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Semi-basement

A semi-basement is an architectural space in a building that is partially below ground level, typically with about half its height exposed above the surface, distinguishing it from a full basement that is entirely subterranean.^[1]^[2] This design allows for partial natural light and ventilation through windows at or near ground level, often making it suitable for habitable or service areas rather than purely storage.^[3] Commonly employed in homes and larger structures built on sloped terrain, semi-basements provide a transitional level that enhances functionality without the full excavation costs of deeper foundations.^[4] Historically, semi-basements emerged in 18th- and 19th-century urban row houses in Europe and North America, where they served as service quarters for kitchens, domestic offices, and staff accommodations beneath the main living floors.^[5] In cities like London and Washington, D.C., this configuration allowed for efficient use of space in dense environments, with the raised ground level creating a visual plinth that elevated the primary facade aesthetically, often using rusticated or durable materials for the lower portion to withstand soil contact.^[6] By the early 20th century, examples appeared in municipal housing projects, such as Josef Polášek's 1930 design in Brno, Czech Republic, where the semi-basement reinforced structural stability and classical proportions.^[6] In post-World War II contexts, particularly in South Korea during the 1970s, semi-basements (known as banjiha) were initially constructed as nuclear bunkers amid Cold War tensions between North and South Korea, later repurposed for residential use as the nation industrialized rapidly.^[7]^[8] Architecturally, semi-basements offer advantages in light access and reduced moisture compared to full basements, enabling their use for secondary living spaces, utilities, or even commercial purposes in contemporary designs.^[9] They are particularly valued on uneven sites, where the partial embedment minimizes earth-moving while providing a stable base that visually anchors the building.^[4] In terms of aesthetics, the exposed portion often features distinct materials like stone or concrete to create a robust, grounded appearance, echoing traditional base-shaft-capital hierarchies in facade composition.^[6] In modern building practices, semi-basements must comply with local regulations to ensure safety, such as adequate waterproofing, ventilation, and egress windows, with guidelines varying by region—for instance, Scotland's standards define them as floors partially below ground and outline construction limits to prevent flooding or structural issues.^[10] However, in urban areas like Seoul, they have become synonymous with socioeconomic challenges, housing low-income residents in flood-prone, poorly lit units despite legalization in the 1980s to address housing shortages; following deadly floods in 2022, authorities announced plans to ban new residential semi-basements and phase out existing ones over 10–20 years, with implementation ongoing as of 2025.^[8]^[11]^[12]^[13] This duality highlights their role in both innovative space utilization and vulnerability to environmental risks in densely populated cities.

Definition and Characteristics

Definition

A semi-basement is a floor in a building that is partially below ground level, with approximately half of its height submerged beneath the adjacent ground surface, enabling the installation of windows at or near eye level for natural light and ventilation.^[1]^[2] This configuration distinguishes it from a full basement, which is entirely or predominantly below ground and often receives limited natural light due to its deeper submersion.^[14] In contrast, a crawl space is a shallow, non-habitable utility area typically 1 to 3 feet deep, designed solely for access to plumbing, wiring, and foundation maintenance rather than occupancy.^[15]^[16] Terminology for semi-basements varies by region and architectural tradition; in the United Kingdom and some European contexts, it is often called a lower ground floor, referring to a level that sits partially below the main ground plane.^[17] In North American urban settings, particularly in row houses or townhomes, it may be known as an English basement, a self-contained living space on the lowest level that is mainly above ground but accessed via steps descending from street level. In South Korea, the equivalent term is banjiha, describing semi-subterranean apartments that are half-buried to provide affordable housing with partial exposure to the exterior.^[8] The basic spatial configuration of a semi-basement involves its floor level aligning partially with the external ground, which facilitates direct pedestrian access—often through a separate entrance—and partial exposure to daylight, making it suitable for habitable use without the full enclosure of deeper subterranean spaces.^[3]^[4]

Architectural Features

Semi-basements are distinguished by their window placements, which prioritize natural daylighting to mitigate the enclosed feel of fully subterranean spaces. Horizontal windows are typically installed at or near ground level on the exposed portion of the walls, allowing sunlight to enter directly into the interior. These windows are frequently augmented by light wells or areaways—excavated recesses adjacent to the building facade—that create additional depth for light penetration and prevent soil contact with the glass. According to the International Residential Code (IRC), such windows in habitable basement areas must provide a glazing area equivalent to at least 8 percent of the room's floor area to ensure adequate natural light.^[18] The internal dimensions of semi-basements emphasize usability, with ceiling heights generally ranging from 7 to 8 feet to comply with habitability requirements. This standard, outlined in the IRC, mandates a minimum ceiling height of 7 feet for habitable spaces, including basements, with allowances for minor obstructions like beams reducing clearance to no less than 6 feet 4 inches. Externally, the design involves partial burial where the surrounding ground covers approximately 2 to 4 feet of the wall height, balancing structural stability with above-ground exposure; the IRC limits unbalanced backfill height to 4 feet for plain concrete foundation walls to avoid excessive lateral pressure.^[18]^[19] Access to semi-basements often includes dedicated external entry points, such as steps or ramps leading from ground level to the partially exposed floor, independent of the primary building staircase. This configuration facilitates convenient outdoor connectivity, particularly in urban settings like London townhouses where "area" steps descend alongside light wells to the lower ground level. The IRC further requires emergency egress through operable windows or doors with a minimum clear opening of 5.7 square feet and a sill height not exceeding 44 inches above the floor.^[18]^[20] Ventilation in semi-basements benefits from their partial above-ground positioning, promoting natural airflow that lessens dependence on mechanical systems relative to full basements. Openable windows, such as casement or sliding types, enable cross-breezes, with the IRC stipulating an openable area of at least 4 percent of the floor space for natural ventilation in habitable rooms. This exposure-driven design enhances air circulation, reducing moisture buildup and improving indoor air quality.^[18]^[21] Structurally, semi-basements integrate seamlessly beneath the main floor, serving as a foundational element that supports load-bearing walls and distributes the building's weight to the ground. Constructed with poured or block concrete walls, they form a hybrid foundation on sloped or level sites, where the exposed side allows for walkout features or patios while the buried portion anchors the upper levels. This positioning maximizes usable space without compromising the overall building envelope.^[14]

History

European Origins

The semi-basement, often referred to as the "English basement" or lower ground floor, emerged prominently in 18th- and 19th-century European architecture, particularly in the terraced row houses of London during the Georgian and Victorian eras. These structures featured a partially sunken basement level designed for utilitarian purposes, including servant quarters, kitchens, sculleries, and domestic offices, while elevating the principal living spaces to the raised ground floor. This configuration became a hallmark of urban residential development in Britain, reflecting the expansion of middle- and upper-class housing in cities like London amid rapid industrialization and population growth.^[22] The architectural rationale for this design emphasized both social status and practical hygiene. By raising the ground floor—often inspired by the classical piano nobile—the main reception and family rooms were positioned above street level, distancing them from mud, refuse, and urban filth, which was a growing concern in densely populated areas prone to disease outbreaks like cholera. The semi-basement, typically half-buried with access to light via area railings, provided essential service space without fully enclosing it underground, allowing for ventilation and functionality while maintaining separation between family and staff domains. This approach not only signified the homeowner's elevated social position but also addressed health imperatives by confining potentially damp or odorous activities, such as cooking and laundry, to the lower level.^[23] Prominent examples illustrate this innovation in Regency-era contexts. In Bath, UK, No. 1 Royal Crescent (built 1767–1774, though Regency influences persisted in adaptations) exemplifies the use of basements for servants' halls, housekeeper's rooms, and kitchens, preserving the original layout to highlight domestic hierarchies. Similarly, in Dublin, Ireland, Georgian townhouses designed or influenced by architects like John Nash, such as those in areas like Henrietta Street, incorporated basements for staff accommodations and service facilities, mirroring London's model amid Ireland's parallel urban expansion. These spaces housed live-in servants in larger estates, enforcing a clear divide that underscored class distinctions in daily life. By the early 20th century, semi-basements continued in municipal housing projects, such as Josef Polášek's 1930 design in Brno, Czech Republic, where the semi-basement reinforced structural stability and classical proportions.^[24]^[25]^[6]

North American Development

In the post-World War II era, semi-basements, often termed "half-basements" or "basement houses," emerged prominently in North American residential construction amid the housing boom of the 1940s and 1950s. Driven by the urgent need for affordable homes for returning veterans and growing families, these designs allowed homeowners to occupy a partially below-grade level immediately while planning for future expansion, such as adding an upper story. In subdivisions across regions like the Midwest and West Coast, builders constructed these as cost-effective alternatives to full basements, using concrete foundations that formed the initial living space with basic utilities, often leaving the upper portion unfinished until finances permitted completion. This incremental approach reflected economic pragmatism in an era of material shortages and rapid urbanization, with examples appearing in places like rural Nebraska and urban San Francisco outskirts.^[26] In urban centers, semi-basements adapted earlier row house traditions, particularly in Washington, D.C., where "English basements" in late 19th-century constructions evolved into viable living spaces by the mid-20th century. Originating in the 1870s as structural cellars in row houses built for the expanding middle class, these partially submerged levels—reached via area ways and featuring small windows for light—shifted from storage or servant quarters to affordable rental units post-WWII, accommodating young professionals and interns amid suburban flight of original owners. Land scarcity in D.C.'s compact footprint, coupled with high property costs, incentivized owners to convert these spaces for income, providing additional square footage without extensive excavation or altering the street-facing facade. This evolution was influenced by European immigrant architects who drew from London's 19th-century row house models, adapting them to American urban density.^[5] By the mid-20th century, semi-basements gained traction in modernist architecture, exemplified by exposed lower levels in California's Case Study Houses program (1945–1966), which promoted innovative, efficient post-war housing. Architects like Kemper Nomland integrated these features into designs on sloped sites, maximizing natural light and site harmony while minimizing deep digging costs. Such applications highlighted the semi-basement's role in mid-century modern principles, blending functionality with aesthetic integration of indoor and outdoor spaces, and influencing broader suburban developments seeking economical vertical expansion.^[27]

Asian Adoption

In South Korea, the adoption of semi-basements, locally termed banjiha, began in the 1970s as a government-mandated feature in newly constructed apartment blocks. These spaces were required to serve as civil defense shelters and storage areas amid escalating tensions with North Korea, following incidents like the 1968 Blue House raid by North Korean commandos.^[28]^[29] Initially designed for emergency protection rather than habitation, banjiha units were partially below ground level, offering partial natural light and ventilation while minimizing construction costs. Over time, as housing demand surged due to rapid urbanization, many were illegally converted into low-income residential units, providing affordable rentals in densely populated areas like Seoul. By 2020, approximately 200,000 banjiha units remained in the capital, accounting for about 5% of all households and primarily occupied by low-wage workers, students, and the elderly.^[12]^[30] In China, similar partial basement spaces have proliferated in high-density cities such as Beijing, repurposed from air-raid shelters and utility areas into rental housing for migrant workers. These subterranean units, often cramped and partitioned for multiple tenants, emerged as a response to the influx of rural migrants during the country's explosive urban growth since the 1990s, offering rents as low as $20 per month in central locations. Influenced by seismic considerations in earthquake-vulnerable regions, designs incorporate reinforced structures to mitigate risks, though safety concerns persist due to poor ventilation and flooding vulnerabilities. In the 2010s, an estimated one million people resided in such basement rentals in Beijing alone, highlighting their role in addressing acute housing shortages in megacities.^[31]^[32]^[33] In Japan, partial basement configurations appear in select urban high-rises and commercial buildings in earthquake-prone areas, primarily for utility storage and emergency facilities rather than widespread residential use, shaped by stringent seismic building codes that discourage deeper excavations due to soil instability and high groundwater levels.^[34] The social impact of semi-basements across these nations underscores their evolution into symbols of inequality amid accelerated urbanization, where they provide essential yet precarious affordable housing for marginalized populations. In South Korea, banjiha have become emblematic of class divides, as portrayed in the 2019 Academy Award-winning film Parasite, which depicted a poor family residing in a damp, flood-prone unit below a wealthy household, drawing global attention to the living conditions of over 800,000 people nationwide.^[8]^[7] This portrayal amplified discussions on housing policy, revealing how banjiha residents face higher exposure to environmental hazards like pests, humidity, and isolation from sunlight.^[35] Recent trends in Asian adoption reflect growing safety concerns, particularly following the 2022 floods in South Korea that killed at least 11 people, including families trapped in banjiha units during record rainfall in Seoul. In response, the Seoul Metropolitan Government vowed to ban new semi-basement constructions—already prohibited for residential use since 2012—and phase out existing ones through relocations, subsidies for upgrades, or retrofits in flood-vulnerable zones, aiming to relocate up to 40,000 households over the next decade. As of 2023, the Banjiha Transformation Initiative had relocated 3,671 households to public rental housing. Similar pressures in China have led to periodic crackdowns on illegal basement rentals, with Beijing authorities sealing thousands of units in 2017 to enforce fire and sanitation standards, though enforcement remains inconsistent amid ongoing urban migration.^[12]^[36]^[13]^[28]

Design and Construction

Building Techniques

The construction of semi-basements begins with thorough site preparation to ensure soil stability and proper integration with the surrounding terrain. Soil testing is essential, involving geotechnical assessments to evaluate bearing capacity, composition, and potential settlement risks, particularly on sloped sites where semi-basements are common to leverage natural daylight exposure.^[37] This step includes clearing vegetation, grading the site for initial drainage, and marking excavation boundaries to minimize disruption to adjacent areas.^[37] Excavation for semi-basements involves partial digging, typically to a depth of 4 to 6 feet below grade, which is less extensive than full basement excavation and often utilizes the open-cut method adapted for sloped or cantilever configurations.^[38] In this process, earthmoving equipment like backhoes removes soil selectively, leaving one or more walls partially exposed above grade, while temporary shoring or retaining walls stabilize the surrounding soil to prevent collapse during digging.^[38] Sloped grading is incorporated around the perimeter to direct surface water away, reducing hydrostatic pressure on the structure.^[37] Foundation integration ties the semi-basement directly to the main building structure through poured footings that extend below the local frost line, which typically ranges from 12 to 60 inches or more depending on the regional climate (e.g., in the US), ensuring load transfer without differential settlement.^[37] These footings are aligned with the primary foundation walls, often using stepped designs on uneven terrain to maintain level support, followed by backfilling around exposed portions to secure the assembly while preserving drainage slopes.^[37] Structural support in semi-basements accounts for the unique partial burial loads by incorporating piers or grade beams, which distribute weight from the above-grade portions to deeper soil layers and mitigate lateral earth pressures.^[39] Piers, spaced at intervals based on soil capacity, provide vertical reinforcement, while grade beams connect footings horizontally to enhance rigidity against uneven settling common in semi-buried designs.^[39] During framing, egress windows are installed in the exposed walls to meet safety requirements, allowing natural light and emergency access as a key architectural feature.^[40]

Materials and Waterproofing

Semi-basements, due to their partial burial, necessitate materials that balance structural integrity with resistance to ground moisture while accommodating above-grade exposure. Reinforced concrete remains a primary material for walls and floors in semi-basement construction, providing high compressive strength and durability against soil pressure. Typically, this involves pouring concrete around steel rebar to enhance tensile strength, forming monolithic structures that withstand the differential loads from partial embedment.^[41] Insulated concrete forms (ICFs) offer an advanced alternative, consisting of interlocking rigid foam blocks—often expanded polystyrene (EPS) or extruded polystyrene (XPS)—that serve as permanent formwork for reinforced concrete pours. These forms create continuous insulation layers, typically 2 inches thick, connected by plastic or metal ties spaced 6 to 8 inches apart, resulting in walls with superior thermal performance and minimal thermal bridging compared to traditional framing. ICFs are particularly suited for semi-basements, where they integrate seamlessly with waterproofing on below-grade portions, enhancing energy efficiency by achieving whole-wall R-values up to 10% higher than stick-frame assemblies.^[41] Waterproofing in semi-basements focuses on preventing water infiltration from hydrostatic pressure, achieved through a combination of membrane coatings, drainage boards, and sump pumps. Exterior waterproofing membranes, applied directly to foundation walls after excavation and crack repairs, form a seamless barrier using materials like rubberized asphalt or synthetic polymers, costing $3 to $6 per square foot and effectively redirecting groundwater away from the structure. Drainage boards, such as dimpled plastic sheets installed over these membranes, channel water downward while protecting the coating during backfill, ensuring long-term efficacy against soil moisture. Sump pumps complement these systems by actively removing accumulated water, with submersible models integrated into interior French drains that trench along floor edges to capture seepage, providing backup power for reliability during heavy rains. Interior applications, like waterproof masonry sealants on walls, manage any ingress at $1 to $8 per square foot but are secondary to exterior methods, which proactively mitigate pressure buildup from surrounding soil.^[42]^[41]^[43] Insulation strategies for semi-basements emphasize rigid foam boards on walls to minimize thermal bridging and control humidity from partial ground contact. Extruded polystyrene boards (2 inches thick, R-10) or expanded polystyrene (4 inches, R-15) are adhered continuously to concrete surfaces, sealed at seams to act as an air barrier and capillary break at footings, allowing inward drying while preventing outward vapor diffusion. Vapor barriers, such as sheet polyethylene placed over insulation beneath slabs, further combat humidity by blocking ground moisture migration, ensuring slabs dry upward before finishing to avoid saturation issues. These semi-impermeable foams (perm rating >0.1) suit the hybrid exposure of semi-basements, with rim joists protected by air-impermeable layers and covered by fire-rated barriers like gypsum board for safety.^[44] Sustainability in semi-basement materials incorporates recycled aggregates and permeable surfaces to reduce environmental impact and enhance water management. Recycled concrete aggregate (RCA) and waste glass cullet (WGC) replace natural aggregates in pervious concrete mixes, achieving compressive strengths of 15 MPa while maintaining permeability up to 0.375 cm/s for stormwater infiltration, thus minimizing runoff in flood-prone areas. These eco-friendly formulations, using 50% RCA and WGC, lower landfill waste—addressing over 66,000 tonnes of daily construction debris in regions like Hong Kong—and support aquifer recharge, ideal for semi-basement drainage layers or floors. Permeable surfaces from such concrete promote sustainable builds by integrating recycled asphalt pavement, reducing the carbon footprint without compromising mechanical properties like flexural strength (3.12 MPa).^[45]^[46]

Uses and Applications

Residential Applications

Semi-basements are frequently converted into habitable living spaces within residential settings, such as bedrooms, home offices, or self-contained apartments, taking advantage of their partial exposure to natural light. In urban areas of the United States, English basements—characterized by their position at street level in row houses or townhomes—serve as independent rental units, often featuring one or two bedrooms, a kitchenette, and a bathroom, providing affordable housing options in cities like Washington, D.C., and New York. These conversions typically involve finishing the interior to meet occupancy standards, including the installation of egress windows for safety and ventilation.^[47]^[48] In addition to primary living areas, semi-basements often function as utility spaces in homes, such as laundry rooms, workshops, or children's play areas, where the semi-subterranean design allows for adequate airflow and daylight to enhance usability without full excavation. This partial above-ground positioning makes these areas more comfortable for everyday tasks compared to fully enclosed basements, enabling residents to incorporate storage solutions and basic amenities like sinks or shelving. For instance, in sloped-site homes, semi-basements house mechanical systems alongside recreational zones, promoting efficient space utilization.^[49]^[10] Converting a semi-basement into a fully habitable space requires specific modifications to ensure comfort and compliance, including the addition of interior staircases for seamless access, extensions of heating, ventilation, and air conditioning (HVAC) systems for temperature control, and application of finishes such as flooring, drywall, and lighting to create a livable environment. These adaptations address challenges like moisture control and soundproofing, often involving waterproofing membranes and insulation to maintain habitability year-round. In multi-generational housing, such conversions provide separate yet connected quarters, as seen in designs where the semi-basement includes a private entrance and basic kitchen facilities.^[50]^[51] Demographically, semi-basements appeal to multi-generational households and low-income urban dwellers seeking cost-effective living arrangements. In Seoul, South Korea, semi-basement dwellings known as banjiha have long been utilized by low-income families as affordable rentals, offering compact apartments with essential amenities despite vulnerabilities to flooding. In August 2022, Seoul announced plans to phase out banjiha as residential dwellings over 10 to 20 years to mitigate flood risks, with implementation ongoing as of 2025.^[12]^[52]^[36]^[53] This usage supports extended family living or independent young adults in dense cities, historically echoing European origins where such spaces served as servant quarters.

Commercial and Utility Uses

Semi-basements in commercial architecture frequently accommodate parking facilities to meet urban density demands while preserving above-ground space for primary operations. In the Torre Lev corporate and commercial building in Mexico City, three semi-basement levels are dedicated to parking, providing an additional 20% capacity over surface areas and accessed via two dedicated car lifts integrated with a sunken courtyard design.^[54] This configuration optimizes land use in high-traffic environments, allowing seamless vehicle entry without disrupting street-level commercial activities. Utility functions in semi-basements often include mechanical rooms for HVAC systems and specialized storage, leveraging the partially subterranean position for equipment protection and noise isolation. Commercial properties such as restaurants and hotels repurpose these spaces as wine cellars to maintain optimal temperature and humidity for inventory, enhancing operational efficiency and aesthetic appeal in hospitality settings.^[55] For instance, custom wine storage solutions in semi-basements support inventory management in upscale dining establishments, where controlled environments prevent spoilage and elevate customer experiences. Institutional applications of semi-basements appear in public-facing buildings, serving as community or emergency facilities within larger complexes. The Granada Business Confederation headquarters in Spain incorporates a semi-basement level for a car park, reception vestibule, and double-height atrium that distributes access to training classrooms and an assembly hall, functioning as a hub for professional gatherings and institutional events.^[56] In multi-unit apartment complexes, basements and lower levels can be adapted as emergency shelters, offering reinforced spaces compliant with safety standards for occupant refuge during disasters, as outlined in federal guidelines for commercial and residential structures.^[57] Retail and office uses benefit from semi-basements' ground-level visibility and accessibility, enabling compact commercial setups in constrained urban plots. English basements, a variant common in historic districts, have been converted into cafes and small shops, such as the membership-based coffee shop in a Greenwich Village English basement that combines retail with community interaction through direct street access.^[58] Adaptations like integrated ramps further support public use; the Granada project features an 8% inclined ramp leading to the semi-basement car park and atrium, ensuring wheelchair accessibility and compliance with universal design principles for commercial and institutional spaces.^[56]

Advantages and Disadvantages

Benefits

Semi-basements provide notable cost savings over full basements, as they require less extensive excavation and concrete work, typically saving 10-12% on materials like concrete for the foundation and frame. In the United States, the average construction cost for a semi-basement foundation ranges from $15,000 to $25,000, depending on size and location, compared to $30,000 to $50,000 or more for a full basement.^[59]^[60]^[61] These structures enhance habitability through improved natural light and air circulation from windows positioned above ground level on at least one side, creating a more inviting and less confined environment than deep, fully underground basements. This partial exposure also reduces the risk of mold growth by minimizing dampness and promoting better ventilation, with studies showing stable microclimates with inner surface temperatures around 18°C and indoor air temperatures of 20°C in insulated areas.^[62]^[63]^[59] In terms of space efficiency, semi-basements add valuable usable square footage to a home without increasing the overall building footprint, making them particularly suitable for sloped lots where the natural terrain allows one wall to be partially exposed. This design maximizes living or storage space while integrating seamlessly with the landscape.^[64]^[65] Energy benefits arise from the partial above-ground exposure, which facilitates passive solar heating and reduces overall heating demands by 16-20% through optimized insulation and microclimate control. Additionally, the shallower depth simplifies integration with sustainable features like green roofs, enhancing thermal performance without complex modifications. Semi-basements can also offer improved seismic resistance through partial embedment, which enhances structural stability by better distributing loads from the ground, as demonstrated in engineering studies.^[59]^[62]

Drawbacks

Semi-basements, being partially buried structures, exhibit heightened vulnerability to water ingress, particularly from surface runoff during heavy rains or in areas with poor drainage. This partial exposure to groundwater and precipitation can lead to persistent dampness, mold growth, and structural erosion if not addressed, with inadequate external drainage exacerbating the risk of both gradual seepage and sudden flooding events.^[66]^[67] In humid climates, ongoing maintenance such as operating dehumidifiers and periodic inspections can incur annual costs ranging from $500 to $1,000, depending on the system's size and local electricity rates.^[68] Waterproofing measures, while essential, require regular upkeep to remain effective against these environmental pressures.^[69] The partial burial of semi-basements often results in constrained ceiling heights, typically ranging from 7 to 8 feet in buried sections, which limits spatial comfort and complicates future remodeling efforts. This design imposes restrictions on installing standard fixtures, HVAC systems, or even basic lighting without custom adaptations, potentially increasing renovation expenses and reducing flexibility for expansions like adding bedrooms or utilities.^[70] Health risks associated with semi-basements stem primarily from compromised indoor air quality due to potential radon accumulation and allergen proliferation in moist environments. Radon, a radioactive gas that seeps through soil and foundations, poses a significant lung cancer risk, with basements—including semi-basements—being prime accumulation sites regardless of ventilation.^[71] Additionally, elevated humidity fosters mold and dust mites, triggering respiratory issues, allergies, and asthma exacerbations. Accessibility challenges further compound these concerns, as low headroom and stair-only entry points hinder mobility for elderly residents or those with disabilities, increasing fall risks and limiting independent use of the space.^[72]^[73]^[74] In certain real estate markets, semi-basements are viewed as less desirable due to their moisture-prone nature and perceived lower usability, potentially reducing property values by 10-25% compared to fully above-grade homes. Buyers often factor in the costs of remediation and ongoing upkeep, leading to discounted offers or prolonged selling times, especially in flood-susceptible regions.^[75]^[76]

Regulations and Safety

Building Codes

Building codes for semi-basements vary significantly by jurisdiction, reflecting local concerns over structural stability, flood risk, and habitability. In the United States, under the International Residential Code (IRC) (2021), a basement is a story that is not above grade plane, defined as the average finished ground level adjoining the building at exterior walls. A story above grade plane has its lowest finished floor entirely above grade plane or more than 6 feet (1829 mm) above it at any point. Semi-basements may qualify as habitable if they meet minimum ceiling heights of 7 feet (2134 mm) and other egress requirements.^[77] In the United Kingdom, Building Regulations under Approved Document C (2013) require damp-proof courses and membranes to resist ground moisture in walls and floors. For basements potentially subject to groundwater, robust waterproofing systems are recommended per BS 8102:2022, regardless of specific depth thresholds like 1.2 m, which relate to storey counting in other regulations.^[78]^[79] Zoning regulations often impose additional constraints on semi-basement construction to ensure compatibility with surrounding development. Height restrictions typically cap overall building elevation, treating semi-basements as partial stories that do not exceed district maxima, while setback requirements mandate minimum distances from property lines—commonly 5 to 10 feet in residential zones—to accommodate excavation and drainage. For rental conversions of semi-basements, many U.S. municipalities, aligned with IRC Section R310, require at least one emergency escape and rescue opening per sleeping room, such as an egress window with a minimum net clear opening of 5.7 square feet, to facilitate evacuation. The permitting process for semi-basements involves rigorous inspections to verify compliance with safety standards. Local building departments conduct phased reviews, including foundation and framing inspections for structural integrity to withstand soil pressure, and ventilation assessments ensuring at least 0.5 air changes per hour in habitable spaces per international standards adapted locally. In response to 2020s flood events, such as the deadly 2022 Seoul inundations, South Korea's government enacted a nationwide ban on new banjiha (semi-basement) residential permits starting August 2022, restricting them to non-habitable uses and mandating relocation support for existing occupants to mitigate flood vulnerabilities. As of 2025, this ban remains in effect, with ongoing relocation efforts.^[29] Energy codes further regulate semi-basements to promote efficiency in partially buried environments. Under the International Energy Conservation Code (IECC) (2021), conditioned basement walls must be insulated from the top of the wall down to 10 feet (3048 mm) below grade or to the basement floor level, whichever is less, with R-values per Table R402.1.3 by climate zone (e.g., R-10ci or R-13 in Zone 4; R-15ci, R-19, or R-13 + 5ci in Zones 5-8), to minimize heat loss through earth contact.^[80]

Flood and Structural Safety

Semi-basements, being partially below ground level, are particularly susceptible to flooding during heavy rainfall or in flood-prone areas, necessitating specific mitigation strategies to minimize water ingress and damage. In the United States, the Federal Emergency Management Agency (FEMA) guidelines under the National Flood Insurance Program (NFIP) restrict basement construction in high-risk flood zones (A or V), allowing them only in moderate- to low-risk zones such as B, X, or C, where the lowest floor, including the basement, must be elevated above the Base Flood Elevation (BFE) to reduce flood risk.^[81] Elevation requirements typically mandate that the lowest floor be at least one foot above the BFE for added safety, while any enclosed areas below this level must incorporate flood vents to equalize hydrostatic pressure and prevent structural failure.^[82] To further mitigate flood risks, backwater valves are commonly installed on sewer lines in semi-basements to prevent reverse flow of wastewater during storms or sewer backups, though they must be combined with other measures like sump pumps for effective protection against seepage.^[83] Flood-resistant materials, such as concrete, pressure-treated lumber, or ceramic tile, are required by FEMA for walls, floors, and utilities below the BFE to withstand prolonged water exposure without significant deterioration, ensuring habitability and reducing repair costs post-flood.^[84] Structurally, semi-basements face lateral earth pressures from surrounding soil, which must be calculated to design walls capable of resisting these forces without buckling or shifting. Active earth pressure, often determined using Rankine's theory, acts horizontally on the walls and increases with soil depth, typically calculated as p_a = K_a \gamma h, where K_a is the active earth pressure coefficient, \gamma is the soil unit weight, and h is the depth, requiring reinforced concrete or masonry walls to counter partial burial loads.^[85] In seismically active regions like Japan, where earthquakes are frequent, semi-basement designs incorporate reinforcement such as shear walls, dampers, and base isolation systems to absorb seismic forces and prevent collapse, with building standards mandating enhanced ductility in foundation elements to handle dynamic soil pressures during tremors.^[86] Emergency safety features are critical in semi-basements to facilitate rapid escape and early hazard detection. International Residential Code (IRC) Section R310 requires at least one operable egress window per sleeping room or habitable space, with a minimum net clear opening of 5.7 square feet (for above-grade installations), a height of 24 inches, and a width of 20 inches, ensuring occupants can exit without obstruction.^[87] Additionally, smoke detectors must be installed on every level, including basements, outside sleeping areas, and inside bedrooms, as per National Fire Protection Association (NFPA) 72 standards, to provide audible alerts within 10 feet of potential fire sources.^[88] Carbon monoxide alarms are mandatory on every level, including basements and habitable attics, especially in homes with fuel-burning appliances or attached garages, to detect colorless, odorless gas accumulation in enclosed spaces.^[89] The 2022 floods in Seoul, South Korea, underscored these vulnerabilities when record rainfall inundated semi-basements known as banjiha, resulting in several fatalities (at least 9 overall, with multiple in banjiha units).^[30] In response, authorities issued immediate evacuation orders for high-risk areas and vowed to relocate families from such units, implementing stricter protocols for flood warnings and emergency access to prevent future losses.^[90]

References

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SEMIBASEMENT Definition & Meaning - Merriam-Webster
The meaning of SEMIBASEMENT is a basement that is below ground level for only part of its depth.Missing: architecture | Show results with:architecture
[2]
SEMIBASEMENT Definition & Meaning - Dictionary.com
Semibasement definition: a basement partly above ground, as in a house built on a slope.. See examples of SEMIBASEMENT used in a sentence.Missing: architecture | Show results with:architecture<|separator|>
[3]
The 4 Types of Basements and How to Identify Them
Aug 10, 2024 · Only about half the space is below ground level. Many of today's newer homes boast this type of basement as an attractive feature since they ...
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semibasement - WordReference.com Dictionary of English
sem•i•base•ment USA pronunciation n. Architecturea basement partly above ground, as in a house built on a slope. semi- + basement 1870–75.
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The Architectural History of D.C.'s English Basements - Bloomberg
Sep 14, 2021 · But in 19th century London, a new type of basement emerged underneath row houses, one that allowed people to live underground more comfortably.
[6]
The Persistence of Beauty - misfits' architecture
Jul 15, 2013 · 1) The use of a different material for the semi-basement creates a plinth for the ground floor. This different material may be used close to ...
[7]
The Hit Movie 'Parasite' Puts Basement Structures In ... - NPR
Nov 5, 2019 · "So that space depicted in the film, the semi-basement, is a bunker in a way, and it was used as a bunker in the 1970s." There's more than one ...
[8]
Parasite: The real people living in Seoul's basement apartments - BBC
Feb 9, 2020 · A surprise box office hit telling the story of a poor South Korean family living in a tiny, dark semi-basement, and a wealthy family living ...
[9]
Types of Basements
Rating 5.0 (29) It is a partially submerged space that is built below part of the house. It is not as deep as a full basement, only covering a portion of the home's footprint ...
[10]
Basement, Semi-Basement, and Lower Ground Floor Guidelines
Nov 6, 2024 · Semi-Basement: A floor partially below ground, with a portion above the surface. Lower Ground Floor: The lowest level of a building situated ...
[11]
Disaster-Prone (Semi-)Basement Houses, How Many and Where?
Jul 24, 2023 · It was observed that a majority of the casualties occurred among residents of basement (semi-basement) ... Architecture & Urban Research ...
[12]
Understanding the Different Types of Basement Foundations
Dec 17, 2021 · The main difference is ... Full basement foundations cover the building's perimeter, and the entire basement floor is submerged on a level plane.
[13]
Crawl Space vs. Basement: What's the Difference? | Angi
The biggest difference between a basement and a crawl space is that a basement is much deeper in the ground, usually between 7 and 10 feet, giving you plenty ...
[14]
The Low Down: Crawl Spaces vs. Basements
Aug 27, 2025 · One primary difference that every homeowner should know is that basements are livable spaces and crawl spaces are non-living spaces.What Is A Basement? · Crawl Space Vs. Basement... · Can A Crawl Space Be Turned...<|separator|>
[15]
Gallery of House Azure / Neo Architects - 16 - ArchDaily
Image 16 of 22 from gallery of House Azure / Neo Architects. Plan - Lower Ground Floor.
[16]
CHAPTER 3 BUILDING PLANNING - 2021 INTERNATIONAL RESIDENTIAL CODE (IRC)
### Summary of IRC 2021 Chapter 3 - Habitable Basements
[17]
2021 International Residential Code (IRC) - R404.1.4.2 Concrete ...
Wall height shall not exceed 8 feet (2438 mm). 2. Unbalanced backfill height shall not exceed 4 feet (1219 mm). 3. Minimum thickness for ...
[18]
How to Live Luxe—and With Light—in a Basement Home
Jun 13, 2018 · To do this, they inserted a set of metal steps into the front light well of the building, leading from the street to basement level. More: ...Missing: semi- | Show results with:semi-<|separator|>
[19]
What Is a Daylight Basement? Pros, Cons, and More - The Spruce
Aug 27, 2024 · Daylight basements are designed to allow more natural light into the space by having one or more full-size windows, which also increase the ventilation and ...
[20]
[PDF] HEAG277 Conserving Georgian and Victorian terraced housing
The Georgian terrace has long been regarded as. England's greatest contribution to the urban form, defining and shaping the historic character of places like ...
[21]
Context 139 - May 2015 - IHBC
Neil Burton, director of the Architectural History Practice, set the scene at the seminar by giving the history of basements in English domestic architecture.
[22]
No 1 Royal Crescent - Historic Houses
The rooms feature historic furniture, pictures and objects that reveal what life was like for Bath's fashionable residents – both upstairs and downstairs. Our ...
[23]
Period House Types - Dublin Civic Trust
Servants quarters and kitchens were housed in the basement, while the ... Aside from the doorcase, where great individuality was often displayed, Dublin Georgian ...
[24]
Basement House | History Colorado
### Summary of Basement Houses in Post-WWII North America
[25]
The Case Study houses that made Los Angeles a modernist mecca
Jan 2, 2020 · Case Study House No. 10 was designed in 1947 by Kemper Nomland. The house is built on several levels to mold into its sloping site. Recently ...
[26]
Building Housing Resilience for the Vulnerable Amid Climate ...
Jul 18, 2024 · Banjiha represents a unique facet of the ROK's historical context. It originated in the 1970s when national regulations mandated basement spaces ...
[27]
Beneath the streets of Seoul are hidden semi-basement flats known ...
Oct 21, 2022 · Banjiha rose to prominence in the 1970s, when the South Korean government pushed developers to build the partial basement spaces to act as ...
[28]
Seoul to phase out Parasite-style semi-basement flats after storm ...
Aug 11, 2022 · Authorities in Seoul will phase out semi-basement flats after three people drowned inside one of the cramped properties during record rainfall in the South ...
[29]
Seoul vows to move families from 'Parasite'-style basement homes ...
Aug 11, 2022 · Seoul has vowed to move some of the city's poorest families out of underground and semi-subterranean homes after 13 people were killed in flooding caused by ...
[30]
Hidden City - Lincoln Institute of Land Policy
Today an estimated one million people are living in subterranean apartments in Beijing, where affordable housing near employment is scarce for the greater ...Missing: partial | Show results with:partial
[31]
Subterranean home for 400 found in Beijing basement - BBC
Jun 19, 2017 · Many migrant workers and students turn to underground housing because of its cost, which according to some estimates can be as low as $20 (£16) ...
[32]
Basement living in China - CBS News
Jun 17, 2013 · Air raid shelters and basement spaces beneath apartment blocks are partitioned into rooms and rented out. Basement-dwellers, unkindly dubbed the ...
[33]
How to Build a Basement? Thorough Explanation of Costs and ...
Aug 18, 2022 · In this article, we will take a deeper look at the "basement," a special space that is not found in ordinary houses.Missing: prone | Show results with:prone
[34]
'Parasite' shines light on South Korean basement dwellers - AP News
Feb 15, 2020 · South Korean director Bong Joon-ho's Oscar-winning film “Parasite” has brought banjiha dwellers like Kim to worldwide attention, thanks to its ...
[35]
Seoul floods: 'Parasite-style' flats to be banned after deaths - BBC
Aug 10, 2022 · South Korea's capital Seoul will move to phase out semi-basement flats after two women and a teenager died during flooding earlier this week.
[36]
South Korea to ban 'Parasite'-style basement homes after deadly ...
Aug 12, 2022 · “Homes in the basements and half-basement or banjiha are backward housing models that threaten the vulnerable group of people and they must go,” ...
[37]
[PDF] GUIDE TO FOUNDATION AND SUPPORT SYSTEMS FOR ...
Mar 27, 2002 · This Huddleston basement foundation plan is designed for use under a home manufactured with an integrated floor system. An integrated floor ...
[38]
5 Common Basement Excavation Methods
Feb 4, 2022 · It starts with constructing load-bearing foundation walls and laying a concrete ground floor on top of those walls. Then, a large (often complex ...Missing: semi- | Show results with:semi-
[39]
Understanding Pier & Grade Beam Foundations
Aug 19, 2024 · Pier and grade beam foundations are a strong, stable, and flexible foundation choice, particularly suited for challenging soil conditions and flood-prone areas.
[40]
Types of Basements - SAS Services
Jun 6, 2022 · Also known as an English basement or lower ground floor, a daylight basement is divided into an above-ground space and an underground space.
[41]
Insulated Concrete Forms (ICFs) - Building America Solution Center
ICFs are typically made of pre-molded blocks or panels of rigid foam, which are assembled on site to create wall forms into which concrete is poured (Figure 1).
[42]
Basement Waterproofing 101: A Comprehensive Guide
Need to stop water from coming into your basement? Use gutters, a drainage system, and interior waterproofing to keep your basement dry.
[43]
Drainage Boards and Footing Drains | WATERPROOF! Magazine
Mar 27, 2023 · Drainage boards go on top of the spray-applied system or peel-and-stick waterproofing system. The dimpled plastic sheets come in various lengths ...
[44]
Info-511: Basement Insulation | buildingscience.com
May 20, 2009 · The foam insulation layer should generally be vapor semi impermeable (greater than 0.1 perm), vapor semi permeable (greater than 1.0 perm) or ...
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https://doi.org/10.1016/j.jclepro.2019.06.260
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https://doi.org/10.3390/ma18040770
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What Is an English Basement? - Real Estate
Jun 6, 2022 · An English basement is located on the lowest level of a building. It's a self-contained apartment unit that usually has one or two bedrooms.
[48]
English Basements | Capital Rose | Washington, DC
Rooted in 19th Century Design English basements originated in Georgian and Victorian-era England, where they served as functional lower-level living quarters.
[49]
SEMIBASEMENT definition in American English - Collins Dictionary
A basement partly above ground, as in a house built on a slope.... Click for pronunciations, examples sentences, video.
[50]
https://www.familyhandyman.com/list/25-tips-for-turning-a-basement-into-a-living-space/
[51]
Multigenerational House Plans, Two Master Suite, Airbnb
Multigenerational, lower level : The half in ground basement is also an apartment and has a covered patio, large storage room, living, kitchen, bathroom and ...
[52]
Examining Life in South Korea's Banjihas - The Borgen Project
Jun 5, 2020 · Banjihas are semi-basement apartments that exist throughout South Korea. Typically, young people end up living in these lower-rent apartments while climbing ...
[53]
Torre Lev. A corporate and commercial building with a linear ...
Oct 4, 2023 · ... semi-basement floors accommodate the high parking demand with an additional 20%, which can be accessed through 2 car lifts. Torre Lev. A ...
[54]
The Grapevine Goldmine of ROI with Wine Cellars in Commercial ...
Nov 19, 2024 · This blog post explores the myriad benefits of installing a wine cellar in commercial properties, highlighting how property investors, restaurant owners, ...Missing: semi- | Show results with:semi-
[55]
Granada Business Confederation | Muñoz Miranda Architects
As a consequence of this approach, the access floor is considered as a semi-basement storey with regard to the access floor in its alignment with external ...
[56]
[PDF] Design Guidance for Shelters and Safe Rooms - FEMA
Both standalone and internal shelters are intended to provide emergency refuge for occupants of commercial office buildings, school buildings, hospitals, ...
[57]
A Membership-Based Coffee Shop in Greenwich Village - The New ...
Oct 7, 2015 · This unusual membership-based coffee shop, which also sells art, clothes, home design pieces, and beer and wine, opened in an English basement ...
[58]
(PDF) Full-Fledged Use of Semi-Basement Space by Building ...
Full-Fledged Use of Semi-Basement Space by Building Seismic-Resistance, Energy-Efficiency,. Microclimate and Preventing Influences of Thermal Bridges and Mold ...
[59]
How Much Does It Cost to Finish a Basement? [2025 Data] | Angi
Building an unfinished basement can cost $4,000 to $37,500. A full basement build, foundation included, might run about $30 to $100 per square foot. Cost to ...
[60]
How Much Does a Foundation Cost? (2025) - HomeGuide
Sep 13, 2024 · A basement foundation costs $35 to $50 per square foot installed on average, not including finishing the interior. Most homeowners spend $52,000 ...Average foundation cost · Concrete foundation cost · Basement foundation cost
[61]
All About Basements - GreenBuildingAdvisor
Nov 14, 2014 · What about a semi-basement. What about a 4' deep foundation with a 4' stud wall on top of it to complete a lower level with the floor below ...
[62]
What is a Daylight Basement? Pros & Cons | ApartmentGuide
Feb 6, 2025 · Monitor for mold and mildew: While the natural light in daylight basements reduces the risk of mold growth compared to fully underground ...Missing: lots | Show results with:lots
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Basement Foundation: Types, Pros & Cons, and Repair Costs
Apr 4, 2025 · Reduced risk of moisture problems compared to full basements; Ideal for homes on hillsides or sloped lots. Daylight basements balance additional ...Types Of Basement... · Pros Of Basement Foundations · Cons Of Basement Foundations
[64]
Sloped Lot House Plans: Reasons to Consider a Daylight Basement
Daylight basements on sloped lots offer above-ground windows, utilize natural topography, provide easy access, are inexpensive, and offer more natural light.Missing: mold risk
[65]
Moisture in basements: causes and solutions | UMN Extension
This page briefly describes moisture sources, moisture movement mechanisms and typical basement moisture problems.
[66]
Basement Flat Risks Most Owners Miss – Moisture, Mould, And ...
Jul 11, 2025 · Inadequate drainage outside, especially with urban surface runoff, intensifies the threat of slow moisture ingress and catastrophic flooding.
[67]
Dehumidifier running costs explained - Air Conditioner Lab
Aug 5, 2025 · It will cost between $0.03 and $0.16 per hour on average to run a dehumidifier. This means it could cost between $0.72 and $3.84 a day if you left it running ...
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How Much Does Basement Waterproofing Cost? (2025 Pricing)
Oct 24, 2025 · Basement waterproofing costs around $5,228 on average, but costs can fall between $2,459 and $8,186, depending on the size of your basement and ...
[69]
Common Basement Remodeling Challenges For NJ Homeowners
Common basement remodeling challenges in NJ include moisture issues, low ceilings, and limited natural light.
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Radon and Your Health - CDC
Feb 16, 2024 · Radon can build up in the air in any home or building whether it has a basement, is sealed or drafty, or is new or old. There is no known safe ...
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The Connection Between Health and Homes - NCBI - NIH
Radon gas can enter the home through structural deficiencies such as gaps between basement walls or large cracks in the foundation, and its presence can be ...Missing: semi- | Show results with:semi-
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https://www.ncbi.nlm.nih.gov/books/NBK44199/
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Home Modifications for Seniors - Acentria Insurance
Mar 21, 2023 · Many times those who require home modifications have problems with areas such as the stairs, kitchen, bathroom, driveway and basement. These ...Missing: challenges | Show results with:challenges
[74]
How a Wet Basement Can Cost You Thousands When Selling Your ...
Jan 7, 2025 · Homes with wet basements can lose 10% to 25% of their market value. On a $400,000 home, that's a potential loss of $40,000 to $100,000! This ...
[75]
Does Basement Waterproofing Boost Home Value?
Jan 21, 2025 · Homes with wet basements potentially lose up to 25% of their value, which can be mitigated through waterproofing. Waterproofing reduces the risk ...
[76]
CHAPTER 2 DEFINITIONS - 2021 INTERNATIONAL RESIDENTIAL CODE (IRC)
### Summary of Definitions and Requirements from IRC 2021 Chapter 2
[77]
[PDF] The Building Regulations 1991 APPROVED DOCUMENT
3.8 should extend a minimum height of. 1.2 metres from the foundation (Figure 3A. ... (b) When the basement floor is 1.2 metres or less below the highest level of ...
[78]
CHAPTER 4 RE RESIDENTIAL ENERGY EFFICIENCY
1.3 requires insulation R-values greater than R-30 in the interstitial space above a ceiling and below the structural roof deck, and the design of the roof/ ...
[79]
Basement | FEMA.gov
Jul 7, 2020 · The lowest floor of a residential building including basement must be above the Base Flood Elevation (BFE). Basements below the BFE are only allowed in ...
[80]
Floodproofing | FEMA.gov
Jul 8, 2020 · It is recommended that floodproofing be implemented up to one foot above BFE for a factor of safety and to receive full credit for flood ...<|separator|>
[81]
[PDF] Basement flooding and backwater valves
A backwater valve is not a silver bullet or panacea, and must be considered in combination with a number of other mitigation measures. Suggesting an insured.
[82]
[PDF] Flood Damage-Resistant Materials Requirements | FEMA
The NFIP regulations require the use of construction mate- rials that are resistant to flood damage. The lowest floor of a residential building must be elevated ...
[83]
Earth Pressure Acting on Basement Walls - The Engineering ToolBox
Calculate lateral earth pressure acting on basement walls. 1st Floor above Ground Level. The forces that keeps the basement wall in position - the ...Missing: semi- | Show results with:semi-
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Made in Japan: Earthquake-Proof Homes - ASME
May 16, 2012 · The Japanese company Air Danshin has produced a levitation system to protect homes from earthquakes. When sensors detect the first tremors ...
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https://www.engineeringtoolbox.com/basement-wall-earth-pressure-d_558.html
[86]
Installing and maintaining smoke alarms - NFPA
Install smoke alarms inside each bedroom, outside each sleeping area and on every level of the home, including the basement. On levels without bedrooms, install ...
[87]
[PDF] Smoke & Carbon Monoxide Requirements - Mass.gov
Dec 1, 2016 · Carbon monoxide alarms are required as follows: – On every level of the residence, including habitable portions of basements and attics and ...Missing: mandatory | Show results with:mandatory
[88]
South Korea: at least eight killed as record rain falls on capital Seoul
The country's president, Yoon Suk-yeol, ordered the evacuation of residents from high-risk areas and encouraged businesses to adjust their ...