Hubbry Logo
BP HighwayBP HighwayMain
Open search
BP Highway
Community hub
BP Highway
logo
8 pages, 0 posts
0 subscribers
Be the first to start a discussion here.
Be the first to start a discussion here.
BP Highway
BP Highway
BP Highway
View on Wikipedia
from Wikipedia

National Highway 13 shield}}
BP Highway
राष्ट्रिय राजमार्ग १३
National Highway 13
Map
BP Highway in red
BP highway Roshi river.jpg
Route information
Maintained by MoPIT (Department of Roads)
Length158 km (98 mi)
Major junctions
FromDhulikhel
ToBardibas
Location
CountryNepal
Primary
destinations		Banepa, Dhulikhel, Dumja, Mangaltar, Sindhuli, Bardibas
Highway system
NH12 NH14
BP Highway
Selfie Danda, BP Highway, Sindhuli

The BP Highway or NH13 (previously: H06) is a highway in eastern Nepal that links Kathmandu Valley with the Eastern Terai region. It is named after the former leader of Nepal, BP Koirala. This highway is the shortest link between Kathmandu valley and the Madhesh Province that connects the Koshi Province with the capital of Nepal. Construction of the highway began in 1996 and after encountering different issues with materials, manpower and budget, the road was finally completed and handed over to the Nepalese government on 3 July 2015.[1][2]

History

[edit]

The construction of Banepa Sindhuli Bardibas Road started in November 1996 with a grant assistance of Government of Japan. The highway was handed over by Japanese ambassador to Nepal Mr. Masashi Ogawa to the then Prime Minister of Nepal Mr. Sushil Koirala. Koirala inaugurated the highway during a ceremony held at Dhulikhel, Kavre.[3]

Project cost

[edit]

The total cost of the project from start to completion was NPR. 21.5 billion (¥ 26 billion).[4]

Project phases

[edit]

• Section I Bardibas- Sindhulibazar section (37 km)

• Section II Sindhulibazar- Khurkot section (39 km)

• Section III Khurkot - Nepalthok section (32 km)

• Section IV Nepalthok-Dhulikhel section (50 km)

Early development plans

[edit]

Out of these sections, construction of Bardibas - Sindhuli Bazar section started in November 1996 and was completed in March 1998. The construction of this section included 9 bridges and 17 causeways over the 37 km of road, which was constructed in 1987. This section has been opened to traffic since its completion in 1998.

The construction of Nepalthok-Dhulikhel section started in April 1998 and is under construction. This section includes construction of 50 km of road with 5 bridges and 6 causeways. Out of 50 km, 34 km has been completed and is already open to public traffic while rest of the road was expected to be complete by March 2003.

The construction of Sindhulibazar-Khurkot section was slated to start in January 2001, this section includes construction of 39 km of road with a bridge and 3 causeways. Earthwork over 12.5 km of this road section was completed in the previous phase. This section was expected to be complete by 2007.[5]

Environmental issues

[edit]

After the promulgation of Environmental Protection Act (EPA) for the first time during the basic design of section II Sindhulibazar Khurkot section, a Complete Environmental Impact Assessment was conducted. Extensive discussion on various aspects on environmental issues was discussed with the local people and their concerns are properly addressed. Furthermore, various slope stabilization techniques has been adopted, this includes use of retaining and breast walls, crib works, gabion works, geotextiles and most interesting being the bio-engineering works which includes the locally available techniques like plantation of trees, shrubs including turfing and the soil seeding method imported from Japan. Though initially this technique has been found little expensive because most of the materials used in this method being imported from Japan and for making this method economical effort has been made to use the locally available materials so that this method could be extensively used in Nepal.

Other issues

[edit]

In order to effectively address the most common local issues related to local drinking water supply and irrigation channels to the local fields. This project has taken this challenge to properly relocate the existing drinking water supply line and the irrigation channels so that the effect from these could be minimized. Extensive discussion with the locals regarding the environmental issues has been very useful for the project, however the late realization and awareness in these issues is still a challenge to the project to address issues to be faced in later stages of the project execution.

Technologies used

[edit]

During the construction of the project different innovative technologies have been implemented. Specially Shotcrete has been implemented throughout the highway in order to control landslides.[5] Geotech has been used in order to stabilise the soil in various sections of the highway. It's the first time such technologies have been used in Nepal for constructing highway.[6]

Route

[edit]

This route is important in that it is the only major eastbound exit from highly populated and quake-prone Kathmandu Valley; it is critical to be completed for emergency evacuation and relief purposes.[7] Currently, Kathmandu relies solely upon one congested westward "highway" for its road links to the south: India, the Terai region, and Bangladesh. The capital region has no rail or navigable river links. Despite this, the highway criss-crosses through mountain regions with hairpin turns of widths of one bus wide in numerous areas.

The entire highway from Kathmandu to Bardibas via Dhulikhel had a project completion date of 2011, for a total of 158 km.[needs update][8] It now is projected to be finished in March 2015[9] The reasons for the delay include Japanese contractors lack of security for explosives, thus the road was created with manual labor, which later there was an admission that this was a mistake.,[10] as well as parliament gridlock. This alternate route will reduce the journey from Kathmandu to Bardibas and other cities east of Bardibas by at least 200 km.

The highway has existed in stages for decades, with large unimproved portions. The 37 km section of the lowlands between Bardibas and Sindhuli has been in operation for many years, the 50 km section between Banepa and Nepalthok of Bagmati region was completed in 2005 with Japanese grant money.[7] However, a major part linking the two improved regions was only completed in February 2009, funded with Japanese loans and contractors.

[edit]
  • Banepa-Sindhuli-Bardibas highway's Banepa–Nepalthok section
    Banepa-Sindhuli-Bardibas highway's Banepa–Nepalthok section
  • B.P. Highway at Bardibas- Sindhulibazar section
    B.P. Highway at Bardibas- Sindhulibazar section
  • B.P. Highway at Bardibas- Sindhulibazar section
    B.P. Highway at Bardibas- Sindhulibazar section
  • B.P. Highway at Bardibas- Sindhulibazar section
    B.P. Highway at Bardibas- Sindhulibazar section
  • B.P. Highway at Bardibas- Sindhulibazar section
    B.P. Highway at Bardibas- Sindhulibazar section
  • B.P. Highway at Bardibas- Sindhulibazar section
    B.P. Highway at Bardibas- Sindhulibazar section
  • B.P. Highway at Bardibas- Sindhulibazar section
    B.P. Highway at Bardibas- Sindhulibazar section
  • B.P. Highway at Bardibas- Sindhulibazar section
    B.P. Highway at Bardibas- Sindhulibazar section
  • B.P. Highway at Bardibas- Sindhulibazar section
    B.P. Highway at Bardibas- Sindhulibazar section
  • B.P. Highway at Bardibas- Sindhulibazar section
    B.P. Highway at Bardibas- Sindhulibazar section

References

[edit]
[edit]
Revisions and contributorsEdit on WikipediaRead on Wikipedia

BP Highway

View on Grokipedia
from Grokipedia
The BP Highway, also known as the B.P. Koirala Highway or National Highway 13, is a 158-kilometer-long roadway in eastern that connects the to the Eastern region, passing through , Sindhuli, and . Named after Bishweshwar Prasad Koirala, Nepal's first democratically elected , it provides the shortest land route between the capital area and the lowland plains, facilitating trade, travel, and connectivity to eastern provinces. Envisaged in 1958 during Koirala's tenure, the highway's construction commenced in November 1996 under a Japanese government grant aid project, spanning nearly two decades and divided into multiple phases due to challenging terrain and logistical hurdles. Completed in 2015, it has shortened journey times from over 12 hours to around 6-8 hours, boosting economic links but facing ongoing issues including frequent landslides, bridge deteriorations, and high accident rates from narrow sections and sharp bends, earning it informal notoriety as a hazardous route. Delays in widening to four lanes and maintenance have been exacerbated by political blockades and natural disasters, underscoring persistent infrastructure vulnerabilities in 's mid-hills.

Overview

Route and Geography

The BP Highway, designated as National Highway 13 (NH13), measures 158 kilometers in length, extending from in to in . It passes through , Sindhuli, and districts, bridging the in the north with the Eastern plains in the south. This route functions as a primary north-south , providing a shorter alternative to the eastward for connectivity to eastern Nepal's region. The highway descends from the elevated through intermediate hill zones before flattening into the lowlands near . Geographically, the path winds across the hilly and mountainous Sindhuli region, dominated by steep gradients, sharp curves, and hairpin turns that reflect the challenging . Notable features include multiple river crossings, such as the Roshi River in the early segments originating from the foothills. The terrain transitions from subtropical valleys to subtropical and temperate hill forests, with elevations dropping from around 1,500 meters at to under 200 meters at .

Significance and Naming

The BP Highway, officially designated as National Highway 13 (NH13), derives its name from Bishweshwar Prasad Koirala, Nepal's from 1959 to 1960 and a prominent leader in the country's democratic and political history. The designation honors Koirala's contributions to Nepal's governance and infrastructure aspirations, with the route also known formally as the B.P. Koirala Highway. This naming convention underscores a tradition of commemorating influential political figures through key transport arteries in Nepal's road system. As NH13, the highway forms an essential segment of Nepal's national highway network, spanning roughly 160 kilometers and providing the most direct linkage between the and the Eastern plains. Its strategic value lies in shortening transit routes that previously required detours via longer paths, thereby streamlining connectivity to lowland agricultural heartlands and trade corridors. This role bolsters by enabling faster movement of goods, such as agricultural products from the to urban markets, while reducing logistical burdens on Nepal's internal commerce. The highway's primarily two-lane paved configuration supports vehicular traffic, including restrictions on larger public vehicles to mitigate risks, with initiatives focused on widening select portions to accommodate growing demand. By bridging highland and lowland regions efficiently, NH13 enhances Nepal's overall resilience and fosters development in underserved eastern areas, positioning it as a cornerstone of national infrastructure despite its demanding profile.

Historical Development

Early Planning and Proposals

The B.P. Highway, connecting Kathmandu to the Terai plains via Sindhuli, was first envisaged in 1958 during the tenure of Nepal's inaugural democratically elected Prime Minister B.P. Koirala, as part of broader efforts to modernize the country's rudimentary transportation network. This conceptualization emerged in the wake of Nepal's 1951 transition from Rana rule to constitutional monarchy, which spurred demands for infrastructure to unify the geographically fragmented nation and stimulate internal commerce. Prior to these proposals, connectivity relied on historic foot trails like the Sindhuli Gadhi path, used by Prithvi Narayan Shah in the 18th century for military campaigns, underscoring the longstanding empirical necessity for reliable overland routes in a landlocked terrain dominated by Himalayan barriers and southern plains. The initiative reflected developmental imperatives to bridge the Valley's isolation from the agriculturally rich , reducing transit dependencies on Indian border crossings that constrained trade efficiency and exposed to external geopolitical pressures. Koirala's government prioritized such projects to foster , aligning with post-democratization goals of without overemphasizing foreign aid dependencies prevalent in earlier eras. However, following King Mahendra's in 1960 and imposition of the Panchayat system, the highway proposal languished amid political instability, evolving from vague trail upgrades to ambitions for a paved strategic corridor only in subsequent decades. By the mid-1960s, renewed discussions framed the route as a strategic alternative to existing paths, emphasizing causal benefits like accelerated goods movement to counter bottlenecks in Nepal's sole viable trade corridors via India. Feasibility assessments in this period highlighted the route's potential to halve travel times compared to detours, though implementation stalled due to fiscal constraints and prioritization of east-west connectivity like the Mahendra Highway. These early proposals laid the groundwork for later international involvement, underscoring a consistent rationale rooted in Nepal's topographic realities and need for diversified internal linkages.

Construction Phases

The BP Highway was constructed in four phases starting in November 1996, with the 158-kilometer route divided into segments to manage the transition from lowland Tarai plains to hilly Churia and Mahabharat ranges, necessitating phased development of bridges, tunnels, and retaining structures amid geological instability. Japanese grant aid through the (JICA) supported the effort, totaling over 21 billion Nepalese rupees, though progress was intermittent due to supply chain disruptions and funding disbursements tied to milestone achievements. By 2012, approximately 123 kilometers had been paved and opened for vehicular use, with the remaining segments prioritized for their steeper gradients and landslide-prone alignments. Phase 1 encompassed the 37-kilometer Bardibas-Sindhuli Bazaar section, initiated in November 1996 as the flattest lowland stretch to enable rapid foundational work and material staging for upstream phases; it was paved and opened to by 1997, with full completion by early 1998, marking the first operational link reducing dependency on longer detours. Phase 2 covered the 36-kilometer Sindhuli Bazaar-Khurkot segment, leveraging existing tracks for initial access but requiring extensive earthworks and drainage; advanced slowly through the 2000s, achieving completion in March 2009, which connected the highway's southern half and supported interim flow despite unpaved upstream portions. Phases 3 and 4 addressed the northern 75 kilometers from Khurkot to Nepalthok (approximately 50 kilometers) and Nepalthok to (approximately 25 kilometers), incorporating 14 major bridges and a 1.7-kilometer near Sindhuli to navigate steep escarpments; for Phase 3 occurred in February 2010, with accelerated efforts post-2012 to meet donor timelines, culminating in blacktopping and handover of the full route by July 2015 after verifying structural integrity against seismic and erosion risks. These phases accounted for over half the project's engineering complexity, with and viaduct works phased sequentially to minimize site congestion and allow progressive vehicle testing.

Completion and Inauguration

The BP Highway's construction concluded on March 1, 2015, marking the end of a project that spanned multiple phases since its initiation in 1995, with the final segments engineered to withstand Nepal's rugged geophysical conditions including steep gradients and seismic risks. Official handover occurred on July 3, 2015, during an inauguration ceremony at in , presided over by Prime Minister , with Japanese Ambassador Masashi Ogawa formally transferring the 160-kilometer infrastructure to the Nepali government on behalf of the . Post-opening, the highway immediately demonstrated its utility by slashing travel duration from to from more than nine hours via older routes to roughly four hours, a reduction attributed to the shortened 150-kilometer path through the Churia Hills and Mahabharat Range. This enabled day-long journeys to eastern districts that previously required overnight stops, with early vehicular flows confirming the road's structural integrity against the terrain's landslides and elevation shifts exceeding 1,000 meters.

Engineering and Construction Details

Technologies and Methods Employed

The construction of the BP Highway employed cut-and-fill earthwork methods to navigate the steep Himalayan foothills, balancing excavation and embankment volumes to minimize excess spoil and adapt to landslide-prone terrain, with excavated materials reused in sub-base layers where feasible. stabilization techniques included wet stone retaining walls for heights up to 7 meters, walls, and cribworks in unstable areas, supplemented by bioengineering measures such as planting on stable slopes and the installation of geotextile-reinforced earth walls—incorporating materials sourced from —for taller or higher-risk sections exceeding 7 meters. Limited tunneling was avoided in favor of surface alignments with these retaining structures and loading berms on slopes over 7 meters, alongside continuous monitoring using instruments like tiltmeters and extensometers in high-risk zones such as the Mulkot area to assess movement during construction. Pavement consisted primarily of double bituminous surface treatment (DBST) over a 30 cm base course of river gravel and crushed stone, with applied in sharp curves (radii under 20 meters) to enhance durability against shear forces. Drainage systems featured side ditches (45 cm deep, designed for 3-year flows), pipe (minimum 60 cm diameter for 5-10 year events), and box culverts for cross-drainage, all scaled to handle Nepal's intense monsoons with a 50-year based on local rainfall data from stations like . River crossings utilized causeways with extended box culvert structures rather than elevated bridges, totaling over 640 meters across nine kholas (e.g., 190-meter span at Niguli Khola), to reduce costs and environmental impact while accommodating flood-prone conditions. These methods drew on Japanese engineering standards from JICA's manuals for earthworks, drainage, and reinforced structures, prioritizing resilient adaptations to geological instability and seasonal flooding over more invasive options like tunneling. Construction paused during peak monsoons (late May to early ) to ensure slope integrity and material compaction, contributing to sections that have demonstrated initial in withstanding early post-completion and slides.

Project Costs and Funding Sources

The construction of the BP Highway, initiated in 1996 and completed in 2015, incurred a total expenditure of approximately 21.5 billion. This figure encompassed costs across four phases covering the 159.53-kilometer route, with engineering challenges in hilly terrain contributing to phased implementation and extended timelines that inflated overall outlays relative to early projections. Delays from issues, labor constraints, and budgetary shortfalls extended the project duration to nearly two decades, resulting in cost escalations typical of Nepal's developments where overruns often exceed 30% due to material price fluctuations and execution inefficiencies. Funding was predominantly sourced from Japanese grant aid administered through the (JICA), amounting to roughly 26 billion for core construction elements, supplemented by NPR-equivalent contributions from the Nepalese government totaling about 1.1 billion yen. Specific phases, such as the Sindhuli Bazar-Khurkot section, benefited from targeted JICA loans and grants, including US$50.6 million (with IDA providing US$42.6 million), emphasizing Nepal's dependence on external technical transfer for advanced road-building in geologically complex regions. Domestic funding from Nepal's national budget covered residual portions, though foreign aid constituted the majority, enabling connectivity gains that reduced travel time from to eastern districts by hours despite per-kilometer costs averaging around 135 million. This reliance on international donors underscored the project's value in bridging Nepal's north-south transport gaps, though it highlighted limitations in indigenous capacity for large-scale civil works.

Route and Infrastructure

Key Sections and Terrain Features

The BP Highway traverses diverse from the mid-hills to the plains over its 160 km length, beginning at at approximately 1,550 meters elevation and descending to at around 250 meters. The route crosses the Mahabharat Range and Churia Hills, featuring steep gradients up to 8-10% in places, numerous turns with radii as small as 20-30 meters, and undulating paths prone to due to sedimentary rock formations like and . Engineering adaptations include retaining walls, stabilization with blocks, and extensive drainage systems comprising 145 pipe culverts and 13 culverts in select segments to mitigate landslides and water-induced instability. Key sections include the Nepalthok to stretch (50 km), which follows the Roshi River valley with multiple curves and crossings, incorporating causeways and bridges to handle seasonal flooding. The Khurkot to Nepalthok segment (33 km) involves sharp bends and steep slopes in severely mountainous terrain, addressed through paving on hairpins for better traction and durability. From to Khurkot (40 km), the road climbs through Churia Hills with hairpin bends, while the Bardibas to portion (37 km) transitions from flat gradients to initial ascents, featuring flood-prone river valleys with 17 causeways and 9 bridges overall in early sections to facilitate crossings over streams like the Ratu River. This configuration provides a shorter east-west linkage compared to northern alternatives, reducing by approximately 100 km to the .
SectionLength (km)Primary Terrain FeaturesKey Adaptations
–Sindhuli Bazaar37Flat to rolling plains, flood-prone valleysCauseways (17 total in section), bridges
Sindhuli Bazaar–Khurkot40Hill climbs, hairpin bends in Churia HillsRetaining walls, drainage culverts
Khurkot–Nepalthok33Steep slopes, sharp bends, ancient landslidesAsphalt paving on curves, slope protection
Nepalthok–50River valley curves, descentsRiver crossings, concrete block walls
The highway's geography enables efficient connectivity by navigating lower passes than rival routes, though the terrain's vulnerability to necessitates ongoing bio-engineering like walls and vegetation for long-term stability.

Major Landmarks and Settlements

The BP Highway links key settlements across Kavrepalanchok, Sindhuli, and Mahottari districts, facilitating passage through varied terrain from the periphery to the plains. Beginning near and in , the route advances to Bhakundebesi, a settlement marking the transition into steeper mid-hill landscapes and serving as an access point for local rural communities. Further along, the highway reaches Nepalthok in , situated approximately 25 kilometers southeast of Bhakundebesi, where it crosses bridges over the Roshi River, a significant hydrological feature influencing local water access and agriculture. The path continues through intermediate points such as Khurkot and Mulkot before arriving at Sindhuli Bazaar, the district headquarters within Bhimeshwor Municipality, about 39 kilometers from Khurkot and providing connectivity to surrounding agrarian settlements. Prominent landmarks include , a historic fort located near Sindhuli Bazaar along the highway, renowned for its role in Nepal's 1767 victory over British forces and offering vantage points over the route. The highway culminates at in , 37 kilometers south of Sindhuli Bazaar, a major nodal settlement integrating with agricultural networks. These points span roughly 160 kilometers, with the Bhakundebesi-Nepalthok segment and Sindhuli Bazaar-Bardibas stretch exemplifying critical intervals for navigation.

Construction Challenges

Environmental and Geological Hurdles

The BP Highway's alignment through the seismically active and geologically unstable Churia Hills presented formidable challenges, including steep gradients, fractured rock formations, and high susceptibility to landslides triggered by the region's dynamic and heavy exceeding 2,000 mm annually in parts of . Adverse topographic and geological conditions, such as loose colluvial soils and faulted Siwalik strata, frequently disrupted excavation and embankment works, necessitating iterative slope assessments and reinforcements to prevent collapses during the multi-phase construction from the mid-1980s to 2017. Monsoon flooding along river crossings like the Roshi and Tamakoshi further complicated site access and material transport, with empirical records from similar Nepali hill roads indicating work stoppages averaging 20-30% of seasonal timelines due to inundation and debris flows. Erosion from cut slopes, often oversteepened during blasting and dozer operations, amplified sediment runoff into adjacent watercourses, prompting mandatory incorporation of cross-drainage culverts and check dams as per Department of Roads guidelines. To counter these hurdles, bioengineering techniques—integrating live vetiver grass vetting, crib walls, and layering with structural aids like gabions—were systematically applied for slope stabilization, drawing from JICA-supported preparatory surveys that emphasized hybrid geotechnical-vegetative methods to restore slope integrity within 2-3 years post-implementation. Localized for right-of-way clearing and labor camp (estimated at 5-10% of total disturbance in project corridors) posed additional ecological pressures, though monitoring protocols under the Sindhuli Road environmental management plan limited broader habitat loss by restricting alignment deviations and enforcing compensatory ratios of 1:25 for cleared areas. These measures addressed immediate construction risks while aligning with Nepal's developmental imperatives in terrain where alternative low-impact routing was infeasible, yielding verifiable slope failure rates below 5% in stabilized sections per post-construction audits.

Logistical, Manpower, and Budgetary Issues

The construction of the BP Highway encountered persistent logistical hurdles, primarily stemming from supply chain disruptions and import dependencies for essential materials such as cement and aggregates, which Nepal largely sources externally. Frequent political blockades and general strikes (bandhs) during the 1996–2015 period interrupted material deliveries, as evidenced by a 2005 blockade that created acute shortages and stalled progress on multiple highway segments. These interruptions were compounded by customs delays and inadequate domestic storage infrastructure, reflecting Nepal's limited industrial base and reliance on overland imports via India or sea routes, which often faced bottlenecks during regional tensions. Manpower shortages further impeded advancement, with Nepal's construction sector plagued by insufficient skilled laborers and heavy machinery operators, leading to dependence on Japanese technical experts and contractors under JICA oversight. Local obstructions, such as a 2010 incident where seized machinery keys on the third segment, halted works for weeks and highlighted coordination failures between project teams and communities. Overall, these factors contributed to phased across four sections, extending the timeline from initial in 1996 to completion in 2015, as the project adapted by prioritizing incremental funding releases tied to milestones. Budgetary pressures arose from these delays, with cost escalations driven by idle labor periods and repeated material price fluctuations amid Nepal's volatile economic environment, though Japanese grant aid provided structured disbursements to avoid outright halts. The approach of dividing the 114 km route into manageable segments allowed for targeted resource allocation, underscoring the necessity of foreign assistance to overcome domestic capacity constraints without derailing the endeavor entirely.

Operational History and Maintenance

Safety Record and Accident Statistics

The B.P. Koirala Highway, particularly its sections through hilly terrain like Sindhuli and the Dhulikhel-Nepalthok stretch, has recorded elevated accident rates compared to flatter Nepali roads, attributed primarily to sharp curves, steep gradients, and high-speed driving. In , which encompasses significant portions of the highway, police data for the from mid-August 2024 to mid-July 2025 documented 205 total road accidents, with the BP Highway accounting for 82 incidents—nearly 40% of the district's total—resulting in 11 fatalities and 223 injuries. This exceeds accidents on adjacent routes like the Highway (78 incidents, 14 deaths) and the Mid-Hill Highway (7 incidents, 1 death) in the same period, highlighting the BP Highway's disproportionate risk profile due to its winding path through the Churia Hills. A 2008–2012 analysis of the Dhulikhel-Nepalthok section, a notoriously curved segment, examined crash patterns and found 55% of incidents fatal, with annual fatalities ranging from 1 in 2009 to 6 in 2010. High-speed driving caused 70% of fatal crashes, often exacerbated by overtaking on blind bends, while inattentive or impaired driving contributed to 10%; public buses were involved in 50% of cases, reflecting overload and aggressive maneuvering common on intercity routes. Vehicle factors like overloading and poor maintenance, combined with suboptimal signage in remote areas, amplify these risks, though terrain-induced issues such as narrow lanes and cliff edges remain primary causal elements over human error alone. Post-widening upgrades, completed in phases since the , have mitigated some hazards by straightening curves and expanding to two lanes in key areas like Khurkot-Nepalthok, potentially reducing head-on collisions that previously claimed dozens in single events. Nonetheless, recent statistics indicate persistent vulnerabilities, with Sindhuli's BP Highway fatality rate implying roughly 13% of accidents lethal—higher than Nepal's national average of about 10–12% per crash based on aggregates—necessitating ongoing enforcement against speeding and stricter vehicle inspections to align with improved infrastructure. Despite these challenges, the highway's operational role has curtailed broader regional isolation, channeling traffic volumes that would otherwise strain alternatives and indirectly lowering per-capita risks through economic incentives for cautious driving.

Vulnerability to Natural Disasters

The BP Highway, traversing Nepal's hilly and mountainous terrain including the Mahabharat Lekh range, is particularly susceptible to landslides and flash floods triggered by monsoon rains, which routinely deposit debris and cause washouts along riverine sections such as the Roshi and Sun Kosi rivers. These events have historically blocked the route multiple times, with the Department of Roads (DoR) recording interventions to clear over 99 landslide sites in October 1999 alone during construction phases. Flood-induced damage in 2001 eroded 100-200 meters of pavement along the Sun Kosi River, necessitating rehabilitation efforts completed between 2003 and 2005 under JICA funding, while July 2002 torrential rains (312 mm over three days) washed out sections at 15 locations, uprooting revetment walls. Such disruptions have led to temporary closures lasting days to weeks, exacerbating economic impacts by halting transport to eastern and forcing reliance on longer alternative routes, though data on precise durations for pre-earthquake remain limited to DoR maintenance logs. A 2014 landslide near Section III created a temporary dammed lake, posing risks that required immediate slope stabilization to avert broader washouts. The highway's alignment, guided by pre-construction hazard mapping, avoided several major unstable zones, contributing to its relative resilience compared to older gravel tracks it replaced. Engineering adaptations have focused on preventive and restorative measures to enhance durability, including extensive retaining walls constructed with local stones for protection, revetments (up to 6 meters wide and 1 meter thick), and horizontal drilling drainage systems applied in water-induced landslide-prone areas like Kamala Mai village in Section I. Additional features such as facing, bio-engineering with vegetation, and robust cross-drainage culverts mitigate and , allowing for rapid debris clearance by DoR teams—evidenced by post-2015 Gorkha reopenings within four hours despite minor wall deflections. These interventions underscore a shift toward adaptive , reducing long-term through routine and localized reinforcements rather than wholesale redesigns.

Recent Developments and Repairs

In early October 2025, heavy rains triggered floods and landslides that damaged approximately 20-22 kilometers of the BP Highway, particularly between Chaukidanda and Nepalthok in Kavrepalanchok and Sindhuli districts, with 17 specific sites affected including sections in Roshi and Bhakundebesi-Nepalthok. Traffic was suspended on October 4, with authorities diverting vehicles to alternative routes amid risks of further erosion and debris burial. To restore connectivity, temporary diversions and tracks were rapidly constructed at 19 locations across Kavrepalanchok and Sindhuli, enabling partial reopening of the highway by October 10-11, 2025, less than a week after the initial damage. Infrastructure Minister Deepak Ghising directed accelerated repairs, noting the 2025 damage spanned about 3.5 kilometers compared to more extensive prior-year impacts, with temporary restoration prioritized over permanent fixes initially. Reconstruction efforts, building on July 2025 plans for a 30-kilometer two-lane upgrade, allocated approximately Rs 8.5 billion, with contracts divided into packages for Kavre and Sindhuli sections under a two-year timeline supported by (JICA) emergency funding. Permanent works, including reinforced pavements and drainage, were slated to commence post-Tihar festival in late October 2025, aiming for full operability by July 2027, though temporary measures demonstrated effective short-term response to minimize disruptions. As of October 27, 2025, the highway operates with these interim fixes, facilitating resumed traffic while ongoing monitoring addresses residual vulnerabilities.

Economic and Strategic Impact

Benefits for Connectivity and Trade

The B.P. Koirala Highway has significantly reduced travel times between and the Eastern region, shortening the journey to to approximately 4 hours under normal conditions, compared to longer durations on pre-upgrade routes that often exceeded 8 hours due to circuitous paths and poor quality. This improvement facilitates faster passenger and freight movement, enabling more efficient transport of agricultural produce from districts to markets and vice versa. By providing a direct north-south linkage through challenging hill terrain, the highway enhances internal trade volumes, with increased vehicular traffic supporting the flow of goods such as , , and timber between the capital and fertile plains, thereby lowering costs and supporting Nepal's landlocked economy. The route's completion has spurred socio-economic activities along its corridor, including heightened commerce in intermediate settlements like Sindhuli, where reduced transit times have boosted local market integration. Strategically, the highway diminishes over-reliance on eastern border crossings with for internal distribution by streamlining access to production hubs, while its scenic vistas through hills and valleys attract , contributing to ancillary and without depending on external transit vulnerabilities.

Social and Regional Development Effects

The completion of the B.P. Koirala Highway has enhanced access to essential services for residents in and surrounding mid-hill areas, facilitating quicker travel to healthcare facilities and educational institutions previously reachable only after prolonged journeys. Local communities, including indigenous Magar groups in areas like Khanyakharka, have reported improved availability of services and upgraded , attributing these changes directly to the highway's connectivity. Population mobility has increased substantially along the corridor, with travel times from to eastern regions reduced from over 10 hours to approximately 3-4 hours for the Banepa-Bardibas stretch, enabling more frequent interactions between hill and plains populations. This has fostered stronger familial and cultural linkages, as migrants from rural Sindhuli can more readily visit urban centers or return home, while reverse flows support remittance-based households. Regional development manifests in localized urbanization trends, such as the expansion of Sindhulimadi as a key transit and commercial hub, drawing internal migration for trade and services. Farmers in connected rural pockets have gained better market proximity for agricultural produce, contributing to livelihood improvements and incremental alleviation in the Terai-Kathmandu corridor, where road access correlates with higher household incomes from diversified non-farm activities.

Controversies and Criticisms

Debates on Costs and Delays

The construction of the BP Highway, spanning approximately 159 kilometers from to , commenced in 1996 but encountered prolonged delays due to persistent challenges with materials sourcing, manpower shortages, and funding constraints, extending the timeline to nearly two decades for substantial completion. representatives have defended these extensions as essential for achieving structural integrity amid the route's rugged, seismically active , arguing that rushed progress would compromise long-term and efficacy in a geologically unforgiving . In contrast, efficiency advocates and project analysts contend that institutional inefficiencies, including fragmented contracting and inadequate oversight, inflated timelines beyond what terrain alone necessitated, with Nepal's broader sector exhibiting average overruns of 15 to 36 months attributable to postponements and escalation rather than solely environmental factors. Cost debates center on reported escalations exceeding initial projections, with Nepalese projects routinely surpassing budgets by over 30% primarily from price volatility and delays, a pattern echoed in the BP Highway's development where original per-kilometer estimates of around 35 ballooned amid iterative revisions. Proponents of the government's approach highlight the highway's strategic value in linking to eastern trade routes, justifying premiums as investments in resilient that comparable Asian endeavors, such as India's segments completed in under a decade with tighter fiscal controls, underscore as avoidable through better governance. Critics, drawing from sector-wide audits, attribute overruns to systemic mismanagement and potential irregularities in fund allocation, urging empirical reviews to distinguish terrain-driven necessities from bureaucratic inertia reflective of Nepal's administrative limitations. Recent post-flood reconstruction estimates of 9.66 billion for damaged segments—equating to roughly 1 billion per kilometer—further fuel arguments that escalated costs stem less from inherent project demands and more from recurrent planning shortfalls, with officials countering that upgraded standards post-1996 baselines yield enduring benefits despite fiscal strain.

Environmental and Safety Critiques

Environmental critiques of the BP Highway focus on its role in accelerating and risks in Nepal's seismically active and -prone Himalayan . Construction activities, particularly blasting and earthworks in the Sindhuli and Kavrepalanchok sections, have disrupted slopes, leading to frequent blockages; for instance, the 2024 monsoon floods caused widespread along the Roshi River, rendering sections impassable for months. concerns arise from road cuts through forested areas, potentially affecting local corridors, though comprehensive surveys remain limited. Preparatory environmental assessments, such as JICA's for the Sindhuli Road Section, identified these risks and mandated bio-engineering techniques like walls and vetiver grass planting to stabilize slopes, with monitoring indicating reduced rates post-implementation in treated areas. In context, alternatives like extensive rail networks face greater topographic barriers and higher per-capita costs in Nepal's rugged terrain, rendering highway upgrades a pragmatic necessity despite localized ecological trade-offs. Safety critiques emphasize the highway's vulnerabilities, including steep gradients and tight curves in the pre-widened hill stretches, which contribute to high collision rates amid heavy truck traffic. data records 205 road accidents on the BP Highway from mid-August 2024 to mid-August 2025, alongside 82 incidents with 11 deaths and 223 injuries in a focused period. Two major crashes on the Khurkot-Nepalthok section alone claimed 58 lives, often linked to overloading and speeding on unstable surfaces. However, national analyses attribute primary causality to human factors—such as inadequate licensing, vehicle maintenance deficits, and reckless —rather than inherent design, with 's overall road fatality rate of 28.2 per 100,000 population in 2021 reflecting systemic issues beyond any single route. Mitigation efforts, including black spot realignments and signage upgrades under JICA-supported projects, have yielded localized reductions in crash severity, though persistent natural disruptions like landslides continue to elevate risks during peak seasons. In developing contexts like , where infrastructure deficits amplify poverty-driven behaviors, prioritizing connectivity yields net gains through economic uplift, outweighing unmitigated stasis.

Perspectives on Development Priorities

Advocates for prioritizing highway development in contend that projects like the BP Highway deliver measurable economic returns by enhancing connectivity and reducing transport costs, which empirical analyses link to sustained GDP growth. A study examining Nepal's found unidirectional long-run from road expenditure to , with investments fostering , , and essential for a landlocked . Similarly, on confirms a promotive long-run effect on development, outweighing short-term fiscal strains through multiplier effects on and . These proponents, often aligned with views, argue that verifiable returns on —such as lowered logistics expenses supporting exports—bolster national by diminishing reliance on inefficient alternatives like air or seasonal paths. Critics, including fiscal conservatives and advocates, counter that such capital-intensive endeavors impose high opportunity costs, diverting funds from immediate social needs like and where human capital yields faster poverty alleviation. Nepal's chronic underspending on capital budgets, averaging 70-80% execution, amplifies inefficiencies, with reconstruction demands like the BP Highway's Rs9.66 billion post-flood repair underscoring recurring fiscal burdens amid vulnerability to monsoons. They highlight trade-offs in public expenditure composition, where allocations compete with social sectors, potentially exacerbating inequality if returns materialize unevenly across regions. A recurring critique across perspectives emphasizes Nepal's aid dependency in highway projects, which undermines domestic capacity and invites geopolitical strings, as seen in foreign-funded reconstructions that fail to transfer technology or skills. While international donors provide capital, analysts note that often inflates administrative overheads and stifles innovation, contrasting with private-sector models elsewhere where tolled roads achieve without perpetual subsidies. Political disruptions, such as those during the Maoist that halted progress on strategic routes, further illustrate how ideological priorities can derail ROI, reinforcing calls for pragmatic, evidence-based allocation over ideological spending. Ultimately, causal assessments prioritize projects with demonstrable long-term multipliers, favoring roads' empirical GDP linkages over unproven social alternatives amid Nepal's terrain-driven isolation.

References

  1. https://nepaltraveller.com/travel/highways-in-nepal/bp-highway-a-two-decade-long-dream-project
  2. https://openjicareport.jica.go.jp/pdf/12056768_01.pdf
  3. https://selfdrivenepal.com/news/top-5-highways-in-nepal-take-a-road-trip-with-self-drive-nepal
  4. https://archive.nepalitimes.com/news.php?id=15014
  5. https://myrepublica.nagariknetwork.com/news/road-to-travel
  6. https://openjicareport.jica.go.jp/pdf/12318671_01.pdf
  7. https://www.dangerousroads.org/asia/nepal/10278-the-amazing-bp-highway-in-nepal.html
  8. https://thehimalayantimes.com/nepal/blockade-fallout-highway-construction-in-limbo
  9. https://www.globalhighways.com/news/new-highway-nepal
  10. https://motar-company.com.np/bp-highway-updates-live/
  11. https://kathmandupost.com/province-no-3/2025/02/23/temporary-repairs-fail-to-assure-travellers-on-flood-ravaged-bp-highway
  12. https://openjicareport.jica.go.jp/pdf/12368866_01.pdf
  13. https://english.onlinekhabar.com/diversions-built-at-3-sections-of-bp-highway.html
  14. https://farsightnepal.com/news/your-excellency-we-want-your-aid-once-again/
  15. https://newbusinessage.com/news/44397/temporary-measures-keep-bp-highway-open-amid-ongoing-reconstruction/
  16. https://www.researchgate.net/publication/395989452_National_Highway_Disruptions_and_Their_Effects_A_Case_Study_of_the_2024_Monsoon_Season_in_Nepal
  17. https://myrepublica.nagariknetwork.com/index.php/news/road-to-travel
  18. https://kathmandupost.com/national/2015/01/22/bp-highway-construction-complete-after-20-years
  19. https://ecs.com.np/heritage-tale/sindhuli-gaadi
  20. https://digitalrepository.unm.edu/cgi/viewcontent.cgi?article=1082&context=nsc_research
  21. https://openjicareport.jica.go.jp/pdf/12056685_01.pdf
  22. https://icrier.org/pdf/India_s_Development_Connectivity_Projects_Nepal.pdf
  23. https://thehimalayantimes.com/nepal/japan-hands-over-bp-highway-to-nepal
  24. https://myrepublica.nagariknetwork.com/news/47264/
  25. https://archive.nepalitimes.com/news.php?id=8200
  26. https://myrepublica.nagariknetwork.com/index.php/news/construction-of-third-phase-begins
  27. https://myrepublica.nagariknetwork.com/news/japan-hands-over-bp-highway-to-nepal
  28. https://kathmandupost.com/national/2015/07/03/bp-highway-officially-handed-over-to-nepal
  29. https://www.team-bhp.com/forum/travelogues/176131-details-shorter-new-route-kathmandu-nepal.html
  30. https://kathmandupost.com/national/2025/09/01/will-travel-along-bp-highway-be-smooth-by-dashain
  31. https://openjicareport.jica.go.jp/pdf/1000050152_06.pdf
  32. https://openjicareport.jica.go.jp/pdf/11919339_01.pdf
  33. https://www.academia.edu/43780395/Cause_of_Time_and_Cost_Overruns_in_the_Construction_Project_in_Nepal
  34. https://www.myrepublica.nagariknetwork.com/news/jica-initiates-inspection-of-damaged-bp-highway-673160d903d25.html
  35. https://dor.gov.np/uploads/publication/publication_1641726170.pdf
  36. https://openjicareport.jica.go.jp/pdf/1000050152_03.pdf
  37. https://www.jsce.or.jp/e/archive/project/pj13.html
  38. https://kathmandupost.com/national/2025/07/24/bp-highway-reconstruction-set-to-begin
  39. https://english.khabarhub.com/2025/09/500634/
  40. https://travelnepaltoday.com/sindhuli-gadhi/
  41. https://nepalog.com/tourism/tourism-in-bagmati-province/sindhuli-gadhi-fort-a-glorious-victory-landmark-of-nepal/
  42. https://pubs.geoscienceworld.org/qjegh/article-lookup?doi=10.1144/qjegh2016-109
  43. https://www.researchgate.net/publication/334678661_Geology_of_the_area_between_Bardibas_and_Sindhuli_Madi_Sub-Himalaya_Central_Nepal
  44. https://dor.gov.np/home/publication/guide-to-road-slope-and-protection/force/guide-to-road-slope-proctection-works-ch-3
  45. https://nhess.copernicus.org/articles/18/3203/2018/
  46. https://www.researchinventy.com/papers/v13i1/C13011219.pdf
  47. https://documents1.worldbank.org/curated/en/536711527089370922/pdf/126508-WP-P160578-PUBLIC-Nepal-v17-SP.pdf
  48. https://myrepublica.nagariknetwork.com/index.php/news/bp-highway-project-obstructed
  49. https://myrepublica.nagariknetwork.com/news/sindhuli-reports-over-200-road-accidents-in-a-year-55-98.html
  50. https://english.ratopati.com/story/40115
  51. https://zenodo.org/record/5782768/files/Study%2520of%2520Road%2520Crashes%2520in%2520Dhulikhel%2520-Formatted%2520Paper.pdf
  52. https://jphe.amegroups.org/article/view/6172/html
  53. https://www.globalhighways.com/news/nepals-road-safety-upgrade
  54. https://pubmed.ncbi.nlm.nih.gov/27084283/
  55. https://www.researchgate.net/publication/327847521_Horizontal_drilling_drainage_as_a_preventive_measure_for_water_induced_landslide_risk_reduction_A_case_study_from_Sindhuli_Road_Section_I_Nepa
  56. https://kathmandupost.com/nepali-diaspora/2025/10/06/bp-highway-traffic-diverted-after-floods-and-landslides-damage-road
  57. https://radionepalonline.com/en/2025/10/08/417875.html
  58. https://kathmandupost.com/province-no-3/2025/10/04/traffic-suspended-on-bp-highway-in-kavre-amid-flood-landslide-risks
  59. https://english.nepalnews.com/s/nation/landslides-continue-to-block-highways-across-nepal/
  60. https://kathmandupost.com/national/2025/10/10/bp-highway-reopens-for-traffic-five-days-after-flood-damage
  61. https://risingnepaldaily.com/news/69486
  62. https://risingnepaldaily.com/news/69421
  63. https://english.nepalnews.com/s/nation/minister-ghising-directs-quick-restoration-of-traffic-on-bp-highway/
  64. https://ekantipur.com/en/business/2025/10/15/permanent-construction-of-bp-highway-after-tihar-42-22.html
  65. https://www.cabidigitallibrary.org/doi/pdf/10.5555/20210130950
  66. https://www.theannapurnaexpress.com/story/55478/
  67. https://kathmandupost.com/national/2015/03/16/bp-highway-comes-as-a-boon-for-sindhuli-folks
  68. https://conference.ioe.edu.np/ioegc8/papers/ioegc-8-005-80005.pdf
  69. https://www.spotlightnepal.com/2016/06/23/sindhuli-road-boon-for-farmers/
  70. https://nepjol.info/index.php/joeis/article/download/81582/62529/235388
  71. https://saudijournals.com/media/articles/SJEAT_86_108-114.pdf
  72. https://enewspolar.com/reconstruction-of-bp-highway-to-cost-over-rs-9-66-billion/
  73. https://documents1.worldbank.org/curated/en/516411468779970544/pdf/RSDP0AM0Sept040012.pdf
  74. https://myrepublica.nagariknetwork.com/news/reconstruction-of-bp-highway-to-cost-over-rs-95-billion-6779ec8a6852d.html
  75. https://theannapurnaexpress.com/story/52511/
  76. https://kathmandupost.com/visual-stories/2025/06/04/monsoon-looms-as-bp-highway-remains-in-disrepair-after-last-year-s-floods
  77. https://tunza.eco-generation.org/ambassadorReportView.jsp?viewID=8458
  78. https://htsyndication.com/republica/article/sindhuli-reports-over-200-road-accidents-in-a-year/91752378
  79. https://pmc.ncbi.nlm.nih.gov/articles/PMC8924877/
  80. https://asiantransportobservatory.org/analytical-outputs/roadsafetyprofiles/nepal-road-safety-profile-2025/
  81. https://openjicareport.jica.go.jp/pdf/1000050157_01.pdf
  82. https://www.jsmcentral.org/article-info/Epidemiology-of-Road-Traffic-Accidents-in-Nepal-Data-Review-and-Qualitative-Analysis
  83. https://www.mdpi.com/2227-7099/12/8/221
  84. https://www.nepjol.info/index.php/NCCJ/article/view/72254/55178
  85. https://openknowledge.worldbank.org/bitstreams/30d98090-792e-5c5c-8894-010a6fce87bf/download
  86. https://www.nrb.org.np/red/no_21_april_20094_the_composition_of_public_expenditure_physical_infrastructure_and_economic_growth_in_nepalprakash_kumar_shrestha/
  87. https://newbusinessage.com/news/42813/rethinking-foreign-aid/
  88. https://elmnr.sites.olt.ubc.ca/files/2017/09/Rankin-et-al-SINHAS-221-published-6-017.pdf
  89. https://www.researchgate.net/publication/383322941_Unraveling_the_Nexus_between_Road_Transport_Infrastructures_and_Economic_Growth_Empirical_Insights_from_Nepal%27s_Case
Add your contribution
Related Hubs
User Avatar
No comments yet.