uses electrical take-off and landing (eVTOL) aircraft that enables the transportation of people and goods, flying around both in rural and urban environments, and serving especially spaces that are not easily serviced by land/surface transportation or existing aviation modes. (*It is envisioned that such an aircraft will be powered by hybrid electric systems, batteries or hydrogen fuel cells ().)
A 鈥Light Commercial Vehicle (LCV)鈥 is a motor vehicle (with typically four wheels) that transports goods and specialised equipment. (*Such a vehicle could be a utility vehicle, a heavy lorry or a minivan.)
An 鈥Autonomous Air Vehicle (AAV)鈥 is an unmanned, electric vehicle that transports goods and people.