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A. About Asian Disaster Preparedness Center
ADPC is an autonomous international organization with a vision to reduce disaster and climate risk impacts on communities and countries in Asia and the Pacific by working with governments, development partners, international organizations, NGOs, civil society, private sector, media, and other key stakeholders.
Established in 1986 as a technical capacity-building center, ADPC has grown and diversified its expertise across social and physical sciences to support sustainable solutions for risk reduction across a broad range of specialist areas. With over 100 staff from 19 different nationalities and a wide range of professional expertise from atmospheric scientists to social scientists with experiences from all levels of engagement typically required for Disaster Risk Reduction (DRR) and Climate Resilience (CR) in an effective manner. ADPC is a competent regional resource center and has seven thematic departments: ADPC Academy, Risk Governance, Climate Resilience, Urban Resilience, Health Risk Management, Preparedness for Response and Recovery, Geospatial Information. These are supported by Finance, Human Resources and Administration, and Strategic Planning departments. In addition to the departments, ADPC works on three cross-cutting themes: Gender and Diversity, Poverty and Livelihoods, and Regional and Transboundary Cooperation through permanent working committees.
ADPC Strategy 2020 guides the organization in providing comprehensive risk reduction support to countries and communities in Asia and the Pacific. ADPC recognizes the importance of examining the linkages between disaster risk management, poverty reduction, gender equality, sustainability, rights-based approaches, climate change and regional cooperation.
With the financial support from the World Bank Group, ADPC has been implementing a five-year project, titled “Climate Adaptation and Resilience Project for South Asia” (CARE). The project aims to create an enabling environment for climate resilience policies and investments across South Asia. This objective will be achieved through enhanced regional cooperation and knowledge exchange for climate resilience and adaptation and mainstreaming of resilience and adaptation in national policies, plans and investments.
For details please refer to ADPC website at http://www.adpc.net/
B. Background
Disasters take a huge toll on the development agenda of SAR countries. Between 2000 and 2017, disasters in South Asia incurred estimated damages of US$ 149.27 billion. Public expenditure is under stress by the repeated need to reallocate capital budgets away from long term development planning and towards reconstruction activities in post-disaster environments. For example, since 2005, Pakistan has suffered losses on the order of US$ 16 billion due to natural disasters. In Nepal itself, the summer monsoon seasons wreak damages to operating as well as under-construction hydropower projects repeatedly. In June 2023, a total of 30 projects of which 13 were under operation, reportedly suffered damages approaching US$47 million. Similarly, Glacial Lake Outburst Flood (GLOF) and landslide blocked lake outburst floods, triggered by climate change, are known to damage infrastructures in and around the region. Climate-related disasters across the world have focused attention on the need for resilient and adaptive infrastructure.
To increase resilience and achieve climate commitments, there is a need for a transformational shift towards policies and institutions that enable climate resilient investments. Investing in more resilient infrastructure is both profitable and urgent as disruptions are extremely costly for governments, households, private sector and large ongoing investments in infrastructure assets will have long-lasting repercussions as poor maintenance, and natural disasters result in a vulnerable stock.
Temperature rise in Nepal is projected to exceed the global average. Nepal is projected to be warmer by 1.2°C–4.2°C by 2080, under the highest emission scenario, RCP8.5, as compared to the baseline period 1986–2005 (CRCP Nepal, 2021). The maximum and minimum temperatures are expected to be increasing at a higher rate than the average temperature.
There exists considerable uncertainty in future precipitation, as the variability is compounded by the influence of El Niño-Southern Oscillation (ENSO) and the Indian Ocean Dipole (CRCP Nepal, 2021). These two phenomena affect occurrence of intense rainfall as well as droughts in the region. Using Coupled Model Inter-comparison Project Phase 5 (CMIP5) models and the four Representative Concentration Pathways (i.e. RCP2.6, RCP4.5, RCP6.0, and RCP8.5) it was estimated that the projected precipitation will decrease in the 2050s and increase for the 2090s (CRCP Nepal, 2021). Nonetheless, occurrence of extreme events will cause intensity of rainfalls, and thus floods, to increase.
The latest modeling updates using the CMIP6 and the Shared Socioeconomic Pathways (SSPs), shown by the World Bank’s Climate Change Knowledge Portal, show the projected precipitation for 2020-2039, compared to reference period 1995-2014. It is seen that the median values of monthly precipitations for the months of November to March for all SSPs will likely be decreasing (from about 5% to 15%) while the wetter months will be increasing with a smaller amount of about 5%. The drier periods will be drier. For the next time horizon of year 2040-2059, the median monthly precipitations will increase marginally for the wet months of June to October and remain similar for the rest of time compared to the reference period.
An assessment of water sector policies carried out by the project identifying gaps and needs, along with stakeholder consultations and the priorities identified thereof recommended that climate-responsive infrastructure design support is required. The gradual increase in average temperatures, coupled with the climate variability and the increasing occurrences of extremes in climate, whether precipitation or temperature rise, is expected to enhance risks to Nepal’s infrastructures and livelihoods. Some examples of risks arise from potential threats of GLOFs, geohazards such as landslide induced floods, enhanced sediment mobilization, fluvial flooding as well as reduced low flows affecting hydro-electricity generation. Climate-related disasters across the world have focused attention on the need for resilient and adaptive infrastructure. The development of infrastructures in the water sector in Nepal need to be resilient or adaptive to the future climate scenarios. It needs to be designed and operated in a way that copes better with today’s extremes and is resilient to the more ‘extreme extremes’ of the future.
Increased temperature and the shifts in precipitation patterns have and will cause additional demands on water infrastructures, including hydropower. The river flows are impacted by climate change altering water availability at the source, as well as additional risks from increasing frequency of extreme events including droughts. Sediment loads are also expected to increase. Potential risks and impacts will differ according to the location of the power projects, size and characteristics of catchment, type of project development as well as the individual arrangements for water diversion or storage, intake, sedimentation, conveyance, power generation and evacuation, tailrace including the overall setup of appurtenances. It is also important to have information available on geohazards and climate risks at river basins where significant hydropower development is envisaged as well disaster risk management action plans (DRM-APs) and service continuity plans for existing hydropower plants to minimize disruption to service.
The Department of Electricity Development, Government of Nepal lists the following guidelines for hydropower developers in Nepal.
These manuals do not address explicitly climate change scenarios and the projected changes to make the design, construction and operation climate responsive, resilient and adaptive to climate change. It is essential to develop an addendum ( or addenda if the Expert proposes) to these design manuals to incorporate climate change aspects in designs so that the developed infrastructures are climate resilient or adaptive to future climate scenarios.
Climate-resilient infrastructure is characterized by its ability to anticipate, prepare, and adapt to adverse climate conditions. It must be able to steadily resist, respond, and quickly recover from disruptions caused by climatic conditions. The services of a Consultant is required to carry out the work “Towards Climate Resilient Hydropower Infrastructures – Adding to Design Guidelines” to better analyze the interventions needed and prescribe the best way forward to make the hydropower water sector more resilient to future climate change and impacts with preparations of the products as detailed in Section C below.
C. Statement of Intent
The Climate Resilient Hydropower Infrastructure Expert will be responsible for understanding and identifying the potential impacts of climate change on hydropower projects in Nepal to define entry points and recommend specific improvements on the existing design guidelines in practice in Nepal to address climate change impacts and make the sector more resilient to climate change and its impacts.
Note:
It is not the intent of this Terms of Reference to cover every aspect of the position requirements, rather to highlight the most important areas of personal and joint responsibilities.
D. Duties and Responsibilities
The Climate Resilient Hydropower InfrastructureExpert will be responsible for:
E. Qualifications
F. Deliverables and Payment Plan
G. Deliverables
The Climate Resilient Hydropower Infrastructure Expert will have the following deliverables:
H. Reporting Relationships
The Climate Resilient Hydropower Infrastructure Expert will report to the Director, Climate Resilience and work in close coordination with Project Director CARE for South Asia Project, Bangkok (Thailand). The technical oversight will be provided by Integrated Water Resources Management Specialist (Regional) at the Bangkok office and country water sector specialists through the PIU.
I. Contract Type and Duration
The contract duration will be for 06 months with no scope of extension.
Expected start date: The position assignment is expected to start in June 2024.
Type: The type of the contract is “Output-based” as described in Section F of above.
J. Selection Method
The consultant will be selected in accordance with ADPC’s recruitment process and in compliance with the World Bank Procurement Regulations.
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