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Helm Wind

The Helm Wind is a strong, cold, north-easterly wind unique to the western slopes of the Cross Fell escarpment in the North Pennines of Cumbria, England, where it descends with great force into the Eden Valley, often reaching hurricane speeds and lasting from hours to weeks.^[1]^[2]^[3] It is England's only named local wind, arising as a föhn-type lee wave when stable north-easterly airflow, perpendicular to the 600-meter-high escarpment, generates turbulent downslope conditions.^[1]^[2] This phenomenon is visually marked by the Helm Cloud, a stationary cap of lenticular cloud forming over the Cross Fell summits, and the Helm Bar, a distinct roll cloud or turbulent air layer appearing 3-4 miles downwind, beyond which the wind abruptly ceases, creating a sharp boundary of calm.^[1]^[2]^[4] The wind's intensity stems from the topography, where air cools and accelerates over the ridge before warming and drying rapidly on the leeward side, producing a continuous roar akin to distant thunder and gusts capable of overturning livestock, damaging crops, and disrupting travel.^[3]^[4] It typically occurs in late autumn through early spring under specific stable atmospheric layers about 600 meters above the peaks.^[1]^[2] Historically documented since at least the late 18th century in local accounts and county histories, the Helm Wind has been the subject of scientific inquiry, including expeditions by the Royal Meteorological Society in the 1880s and detailed analyses by climatologist Gordon Manley in the 1930s, which confirmed its wave-like mechanics through instrumental observations.^[2]^[4] Culturally, it holds deep significance in the region's folklore, with the name deriving from the Old English "helm" meaning helmet, alluding to the cloud formation; locals have long viewed it as both a harbinger of harsh weather—linked to ailments like rheumatism—and a purifying force, though it has caused economic hardship for farmers by desiccating fields and isolating communities.^[2]^[3]

Overview

Definition and Characteristics

The Helm Wind is a strong, cold, north-easterly katabatic wind that descends the western slope of the Cross Fell escarpment in Cumbria, England, into the Eden Valley, recognized as the only named wind in the country.^[5] It is classified as a föhn-type wind due to its downslope acceleration, but unlike typical warm föhn winds, it remains cold due to its origin in frigid north-easterly airflow, even with adiabatic warming during descent.^[6] Key characteristics include gusts reaching 80–96 km/h (50–60 mph) at the summit, with the wind exhibiting a sudden and dramatic onset followed by equally abrupt cessation, often shifting without warning.^[5] The wind is dry and desiccating, carrying dust and debris, and is accompanied by a distinctive roaring sound resembling thunder or a distant storm, audible from miles away.^[6] It is frequently associated with the stationary Helm Bar, a low cloud formation marking the wind's boundary.^[5] The phenomenon typically persists for several hours to days, though instances lasting up to weeks have been recorded, and it occurs most frequently during late autumn, winter, and early spring, with peak reports in March and April but appearances possible year-round except midsummer. Recent occurrences include one documented in October 2025.^[6]^[7]

Location and Geography

The Helm Wind occurs primarily on the western slopes of Cross Fell, the highest peak in the Pennines at 893 metres (2,930 feet), located in Cumbria, northwest England.^[6]^[8] This wind descends the steep escarpment of Cross Fell, which drops approximately 600 metres to the valley floor, channeling airflow down the southwest-facing slope.^[6]^[9] The surrounding region forms part of the North Pennines Area of Outstanding Natural Beauty, characterized by upland moorlands and dramatic elevation contrasts.^[10] The wind's influence extends into the flatter Eden Valley below, typically reaching 2 to 3 miles (3 to 5 kilometres) from the base of the fell before dissipating.^[6]^[8] This creates a distinct topographic boundary, with the rugged, elevated fells rising sharply above the more level, fertile valley landscape used for agriculture.^[8] The phenomenon is confined to a narrow corridor along the western edge of Cross Fell, rarely affecting areas beyond the towns of Penrith to the southwest or Appleby-in-Westmorland to the east.^[8] Seasonally, the Helm Wind is most prevalent in late winter and early spring, when persistent snow cover on the fells amplifies its chilling effect through enhanced wind chill on exposed surfaces.^[8]^[1] The steep escarpment of Cross Fell contributes to the wind's intensity by accelerating downslope flow, though its full dynamics depend on specific atmospheric conditions.^[6]

Formation

Meteorological Conditions

The Helm Wind develops under specific synoptic conditions characterized by a prevailing north-easterly airflow directed nearly perpendicular to the southwest-facing escarpment of the Cross Fell range in the North Pennines. This airflow typically arises from a high-pressure system positioned over or to the north of Scotland, often extending from the North Sea region, coupled with a low-pressure area to the south of England, which strengthens the pressure gradient and drives easterly to north-northeasterly winds across the country. These conditions ensure the wind impinges directly on the ridge, setting the stage for localized intensification without requiring extreme broad-scale weather systems. A key prerequisite is a stable air mass featuring a temperature inversion, typically situated approximately 600 meters above the summit of Cross Fell at around 893 meters elevation. This inversion layer caps the atmosphere, promoting the formation of standing waves as the air flows over the terrain and channeling the flow through a relatively narrow vertical gap, which enhances downslope acceleration on the leeward side. Wind speeds aloft at ridge level must exceed force 4 on the Beaufort scale (approximately 30-50 km/h or 20-30 mph) to initiate the phenomenon, with a minimum of force 3 (about 20 km/h) observed at lower elevations such as Tynemouth to indicate sufficient regional momentum. The setup often involves a strengthening pressure gradient, sometimes associated with the passage of a cold front that reinforces the northerly component and leads to a sharp temperature drop on the leeward slopes. Sky conditions typically feature clear skies to the east of the fells (upwind), contrasting with cloud development along and immediately west of the range (downwind), which delineates the wind's abrupt lateral boundaries. Historical records indicate the Helm Wind occurs several times per winter, with 93 documented instances from 1871–1884 averaging about 7 per year, though frequency varies by season and year, peaking from November to March due to the prevalence of stable, cold air masses during winter.^[6] It is rare in summer months, as warmer conditions foster atmospheric instability that disrupts the necessary inversion and wave formation.

Mechanism and Dynamics

The Helm Wind is a cold föhn-type wind generated by the acceleration of stable north-easterly airflow as it ascends the escarpment and descends the leeward slopes, with contributions from orographic wave dynamics and katabatic forcing. Cold air from the eastern (windward) slopes cools further as it flows over the ridge before accelerating downslope into the Eden Valley, where wind speeds can reach 50-60 mph (80-97 km/h) as the air funnels through the narrow topography.^[11] Unlike warmer foehn winds, the Helm remains cold due to limited adiabatic compression and mixing, preserving the low temperatures from the upland source region.^[1] Orographic influences further shape the dynamics through the formation of lee waves, as north-easterly airflow ascends the escarpment, creating standing atmospheric waves on the leeward side via orographic lift.^[11] These waves manifest as a turbulent downslope component, where wave breaking generates rotor circulations and enhances the Helm's gusty nature, with the wind acting as the surface expression of this föhn-like but cold regime. The stable temperature inversion layer, often extending up to 600 meters above the 893-meter summit, traps wave energy and amplifies the downslope momentum without significant vertical mixing.^[11] Turbulence in the Helm Wind stems from interactions between the accelerating flow and the irregular escarpment, producing eddies and shear zones that contribute to its violent, pulsating character. Airflow continuity plays a key role in this acceleration, governed by the principle A_1 V_1 = A_2 V_2, where the cross-sectional area A narrows downslope, proportionally increasing velocity V as the air is compressed into narrower channels below the ridge. This hydrodynamic focusing, combined with topographic channeling, sustains the wind's intensity over a narrow 10-15 km belt in the valley. The phenomenon's hydrological aspects emphasize minimal moisture advection, as the cold, descending air remains dry due to prior extraction of precipitation on the windward slopes, contrasting with the evaporative drying seen in warmer föhns. This aridity enhances atmospheric stability and limits cloud formation beyond the initial orographic cap, focusing energy on mechanical turbulence rather than latent heat release.

The Helm Bar

Description

The Helm Bar is a distinctive, narrow roll cloud, often classified as a rotor cloud, that forms stationary and parallel to the crest of the Cross Fell ridge in the North Pennines during episodes of the Helm Wind. Visually, it manifests as a thick, elongated band of dark, turbulent vapor—cigar- or sausage-shaped—with ragged edges and internal writhing motion that gives the appearance of gentle rolling or spinning, yet remains fixed in position despite the agitation within.^[1]^[2]^[12]^[13] This cloud typically develops at altitudes around 800–900 meters, aligned with the summit level of Cross Fell at 893 meters, and extends westward along the ridge for several miles, creating a prominent feature visible from afar across the Eden Valley below. Its formation several miles downwind from the ridge foot marks it as a reliable harbinger of the approaching Helm Wind.^[12]^[2] Sensory experiences associated with the Helm Bar include a persistent auditory cue: a deep, continuous roar emanating from the intense wind shear and turbulence directly beneath the cloud, likened to distant thunder, a stormy sea, or the relentless hum of factory machinery.^[2]^[3]^[12] The cloud endures throughout the active phase of the Helm Wind, which may persist for hours to several days, but it breaks up and dissipates swiftly—often within minutes—once the prevailing wind conditions subside.^[1]^[12]^[2]

Formation and Relation to Wind

The formation of the Helm Bar is closely tied to the dynamics of lee waves generated by north-easterly winds flowing over Cross Fell. As stable air is forced upslope and over the ridge, it descends on the leeward side, creating a standing wave pattern in the atmosphere. The Helm Cloud is a lenticular cloud forming at the wave crest over the ridge, where air parcels rise and cool adiabatically to the dew point, triggering condensation; this is enhanced by the stable stratification that prevents vertical mixing. The Helm Bar, as a rotor cloud, forms in the turbulent rotor circulation associated with the downstream trough. Below the crest, in the subsiding trough, the air warms adiabatically, reducing relative humidity and evaporating any cloud droplets, resulting in a clear zone beneath the bar.^[14]^[15] The Helm Bar serves as a critical boundary in the wind regime associated with the Helm Wind. It demarcates the edge of turbulent downslope flow, where the strong, gusty north-easterly winds emerge from beneath the eastern side of the cloud, accelerating due to the descent and topographic channeling. West of the bar, the air enters a zone of relative calm or light westerly breezes, as the rotor circulation beneath the cloud induces subsidence that suppresses surface turbulence. This sharp transition highlights the bar's role in confining the Helm Wind's intensity to the eastern slopes of the Eden Valley.^[14]^[16] Atmospheric stability is essential for the Helm Bar's persistence, requiring a layer of laminar flow aloft that transitions to turbulent rotor motion downslope. A temperature inversion, often around 600 meters above the summit, acts as a capping mechanism, trapping colder air below and amplifying the wave amplitude; the cloud itself functions as a "lid," further stabilizing the system by releasing latent heat during condensation, which reinforces the inversion. Without this stable configuration, the waves dissipate, preventing bar formation.^[15]^[17] Observational evidence underscores the stationary nature of the Helm Bar, attributed to balanced wind shear in the lee wave system. Historical records from the Royal Meteorological Society, spanning 1871–1884, documented 93 instances of the phenomenon, with detailed measurements confirming its position approximately 1–6 km west of the foot of Cross Fell and its immobility during events lasting hours to weeks. Modern glider pilot reports and general lee wave studies, including those over similar topography, corroborate this through encounters with persistent updrafts and rotor turbulence, while radar observations of analogous mountain wave clouds affirm the shear-driven equilibrium that maintains the bar's form.^[15]^[16]^[14]

History

Early Observations

The earliest documented references to the Helm Wind appear in late eighteenth-century county histories and newspapers, where it was described as a violent, localized phenomenon affecting the Eden Valley. In 1777, Joseph Nicolson and Richard Burn characterized it as a "violent roaring hurricane… tumbling down the mountain," noting its capacity to damage crops and livestock in parishes such as Dufton and Milburn.^[18] By 1794, William Hutchinson reported the wind's accompanying cloud formation as having an "awful and solemn appearance," linking it to sudden blasts that disrupted local agriculture and travel.^[18] These accounts, drawn from parish-level observations in the North Pennines, highlight the wind's reputation for "dreadful blasts" that could scatter sheep and flatten harvests, as recorded in regional guides for Cumberland and Westmorland.^[15] The name "Helm Wind" alludes to the distinctive stationary cloud cap resembling a helmet that forms over Cross Fell during events, reflecting its deep roots in the linguistic heritage of the Eden Valley, where locals referred to it as a harbinger of fierce gales in folklore traditions.^[18] In the early nineteenth century, clerical observers provided more detailed eyewitness descriptions. Around 1830, Rev. William Walton depicted the wind as producing a "loud noise, like the roaring of distant thunder," capable of stripping roofs from homes in Dufton and endangering livestock.^[15] By 1838, Rev. J. Watson elaborated on its persistence, noting it could blow "morning, noon and night, for days together" with a continuous roar resembling "a large cotton mill," impacting villages including Milburn, Kirkland, Ousby, and Melmerby; he drew on local meteorological logs to illustrate its horizontal whirlwind-like behavior.^[18] Nineteenth-century records indicate the Helm Wind occurred with notable regularity, particularly in winter and spring, based on farmer diaries and early meteorological compilations from the Eden Valley. These pre-twentieth-century observations emphasized the wind's abrupt, destructive effects on rural life, from uprooted haystacks to perilous conditions for travelers, without venturing into systematic scientific explanation; for instance, structural damage like unroofed buildings was reported near Dufton in 1858–1859.^[18] Broader analyses of farmer-maintained diaries and parish notations, along with Royal Meteorological Society tallies, identified approximately 7 occurrences annually in the late nineteenth century, with 93 instances between 1871 and 1884 and peaks in March and April, underscoring its seasonal predictability despite irregular intensity.^[15]

Scientific Studies

Scientific studies of the Helm Wind began in earnest during the 1930s with investigations led by Gordon Manley of the Meteorological Office, who classified the phenomenon as a type of rotor wind driven by standing lee waves over the Cross Fell escarpment. Manley's observations from 1937 to 1939, detailed in his 1945 analysis, interpreted the wind's dynamics through hydrodynamic principles, noting the formation of turbulent rotors beneath the lee wave crests that amplified downslope gusts. These early efforts established the Helm as a classic example of orographic airflow disruption, distinct from broader synoptic winds.^[11] In the mid-20th century, glider pilot observations provided empirical validation of Manley's model, with flights in 1939 demonstrating sustained lift in the wave system, indicating vertical amplitudes capable of supporting gliders to heights exceeding 500 meters above the terrain. From the 1970s onward, automated weather stations at Moor House, near Cross Fell, have recorded anemometer data during Helm events, capturing peak gusts often surpassing 50 m/s (approximately 112 mph) and highlighting the wind's intermittent intensity tied to stable atmospheric layers; modern records confirm gusts up to 60 m/s (134 mph) in the early 21st century. These instrumental records, spanning 1974–1987 and beyond, offer long-term quantitative insights into frequency and variability, underscoring the rotor's role in extreme turbulence.^[19]^[11]^[20] Modern research from the 1980s to 2000s employed numerical modeling to further elucidate lee wave amplification, with simulations over the Pennines confirming that topographic forcing enhances wave amplitudes under strong easterly flows perpendicular to the escarpment. These efforts addressed gaps in understanding by differentiating the Helm from similar phenomena like the Wasdale Gale, attributing its persistence and severity to the unique north-south alignment and unbroken 600-meter escarpment of Cross Fell, which promotes resonant amplification absent in more fragmented Lake District terrains.^[21] A 2014 study integrated local knowledge with meteorological data, revealing how historical farmer and shepherd observations complement instrumental records to refine models of the Helm's onset and duration, emphasizing its hyper-local dependence on inversion layers over the Eden Valley. While post-2010 advancements in remote sensing, such as lidar, have mapped turbulence in analogous rotor systems elsewhere, their application to the Helm remains limited as of 2025, highlighting ongoing needs for site-specific validation amid the wind's infrequency.^[2]

Folklore and Local Beliefs

In local folklore, the Helm Wind has long been associated with supernatural forces. The mountain was formerly known as Fiends Fell, believed to be the abode of demons, and its modern name Cross Fell is said to derive from a bishop's attempt to lessen the wind's demonic powers by erecting a cross on the summit.^[3] One prominent tale portrays the Helm Wind as a harbinger of upheaval, credited with toppling a Norman army during William the Conqueror's era by knocking cavalry from their horses and aiding an Anglo-Saxon victory, underscoring its role in local narratives of divine or fateful intervention.^[13] Communities in the Eden Valley historically viewed the wind with a mix of fear and reverence, avoiding travel across the fells during its roar due to the considerable dangers posed by sudden gusts and poor visibility.^[18] Farmers and shepherds heeded these warnings to protect livestock and crops from the wind's destructive force, which could uproot trees and scatter haystacks, integrating such precautions into daily weather lore.^[18] Socially, the Helm Wind occupied a dual role in perceptions of health and environment; its dry, forceful air was sometimes regarded as a purifier that invigorated the body, yet it was also blamed for exacerbating ailments like rheumatism through exposure to cold downdrafts.^[18] This ambivalence reinforced community bonds, as shared testimonies of its omens—likened to a "breath" signaling broader atmospheric changes—fostered collective vigilance and oral exchanges about its unpredictable nature.^[18] By the 19th century, Enlightenment-driven scientific inquiries, including instrumental measurements by figures like Reverend William Walton, began to erode superstitious interpretations, reclassifying the wind as a meteorological event rather than a demonic force.^[18] Despite this shift, elements of folklore endured in rural oral traditions, preserving the Helm's mythical aura even as formal education diminished overt beliefs.^[18] The wind's distinctive helmet-like cloud formation further embedded these stories, evoking imagery of ancient warriors or spectral guardians over the Pennines.^[18]

In Literature and Media

The Helm Wind has inspired literary depictions that emphasize its role as a formidable and almost sentient force in the Pennine landscape, often drawing on regional folklore to evoke a sense of awe and peril.^[22] In poetry, it appears in Tom Pickard's works, where the wind drives sleet through an attic room, symbolizing isolation and introspection amid the harsh northern environment.^[23] Earlier historical accounts in geographical guides from the 19th century alluded to Pennine gales akin to the Helm, portraying them as destructive yet purifying elements in the local terrain.^[22] Novels have featured the Helm Wind as a supernatural or atmospheric element, such as in Ethel Butler's 1970 romance Night of the Helm Wind, where it heightens the drama of rural life in Cumbria.^[24] Modern thrillers and literary fiction continue this tradition; Sarah Hall's 2025 novel Helm personifies the wind as a mischievous, timeless entity—part god, part demon—that interacts with human stories across centuries, using its ferocity for building suspense and exploring cultural fears.^[25] Media coverage has brought the Helm Wind to wider audiences through documentaries and adaptations. The BBC's 2010 program Wild Weather: Cumbria's Helm Wind examined its destructive power, including accounts of it uprooting structures and scattering livestock.^[26] More recently, BBC Radio 4 serialized Sarah Hall's Helm as Book at Bedtime in 2025, with episodes delving into its historical and emotional impacts.^[27] A 2025 Substack article, "Deep in the Helm," further explores its enduring cultural fear factor, linking it to inspirations in literature and science.^[20] Artistic influences include paintings capturing the moody, turbulent skies associated with the Helm, such as John Atkinson Grimshaw's Victorian-era nocturnal landscapes of northern England, which evoke the wind's eerie atmosphere through misty, wind-swept scenes.^[28] In contemporary media, weather-themed films like the BBC's The Pennine Way series (2015) highlight the Helm as a challenging element along the trail, blending documentary footage with explorations of regional lore.^[29] Short films such as Rosa Prosser's Touching the Helm (2024) immerse viewers in the wind's presence, portraying it as a visceral, almost alive phenomenon unique to the North Pennines.^[30]

Impacts

Weather and Environmental Effects

The Helm Wind, a strong north-easterly katabatic wind descending the western slopes of Cross Fell in the Pennines, induces adiabatic heating during descent, warming the air in the Eden Valley by up to 14°F (approximately 8°C) compared to the summit, though the overall wind remains cold due to its northerly origin.^[15] This effect can still exacerbate frost conditions in the valley under certain atmospheric setups, with recorded summit temperatures as low as 29°F (-1.7°C) during gales in early spring, creating bitterly cold conditions that persist for hours to weeks.^[2] In winter, the combination of these low temperatures and high wind speeds results in severe wind chill, intensifying cold stress on the local environment.^[1] Regarding precipitation, the Helm Wind contributes to drier conditions on its lee side in the Eden Valley by compressing and warming the descending air, which suppresses cloud formation and rainfall in the immediate downslope area, contrasting with the wetter uplands of the North Pennines that receive enhanced orographic precipitation.^[15] However, when accompanied by frontal systems, it can trigger heavy snowfalls and drifting snow over the escarpment, leading to temporary accumulations that alter local moisture patterns.^[2] Ecologically, the Helm Wind exerts stress on upland vegetation, particularly heather moorlands and grasslands on the Cross Fell slopes, by desiccating foliage and shriveling spring growth through intense drying and abrasion, which can blacken grass and damage emerging shoots.^[2] While it aids in seed dispersal by scattering propagules across the landscape, the forceful gusts—reaching severe levels—often damage young trees and shrubs in exposed areas, limiting forest regeneration on the escarpment.^[15] Over the long term, the Helm Wind enhances microclimate variability in the region, with its frequent occurrences—documented up to 93 times between 1871 and 1884—fostering distinct wetter, cooler upland conditions versus drier valleys, as evidenced by historical meteorological records.^[15] A Helm Wind event was observed in March 2024, demonstrating continued impacts on local weather patterns.^[31] This variability promotes soil erosion on slopes through repeated surface scouring and material transport, contributing to landscape denudation and altered sediment patterns in the Eden Valley.^[2]

Effects on People and Economy

The Helm Wind poses significant safety risks to people, particularly travelers and outdoor enthusiasts in the Cross Fell region. Historical accounts describe individuals being blown from horses or having carts overturned by its gusts, leading to injuries from falls or collisions.^[2] In modern contexts, hikers on the Pennine Way, which crosses Cross Fell—the highest point in the Pennines at 893 meters—are advised to carry detailed maps, compasses, and protective gear due to the wind's sudden onset, often accompanied by low cloud, mist, and hypothermia risks.^[32] Mountain rescue teams, such as Penrith MRT, report frequent callouts in the area, including cases of navigation errors and exposure during Helm events, though specific fatalities directly attributed to the wind remain undocumented in available records.^[32] Agriculturally, the Helm Wind causes substantial damage to crops and livestock, exacerbating vulnerabilities in the rural Eden Valley and surrounding farms. It flattens or "beats" grain, grass, and leaves, turning them black and disrupting harvests, a concern noted since the 19th century when the wind was most feared during sowing and reaping seasons.^[2] Livestock, particularly sheep, suffer from being scattered or blown into valleys and gullies, with additional losses from snow drifts pushed by the gales that bury animals or prevent feeding.^[2] Such incidents have historically led to economic strain on shepherds and farmers, with vegetation and young plantations also destroyed, as seen in accounts of a 150-yard-wide commercial forest leveled in 1863.^[2] Infrastructure in the affected areas experiences notable strain from the wind's force, which can reach 134 mph, as recorded at Great Dun Fell in 1968.^[26] Roofs are frequently unroofed or displaced up to 50 yards, while stone walls, barns, and haystacks are toppled, requiring costly repairs.^[2] Power outages occur during severe episodes due to downed lines, and events in the region face disruptions from strong winds, complicating travel and activities.^[2] Economically, the Helm Wind's intermittency—occurring several times yearly, with 93 documented events between 1871 and 1884—prompts adaptations in the region.^[2] Positively, the consistent strong winds highlight renewable energy potential, with nearby sites like the Lambrigg Wind Farm (6.5 MW capacity) harnessing the Pennines' gusts, despite challenges from the wind's variable nature.^[33]

References

[1]
Helm Wind | weatheronline.co.uk
The helm wind is basically a föhn-type lee wave caused by a prevailing north-easterly flow, blowing at a more or less right angle to the Cross Fell Range. The ...
[2]
Knowing weather in place: the Helm Wind of Cross Fell
The Helm Wind is a true 'local' wind, being a product of the very particular landscape and weather conditions found in the area around Cross Fell, the highest ...
[3]
Histories: When the helm wind blows | New Scientist
May 11, 2005 · WHEN the helm wind blows, always from the east, it plummets with devastating force down what was once known as the Fiend's Fell – the highest ...<|control11|><|separator|>
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A few remarks on the helm wind | Abstracts of the Papers Printed in ...
A remarkably violent wind occasionally prevails, blowing with tremendous violence down the western slope of the mountain, extending two or three miles over the ...
[5]
[PDF] the Helm Wind of Cross Fell - The University of Liverpool Repository
As a product of the particular landscape found at Cross Fell, the Helm is a true local wind, and a phenomenon that has come to assume great cultural as well as ...
[6]
[PDF] The Helm Wind of Cross Fell - MetLink
The highest frequency was found in March and April, but Helm events were reported in all months of the year except July. Using the daily weather charts, the ...Missing: Cumbria frequency characteristics
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May 3, 2017 · It's called the helm wind, and it is a blustery north-easterly that blows down the western slope of the Cross Fell, the highest peak in the Pennine Hills.<|control11|><|separator|>
[9]
[PDF] Geodiversity Audit - North Pennines National Landscape
This belt of. Ordovician and Silurian rocks is generally known by geologists as the Cross Fell Inlier. A variety of rock types within this area can be ...
[10]
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Two years' study of the Helm Wind of the N. Pennines has led to certain conclusions, based on reconnaissance methods and direct observations, with which the ...
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I a mountain range. The name originated in the Alps and was probably
WHAT IS A FOEHN? By W. A. R. BRINKMANN. Institute of Arctic and Alpine ... (Brinkmann 1970). PROBLEMS OF DEFINITION. One important step in the scientific ...
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On that side, Crossfell descends with great steepness to the rich Eden valley, which, in warm weather, becomes a regular hothouse. ... wind literally precipitates ...
[13]
Weatherwatch: The rolling clouds of the wind that shook the Normans
Apr 21, 2013 · And several miles away in the valley below, a long roll of cloud called the "Helm Bar" can also appear, gently spinning like a rolling pin.
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[15]
(PDF) The Helm Wind of Crossfell - ResearchGate
The climate of the North Pennines is temperate, with a small area classified as subarctic (Manley, 1936). The hills generally receive more precipitation, ...
[16]
EARLY OBSERVATIONS OF ROTOR CLOUDS BY ... - AMS Journals
cloud formations associated with the helm wind consist of a helm(et) cloud over the high peaks, a horizontal slim bar of a cloud (helm bar) that forms.
[17]
None
### Summary of Helm Wind and Helm Bar from https://www.alpinejournal.org.uk/Contents/Contents_1976_files/AJ%201976%2081-90%20Connor%20Winds.pdf
[18]
https://doi.org/10.1016/j.jhg.2014.03.003
[19]
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The data contain solar radiation, air temperature, temperature depression, wind velocity, wind direction and rainfall from Automatic Weather Stations (AWS) ...Missing: Cross Fell Helm anemometer
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Sep 19, 2007 · The main aim of the experiment is the improvement of wind forecasts downstream of orography. Trapped lee waves commonly occur in westerly flow ...
[21]
The Helm Wind of Cumbria - Unofficial Britain
May 16, 2016 · A strong, cold, north-easterly wind that occasionally blows down the western slope of the Cross Fell range into the Vale of Eden in north-west England.
[22]
“Writing the Unwritten”: The Poetry of Tom Pickard
the “Helm Wind” — drives sleet through the roof of his attic room, he recounts old love affairs, the minutiae of ...
[23]
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The Owl Service is a low fantasy novel for young adults by Alan Garner, published by Collins in 1967. Set in modern Wales, it is an adaptation of the story ...
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Sep 20, 2010 · The Helm Wind wreaks havoc when it races down the side of Cross Fell, destroying buildings and sending livestock and unwary people flying through the air like ...Missing: documentaries | Show results with:documentaries
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BBC Radio 4 - Helm by Sarah Hall - Episode guide
A Single, Determined Man. 6/10 Michael takes up his burden and faces Helm as Thomas begins investigating the wind. Problems, But Not Unsolvable.
[28]
Deep in the Helm - by Aaron Price - Weather with a Twist
May 21, 2025 · An English wind that inspires fear, literature, and science.
[29]
John Atkinson Grimshaw - Museo Thyssen
John Atkinson Grimshaw was a Victorian artist who became famous for his sombre views of the dockyards and his nocturnal scenes of urban lanes.Missing: Helm | Show results with:Helm
[30]
The Pennine Way - Episode 3 (BBC) - YouTube
Dec 30, 2024 · Explorer Paul Rose heads for the North Pennines in the latest stage of his journey along the Pennine Way. He goes white-water rafting down ...Missing: Helm Wind films
[31]
Touching the helm - YouTube
Apr 4, 2024 · A film by Rosa Prosser about the Helm Wind in Cumbria, the only named wind in the UK which occurs on the western escarpment of the North ...Missing: gales | Show results with:gales<|separator|>
[32]
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The Helm Wind is a strong north-easterly wind hitting the southwest slopes of Cross Fell in Cumbria, and is the only named wind in the UK.
[33]
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Dec 16, 2020 · Rescuers in Cumbria have warned of the potential pitfalls of those venturing on to the highest hill in the Pennines. Cross Fell has its own ...
[34]
Near record turnout at Appleby Horse Fair despite poor weather
Jun 9, 2025 · ... weather with heavy downpours and brisk winds. Last year saw 1,287 bowtops and caravans recorded at the Fair. However, this year's count of ...
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https://www.energymap.co.uk/subscriber/project.asp?pageid=235&pagename=Lambrigg%20Wind%20Farm