2 Design Standards: Whose Meanings?



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Design Standards: Whose Meanings?

John R. Stilgoe
A study of the changing meanings of words repays the attention of anyone interested in design standards and regulations. For instance, in an early edition of Noah Webster’s American Dictionary of the English Language (1828) the word truth had a fixity and authority about it. Webster defined it as “Conformity to fact or reality; exact accordance with that which is, or has been, or shall be.” By 1997 truth had acquired a more socially rooted definition. The Merriam-Webster Collegiate Dictionary included truth as “a judgement, proposition, or idea that is true or accepted as true.”

The American Heritage Collegiate Dictionary (2000) concurred: truth is “a statement proven to be or accepted as true.”

Thus, the American lexicography of truth suggests that truth is out there, removed from human construction, while simultaneously it lives as a creature of people who agree to believe something as true. So, too, "standard English” turns out to be something very nonstandard indeed, but rather something all too easily agreed upon by the upper middle managers of United States culture.1 It forms a useful portal not only on urban design standards and regulations, but also on their perception by various publics who read them.

Urban designers now confront the insidious impact of standard English, shaping almost the entire fabric of urban design through its shaping of the wording of urban design standards. Enacted into law or into codes having the impact of law, urban design standards by definition prove accessible to anyone, designer or layman alike. The word standard designates something much different from criterion, but urban designers almost never insist on the distinction. According to the Random House Unabridged Dictionary (2nd ed.), “a standard is an authoritative rule that usually implies a model or pattern for guidance, by comparison with which the quantity, excellence, correctness etc. of other things may be determined. A criterion is a principle used to judge the value or suitability of something without necessarily implying any comparison.” For designers, attending to this distinction would thrust them into lexicographical progress, away from divine truth as the arbiter of all. Instead they accept the contemporary understanding of truth as that upon which most thoughtful people immediately agree.

Urban design practitioners and academics frequently admit that they know nothing about the origin of certain standards, while understanding that the standards that govern public space and structure are governed by and interpreted by standard English.2 Thus, whereas late-twentieth-century urban design theory may seem at first glance a quasi-private language understood only by urban designers, any dictionary-equipped intellectual finds it not only instantly accessible, but immediately intelligible. Art historians, philosophers, and (lately) attorneys understand it with verve and sureness. Yet that language owes almost nothing to the lexicography of A Dictionary of Architecture and Building, and contemporary urban designers, unlike psychologists and other professionals, find themselves unable to convert period English, let alone classical Latin and Greek, terminology into neologisms designating new forms and concepts.3



AU: Sentence with endnote 2 edited ok?

Consequently, the entire urban design profession surrenders to an ever-growing burden of public-language-based standards never tested by urban designers and seemingly accessible to anyone beyond the design professions. In the meantime, urban designers know well that small cohorts of Americans simply ignore contemporary urban design standards and that other very large cohorts appear poised to do so. Whereas advertisers seem to have understood the existence of divergent publics and languages as early as 1910 (see Figure 2.1), only now do urban designers awaken to the staggering burden of imposed but untested standards. Historically, had a consensus been established about criteria, then a variety of standards could have been tested for their suitability. Almost no one speaks about this issue.

Applying these ideas to existing urban space and structure demands both some inquiry into the way language shapes public discourse concerning design and into the creation of deviant urban form that apparently rewards not only elite cohorts but other cohorts too. The second issue demands far more attention than the first, but in the end cannot be understood without some cursory glance at the language used by designers, theorists, critics, other intellectuals, and the educated general public.

Stairs prove a useful portal on language in the years following enactment of the Americans with Disabilities Act in 1990. Discussing stairs in public became tricky in the late 1980s and is now excruciatingly difficult.

The expressions flight of stairs and flight of steps connote far more than stair, stairway, or staircase. All three latter terms more or less denote the structure containing steps. The word flight suggests a series of steps more or less exposed to view and more or less seeming to lack underpinning (a flight of stairs with its supports deliberately masked becomes, of course, a flying stair, something most Americans know from Hollywood films about antebellum plantation houses, etc.). Until the 1980s and the advent of the argument that stairs obstruct the physically disabled, most designers and most architectural-history-educated college graduates understood stairs as a built form intended to slightly mimic the flight of birds and angels. While the mimicry might escape someone climbing a narrow attic stair, it did not escape people, especially women, descending formal interior staircases that made them appear as angels or goddesses condescending to join the humanity on a plane below. Most definitely, it did not escape people using the great open stairs of Italian and other cities, and, subsequently, fronting public buildings like the Boston Public Library. Although stairs provided short-term, everyday exercise that helped keep urban dwellers in good physical condition, they existed less for beauty and exercise than simply to move people from one level to another in a minimum of space. But everyone understood the meanings implicit in the word flight, even if they usually used staircases or elevators.

Flight scarcely designates an elevator. Elevators stand in rows or banks or ranks, but no one speaks of flights of elevators. The elevator car is ordinarily enclosed, albeit sometimes in glass, and the double doors make social entrances graceless. Like wheelchair ramps, elevators receive very little standard-English embellishment and, for that matter, figure in few paintings.

To publicly champion flights of stairs in an age of pediatric obesity, junk food, and the appalling prospect of adult-onset diabetes becoming epidemic is to endure the most virulent attack imaginable. Hate mail and worse chases anyone who points out not only the health-giving impacts of stairs but the artistic-visual-emotional surcharge implicit in the word flight. The vast preponderance of Americans, especially intellectuals snared in an ideology-based social agenda, now scorns stairs as wicked impediments to people confined to wheelchairs. That ramps not only encourage conflicts among pedestrians, bicyclists, skateboarders, and the handicapped has become something rarely discussed, and that the long-term impact of healthy people using ramps instead of stairs that provide cardiovascular exercise has been essentially unmentioned until very recently.4 Very definitely, urban design standards imposed by the Americans with Disabilities Act (ADA) evolved from too-hasty discussion and a gross failure to test draft standards against multiple criteria. Equally definitely, an amorphous group of Americans«md»and a large part of the American media«md»reject categorically that ADA standards may be egregious. Discussion of ADA-based standards has become private, a “politically incorrect” discussion confined to the corners of design-office studios and to the inner sanctums of schools of public health.

Difficulties in accessing past examples hobbles designers. Despite the best efforts of architectural historians and other scholars, few designers learn much about how earlier generations used built form of any scale, let alone consciously conceived of using it. Undoubtedly, departmental and disciplinary division within universities contributes to scholarly failure, and the demise of maverick, interdisciplinary scholars runs a close second. Most adult Americans appear to know nothing of how childhood in hot climates affects the activation of sweat glands during puberty, a simple fact of physical anthropology that lies next to the taproot of American racism.5 British colonists settling Georgia and South Carolina correctly thought Africans did better in the intense heat and humidity; but the children of both races did equally well.6 The proliferation of air conditioning across the United States masks older concerns about “seasoning,” “thin blood,” and so on, while concealing too the determined efforts of some parents to raise children free of the artificial coolness that makes adults unable to cope with extreme heat and humidity when they must.7 Perceiving air conditioning through the prism of a powerful elite preparing their children for the global-warming heat waves of the immediate future necessarily taxes scholars, most of whom lack the mix of medical, anthropological, architectural, and cultural knowledge that explains what acute scrutinizers of the American South and the Caribbean now and then note«md»upper-class white children playing outdoors in the heat, not lounging in air conditioning.8 Expecting architects, landscape architects, and urban designers to design buildings (especially schools), spaces, and cities according to anti-air-conditioning-cohort thinking is laughable.

But it is laughable only at public and quasi-public scales. Some designers know the cohort well, and design for it, away from both public-realm standard English and public-realm design standards. Falling Water not only responds to client intent, but to client willingness to stretch design standards. As architecture students eventually realize, however, Falling Water is a house designed by a genius for nonconformist clients; it is not a public building, let alone a swath of urban fabric. After architecture school young designers tweak their own living accommodation. How far they push the limits of building codes proves essentially private, although visitors to first houses sometimes remark on the stairs freed of banister and balusters in order that rooms may seem larger. Children of architects rarely fall from such altered flights of steps, or if they do, their accidents go unreported by parents willing to accept a little risk for larger benefit. But all of this is domestic experiment only, although it may in time shape the design of houses for clients willing to push parameters imposed by zoning regulations and building codes. Electric codes prove something else, however. So far as anyone knows, few designers or clients«md»even designers designing for themselves«md»deliberately flout electrical-code rules at domestic or any other scales. The electrical code is standard«md»and sacrosanct.

The National Electrical Code (NEC) is Section 70 of the National Fire Protection Code of the National Fire Protection Association (NFPA). The NEC originated in the building of a fake city. Work nearly stopped on the World’s Columbian Exposition in Chicago in 1893 when insurance companies refused to insure. The long-simmering battle between Thomas Edison and his direct-current electricity and George Westinghouse and his alternating-current power erupted in charges and counter-charges when Westinghouse won the contract to wire the Exposition. Built essentially of cheap jute fiber and plaster, the so-called White City had become a maze of electrical wiring that worried exhibitors and insurers. The latter dispatched a Boston electrician, William Henry Merrill, to review designs and construction and recommend improvements. When Exposition organizers accepted all his suggestions, insurers provided coverage.9 a nonelectrical fire in the last weeks of the fair killed thirteen Chicago firefighters, the insurance firms so valued Merrill’s advice that they backed his creation of the Underwriters’ Electrical Bureau in 1894. Whereas the Bureau at first undertook to test the safety of electrical devices, it quickly emphasized that five separate electrical codes governed United States construction, and after a series of meetings in 1896, and the sending of draft codes to 1200 experts for response, NFPA issued the first National Electrical Code in 1897.10 The Code is updated regularly, lately on a 3-year schedule.

NFPA makes clear what it expects the Code to be«md»and what the Code is not. “This Code is not intended as a design specification or an instruction manual for untrained persons,” it asserts in NEC 2002. Moreover, the Code exists only to safeguard persons and property from electrical hazards, and “compliance therewith and proper maintenance will result in an installation that is essentially free from hazard but not necessarily efficient, convenient, or adequate for good service or future expansion of electrical use.”11 The Code covers buildings and parking lots, floating buildings and recreational vehicles, carnivals and industrial substations, but not ships, railroad rolling stock, equipment in underground mines, nor the infrastructure of public utilities. The Code is lengthy, minutely detailed, and divided into sections ranging from dumbwaiters to stables to gasoline pumps to swimming pools to recreational-vehicle parks to theaters to hospitals to marinas. Almost any terrestrial, stationary built form outside the immediate control of electricity utilities and equipped with electricity beyond flashlights must be built according to the Code. To build otherwise is illegal, to create a public hazard, and to create something that cannot be insured.

Atop the Code blooms an accretion of secondary but equally significant standards. Many states have provisions beyond the Code and require designers and contractors to implement them as well. Massachusetts, for example, mandates the colors of low-voltage wiring, something about which the Code provides some latitude of choice.

Variations among states make small-scale production, like manufactured housing, particularly tricky: firms must make certain any particular manufactured house meets the specifications of the state in which it will be sold, and because state standards sometimes differ, firms cannot simply build to the most stringent standard. Large-scale production becomes equally tricky: designers of large structures and planned urban developments discover that particular states treat components like wire raceways and multiple-bend conduit differently. Local-code knowledge becomes essential in any design process, local or otherwise, and frustrates designers thinking of consigning working-drawing preparation to Pacific Rim countries or considering duplicating a successful design in another state.

In the final analysis, the National Electrical Code indeed becomes a design standard. Whereas some states provide for designers to retain consulting engineers who act as inspectors when projects prove too complex for municipal electrical inspectors, designers wishing to depart from the Code do so at the risk of lengthy appeals processes. Typically, appeals begin with intent to use materials newer than the latest Code, one reason NFPA regularly updates the Code. But some extremely traditional applications endure in the Code too. Concealed knob-and-tube wiring can now be installed only to extend existing installations or “by special permission,” but never in commercial garages, motion picture studios, theaters, and locations likely to house hazardous materials. Paired single-insulated conductors running through white porcelain insulators may well be safer than contemporary wiring, especially if the conductors are placed in metal conduit, but not for decades has the Code championed anything other than the ordinary conductors found in contemporary houses and other structures. “Special permission” means only the “written consent of the authority having jurisdiction,” however, so perhaps somewhere beyond an open-framed museum some client or designer has installed knob-and-tube service from the days of Edison, the White City, and the Underwriters’ Electrical Bureau.12 The Code accepts retrospective appeals more easily than it does innovative ones, but professionals nowadays make few wide-ranging requests for change, and public utilities make none. Utilities work exempt from the Code. Instead they maintain their own industrial association that tests equipment and establishes standards so that the fixtures on the poles are the same across the United States.

Exemption involves not only much of twentieth-century urban design history, but governs much of the future of urban design as well. Perhaps nowhere else do standards«md»not necessarily criteria«md»play such a large-scale role as in the creation of cities.

Electricity used to leak. The phenomenon was properly designated stray current or vagrant electricity through the 1920s; afterward a newer term, electrolysis, almost wholly but less than accurately replaced it. Nowadays leaking current concerns few laymen, mostly pleasure-boat owners who know that in salt water dissimilar metals produce slight electrical currents that “eat up” fasteners, propellers, even keels. But well into the 1930s electrolysis irritated property owners and city governments and played a shadowy role in city planning. Electric utilities, and especially street-railway and subway firms, generated stray current that corroded, then destroyed, underground facilities such as gas and water mains and now and then trickled into buried telephone and electric cables. “About fifteen years ago, when railway currents were discovered to be damaging underground mains, little concern was given to the matter by the railway companies,” wrote A. A. Knudson in “Remedies for Electrolysis,” a 1906 Cassier Magazine article aimed at engineers and city planners. “In fact, few would admit responsibility for such damage.”13 Only the success of legal actions aimed at banning trolley-car and subway operation forced electric traction firms to better ground their return current and to make nearly perfect the loop between overhead wire or third rail and the dynamo producing the current that otherwise strayed.

No one worries when trolley cars slosh through puddles of water salted by snow-removal chemicals, although the cars connect the 600-volt direct-current loop poles of catenary and ground rails. No one worries about walking through such puddles as a trolley car rolls through them, but once cautious people wondered. A spate of books appeared after the Knudson article. Burton McCollum’s 1916 Leakage of Currents from Electric Railways and Edgar Raymond Shepard’s 1919 Leakage Resistance of Street Railway Roadbeds and Its Relation to Electrolysis of Underground Structures examined the technical issues raised in legal treatises like Arthur F. Curtis’s 1915 Law of Electricity Including Electrolysis.14 Few historians examine the 30-year-long period following the invention of street railways in which high-voltage current strayed far and wide. Only a handful of contemporary engineers speak much about the contemporary urban cohabitation of direct- and alternating-current loops, the direct current powering light-rail vehicles rolling through puddles, and the alternating current powering everything else but cell phones.15 But any historian who examines the period cannot avoid wondering if something more insidious than noise drove elite families away from new trolley-car lines and in time caused certain businesses to relocate too.16 (See Figure 2.2.)


Electricity strays through the air too, and magazines aimed at the educated general public published eerie stories about the straying, usually lifted directly from professional journals. In 1923 Literary Digest reprinted an article from Western Machinery World detailing events inside a restaurant opened adjacent to a Manhattan electric substation. The stray current swiveled tableware, magnetized pots to stoves, and turned plated tableware black. Grounded steel plating eventually solved the problem, and no one wondered (in print) about short- or long-term health consequences.17 But broadcast radio had already spawned fears of crude electromagnetic fields: Twenty years after wireless telegraphy arrived in the United States, observers of urban landscape had begun to realize the frequency with which radio stations located transmitters adjacent to marshes, especially salt marshes. If the antenna and coil of a radio could receive signals that passed through walls (and through the bodies of children huddled around radios receiving The Lone Ranger) what else was a wired house but a vast concatenation of copper wire that might electromagnetize its occupants? Despite their guffaws, experts realized that not everyone worrying might be dismissed as Luddite.

As early as 1913, a Literary Digest article warned readers of the relative dangers of alternating and direct current, and subsequent articles focused on high-tension-line stray electricity.18 But by the late 1920s most general-audience articles had devolved to warnings about never touching live wires and always hiring electricians. Yet special-interest journals by then had just begun reporting unnerving findings. In 1930 Science reported that years earlier two General Electric Company researchers had discovered the elevation in body temperature of men working around short-wave radio transmitters and had begun a controlled experiment that subjected 25 GE employees to fever-inducing electric fields.19 Nothing of such research seems to have entered the public imagination, let alone altered urban design, say in regulations governing the siting of 50,000-watt commercial radio stations. But just as early nineteenth-century New York dispatched tanneries and gunpowder makers to the New Jersey meadowlands, then dispatched chemical and oil refineries, so somehow the meadowlands sprouted the first of the countless antennae that defy counting by Amtrak passengers today.

Only very recently have architects begun exploring the consequences of stray current, but to their credit their interest quickly followed articles appearing in Nature, The Ecologist, and other journals.20 In a 1991 Architectural Record entitled “What’s Zapping You?” James S. Russell examines the design and public policy issues originating in the reemergence of deep concern about current straying from high-tension electric wires, microwave antennae, and portable devices like cell phones.21 Although a handful of researchers have never stopped inquiring into stray electricity (the United States Bureau of Radiological Health published a most intriguing study on microwave ovens in 1969, for example) any scholar looking backward wonders at the urban design implications of the bifurcated electrical codes and at varying responses across a wide range of groups.22 For example, by the late 1970s, the American automobile industry feared that stray electricity, chiefly in the form of urban electromagnetic fields, might make automobile microprocessors malfunction and cause wrecks.23 Yet no overarching studies guide urban-design-focused researchers, especially those intrigued by the difference between standards and criteria.

The present patchwork of electromagnetic criteria not only mask the simple fact that criteria for alternative technologies were not discussed, let alone evaluated, in the past, but that contemporary criteria often evolve from those accepted by majorities of early-era experts. Trial-and-error techniques, not rigorous testing, produced guidelines that early professional organizations accepted by majority vote and that successor groups continue to fine tune. However hard to believe, neither the National Electrical Code nor the several practices followed by regulated electrical utilities originated in tests. They are not criteria in any way eighteenth-century readers of Johnson’s Dictionary might understand, for they have been tested in no particular ways, and most certainly not against divinity. They improve largely through invention and research and discovery of error, but not through trial. Despite assertions to the contrary, they comprise design standards in ruthless ways architecture-school graduates learn upon entering the real-world studio. Something as simple as the routing of three-phase alternating current governs real estate investment and even zoning, and although electric utilities can route power anywhere, they do so only when assured of near-future profit.24 Yet few analysts of urban design focus on the juicy mix of technical standard and political power that creates the urban fabric, and almost no scholar examines the private response to seemingly ubiquitous electrical standards.

How people respond privately to electricity-based issues rewards sustained scrutiny. At one level, the response shapes urban and suburban design. Many educated Americans will not buy houses adjacent to the high-tension electric lines that interfere with car-radio signals, and developers act accordingly.25 The reality or fantasy of health hazards is not important to analysts of urbanization: what matters is the impact. At another level, the sensitivity of some people, perhaps especially children, to stray electricity may surface in an unconscious response like attention deficit; in half-conscious insistence that something is wrong with a particular, usually indoor environment; or, more rarely«md»perhaps because so rarely verbalized«md»in a conscious dislike of electrified structures.26 Why some people like to camp, boat in traditional vessels, hunt, hike, or embark on eco-tourist trips sometimes involves a conscious willingness to escape the sound of alternating electricity; sometimes this is but a half-conscious desire. Some concert musicians loath the hum of alternating current electricity. Hyper-auditory people may be unable to function in urban locales, but many others simply need quiet«md»what sort of quiet remains unstudied. Such people necessarily seek out nonurban locations: as the NEC makes clear, even parking lots and parks are now electrified, and people attempting to escape the 50 to 60 Hz hum of electricity find few places in a city free of it. Now and then they encounter urban buildings severed from electricity, and they notice not only the lack of electricity, but the onset of a feeling of well-being.27 Certainly some adults wake from sleep when electricity service fails, and although the sudden silence of household appliances may account for some waking, others report that the sudden silence of the ubiquitous hum jars them awake. People who explicitly understand that a 4-week vacation on a Maine island reinvigorates and re-creates in part because the island lacks electricity raise extraordinary questions for human ecologists, however, because such people often make clear that the hum of alternating current is only part of a larger concatenation of irritation they escape on vacation.28

Designing for people annoyed by electricity can mean simply replacing alternating current with direct current, but it can also mean designing a house minus electrical service.29 The first is manageable under the NEC and companion codes, if expensive; the second is easy under the NEC but practically impossible under most building and zoning codes. If one searches for an electricity-free structure, one must look far into rural or wilderness America, among people who call themselves off-gridders, or else cruise the Maine islands in summer after sundown and note the houses lit by candles, gas, and kerosene and occupied by established wealthy families vacationing from electricity. People opposed to continuous surrounding by electricity prove to be as elusive to scholars as opportunistic nudists or those comfortable in thrions on a hot day. Just as the naked often know much about comfort without air conditioning (including hot-weather eating and sleeping techniques), so the off-gridders raise vexing issues not only about the subconscious appeal of places like Machu Picchu and other nonelectrified urban ruins, but about the ability of scholars to understand forces governing urban design and the rejection of urban design, let alone the creation and adoption (official and otherwise) of urban design standards.30 Most importantly, however, private behavior forces scholars to confront the tortuous difficulties implicit in reconstructing the making of urban design standards.



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