Application of solar energy for the needs of increasing the reliability of the water supply and wastewater systems of the city of Sambir (construction of a solar power plant at stations I and II of the Sambir VUVKG lift)

Sector
Municipal infrastructure and services
Stream
Modernization of centralized water supply and wastewater infrastructure, including the introduction of alternative energy sources
Preliminary Investment Feasibility Study
Project Status
Investment Feasibility Study
Entry into Portfolio
Local level of SPP
Implementation
Completion

General information

Description of the project

The project involves the construction of solar power plants at stations I and II of the Sambirsk VUVKG lift in order to increase the reliability and continuity of the water supply and drainage systems of the city of Sambora. The implementation of the project is aimed at solving critical problems of energy dependence of water utility facilities, which are among the most energy-intensive in the municipal infrastructure and significantly depend on the stability of the power supply. Frequent fluctuations in electricity prices, risks of accidents in the power system and potential outages create a threat of interruption of water supply and operation of pumping equipment, which directly affects the life of the community and sanitary and epidemiological safety.

The project plans to install modern photovoltaic modules with a total capacity sufficient to partially cover the annual electricity needs of stations I and II of the lift, which together consume a significant amount of electricity. This will provide backup power to critical equipment, reduce electricity costs, and increase the resilience of the water and sewerage infrastructure. The solar plants will operate in parallel with existing networks, creating an additional level of energy security in case of crisis situations. The expected results include increasing the energy independence of the water utility, reducing operating costs, reducing CO₂ emissions through the use of renewable energy, and improving the quality and stability of water supply services for community residents. The implementation of the project will contribute to achieving sustainable development goals and increase the resilience of municipal infrastructure to external risks in the long term. 

The purpose of the project

Main goal:

Introducing innovations and energy-efficient solutions

Secondary goal:

Contribution to climate or environmental goals, Increasing compliance with modern standards, Creation of new facilities and services, Improving the condition of infrastructure, Improving the quality of services

Description of the purpose of the project and ways to achieve it

The project's goal is to ensure stable and uninterrupted operation of the water supply and drainage systems of the Sambirsk Waterworks by implementing a non-volatile and climate-sustainable source of electricity supply - solar power plants at stations I and II of the lift, which will reduce the enterprise's energy consumption and reduce CO₂ emissions. Methods of achievement: * construction of two new engineering structures - solar power plants at stations 1 and 2 of the lift; * installation of modern photovoltaic modules, inverters and operation monitoring systems; * integration of the solar power plant into the waterworks' power supply system with the possibility of further increasing capacity; * optimization of energy consumption and installation of equipment resistant to voltage fluctuations; * introduction of innovative solutions for backup power supply of critical infrastructure; * use of renewable energy to reduce the enterprise's operating costs. Sambirsk VUVKG is completely dependent on unstable power supply from the grid; frequent fluctuations and emergency shutdowns lead to the shutdown of pumping units; high electricity costs (1452 MWh per year); lack of backup power sources; critical infrastructure is vulnerable during accidents or peak loads. Availability of its own renewable energy source capable of providing a significant share of the needs of pumping stations; stable operation of water supply and wastewater systems; reduction of the burden on the water utility budget; increased resilience to emergencies; reduction of CO₂ emissions; fulfillment of community obligations under the Covenant of Mayors.

Problems and solutions resulting from project implementation

The water supply and drainage systems of the Sambirsk Water Utility operate in conditions of high energy dependence, which creates significant risks for the stability of their functioning. Pumping stations of the 1st and 2nd rise consume significant amounts of electricity, and the increase in tariffs, frequent power outages and the threat of emergency shutdowns directly affect the continuity of water supply to the population and critical infrastructure facilities. An additional factor is the wear and tear of electrical equipment and the lack of backup power sources, which increases the likelihood of downtime and reduces the reliability of services. The relevance of the problem is exacerbated in conditions of climate change, when rising temperatures and extreme weather events increase the load on water management systems, as well as in conditions of martial law, when the stability of water supply is critically important for the safety of the population. If the problem is not resolved, an increase in the frequency of failures and interruptions in water supply, an increase in the financial costs of the water utility, a deterioration in the quality of services and a decrease in the community's resilience to crisis situations are possible. The implementation of the project will reduce the water utility's dependence on external electricity supply, reduce energy costs, increase energy security, ensure uninterrupted operation of key water management facilities, and contribute to the community's climate goals by reducing CO₂ emissions. This will ensure reliable water supply for the population, businesses, and social infrastructure, increasing the overall sustainability and efficiency of the system.

Socio-economic context

Indicator

Value

Number of employees of the institution/institution/organization

72 human

Capacity

210 kW

Number of IDP users

3200 human

Number of people who will use the service

37982 human

Strategic Case

Strategic feasibility of the project

Sector

Municipal infrastructure and services

Subsector

Water supply and sanitation

Stream

Modernization of centralized water supply and wastewater infrastructure, including the introduction of alternative energy sources

Strategic document

Task

Operational objective 2.2 Improving the ecological state of the environment Task 2.1.1 Improvement of the community's sewage and water supply system

Project objectives

Indicator
Base value
Target value
Share of water utility electricity covered by own generation
0 %
20 %

Demand for the service and its dynamics

Indicator
Year
Demand
Annual demand for services/infrastructure
1
1500 MW
Annual demand for services/infrastructure
2
1500 MW
Annual demand for services/infrastructure
3
1500 MW
Economic justification

Alternative technical solutions

Technical Solution 1

Application of solar energy to increase the reliability of the water supply and wastewater systems of the city of Sambir (construction of a solar power plant at stations I and II of the Sambir VUVKG lift)

Technical Solution 2

Installing a solar power plant at only one lift station or with a lower capacity.

Total costs9'320'000 UAH4'815'000 UAH
  • For preparation
    • 300'000 UAH250'000 UAH
  • For implementation
    • 9'000'000 UAH4'500'000 UAH
  • For operation
    • 20'000 UAH15'000 UAH
  • For closing
    • 0 UAH50'000 UAH
    Average annual costs10'000 UAH10'000 UAH
    Project duration, incl.12 months8 months
  • Deadline for developing a FFS
    • 3 months2 months
  • Implementation period
    • 9 months6 months
    Service life300 months180 months
    Target indicatorsDefined Defined
    Technical Solution Status
    Active
    Rejected
    Components of a technical solution
    To components
    1
    To components
    0

    Financial justification

    Total project budget

    Total preliminary budget9'320'000 UAH4'815'000 UAH
    Capital costs9'320'000 UAH4'815'000 UAH
    Operational costs0 UAH0 UAH

    Preliminary cost breakdown

    Operating costs for implementation0 UAH0 UAH
    For preparation300'000 UAH250'000 UAH
    For implementation9'000'000 UAH4'500'000 UAH
    For operation20'000 UAH15'000 UAH
    For closing0 UAH50'000 UAH

    Average project cost per service recipient

    Service Unitзабезпечення електроенергією одного мешканця м. Самбір для водопостачання/водовідведення
    Service Unit Cost120 UAH

    Profitability of the project

    Is the project expected to generate income?

    ResponseNoNo

    Project Financing Mechanisms

    Are funding sources and mechanisms identified?

    Source and MechanismYesNo

    Funding Sources

    Approved Funds0 UAH0 UAH
    Expected Funds0 UAH0 UAH
    Management Rationale

    Risk assessment

    Market riskDefinedUndefined
    Results of the feasibility analysis
    Economic Analysis
    Social benefits and costs
    The implementation of the project will ensure increased reliability of water supply and drainage for community residents, which directly affects the quality of life and sanitary and hygienic safety of the population. Thanks to the stable operation of the water utility, the risks of water supply interruptions are reduced, especially during accidents or peak loads on the energy system. An additional benefit is increased resilience of critical infrastructure in emergency situations and possible attacks on energy facilities. There are no or minimal social costs, since the project does not require changes in tariffs or additional payments by the population. The implementation of the project also contributes to the positive image of the community as one that implements modern sustainable solutions.
    Environmental benefits and costs
    The installation of solar power plants will reduce CO₂ emissions, as a share of the electricity for the water utility will be generated from a renewable source, which reduces the burden on the environment. The project will contribute to improving the quality of atmospheric air by reducing the use of energy produced from fossil fuels. In addition, reducing energy consumption from the network will reduce the risk of man-made load on the energy system of the region. Environmental costs are minimal and are associated only with the production and disposal of equipment, but these processes are regulated by international standards and have limited negative impact. Overall, the environmental effect of the project is positive and significantly outweighs possible minor impacts.
    Indirect benefits and costs
    The implementation of the project will contribute to increasing the investment attractiveness of the community, as it will demonstrate its orientation towards modern and energy-efficient technologies. Reducing dependence on fluctuations in electricity prices will improve the financial stability of the utility and reduce the risks of unforeseen costs in the future. The installation of solar power plants creates opportunities for the development of local expertise in the field of renewable energy and the formation of new partnerships. At the same time, indirect costs are possible due to the need for periodic training of personnel to work with new equipment and potential delays due to weather or technical factors.