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Population connected to public sewerage network and WWTPs

Last update of indicator22.01.2024

Indicator definition

The indicator describes the share of population connected to public sewerage and WWTPs.

Units

%, thous. m3, tons, number

Metadata

Related policy documents and targets

Action Plan for Water Protection in the Protected Water Management Area of Žitný ostrov (2023)
 
The main goal of the Action Plan is to effectively protect the quality and quantity of groundwater on Žitný ostrov as the most important source of drinking water in Slovakia.
 
Therefore, the proposed preventive measures are mainly aimed at:
  •  preventing or limiting the entry of pollutants into the groundwater and preventing the deterioration of the condition of all groundwater bodies,
  •  reversing any significant and permanently upward trend in the concentration of the pollutant, which is caused by human activity, in order to gradually reduction of groundwater pollution. The key areas for which measures are proposed in the Action Plan were identified in the Problem Analysis. These are the following areas/problems:
  • excessive use and development of the territory threatening the quality and quantity of water in CHVO Žitný ostrov,
  • unsupportive legal regulations and weak enforcement of the law,
  • insufficient information system and connection of monitoring systems,
  • insufficient environmental awareness and education of professional and lay people public.
 
Based on the analysis and the established vision, specific goals were proposed:
  • sustainable use of the territory and its development,
  • safe drinking water taken from CHVO Žitný ostrov,
  • reduction of threats to groundwater quality from local sources of pollution,
  • reliable monitoring and information system,
  • environmentally responsible approach to the protection and use of water.
The implementation of the Action Plan will be evaluated in 2027. The measures will be evaluated and then, as necessary, incorporated into the update of the Water Plan of Slovakia, or to planning documents in other areas (e.g. waste management, environmental burdens, spatial planning).

 

The concept of the water policy of the Slovak Republic until 2030 with a view to 2050 (2022)

The concept formulates measures in ten areas of intervention and indicators and a time frame for the implementation of individual measures are assigned to them. The achievement of the target value is generally considered for the year 2030, unless another time frame is indicated. In the case of indicators where the initial value is not known, the expected development trend (increasing/decreasing) is indicated.

The concept of water policy focuses on ten priority areas, which are interconnected, and focuses on the area of ​​water use.

 3. Sustainable use of water

Goal 3.1. Sustainable and efficient use of surface and underground waters without endangering their quantity and quality

Goal 3.2. Functional crisis management in times of drought and water shortages

4. Water for all residents

Goal 4.1. Ensuring the supply of health-safe drinking water for all residents

Goal 4.2. Increasing the connection of residents to municipal wastewater treatment systems and increasing the share of treated municipal wastewater


Water plan of the Slovak Republic for period 2022 - 2027 (2021)

Environmental objectives aim to ensure and improve the quality of aquatic ecosystems and sustainable, balanced and equitable water use. Environmental targets are defined for surface water bodies, the groundwater bodies and the protected areas.


Environmental target for surface water bodies is to perform measures aimed at:

  • Preventing deterioration of the condition of surface water bodies;
  • Protection, improvement and restoration of surface water bodies in order to achieve good surface water status by December 22, 2015 or 2021 within the second planning cycle, or until 2027 within the third planning cycle;
  • Protection and improvement of artificial and considerably changed surface water bodies so that the good ecological potential and good chemical condition are achieved until 22 December 2015 and 2021 within the second planning cycle, or until 2027 within the third planning cycle;
  • Gradual decreasing in pollution by priority substances and stopping or gradual termination of emissions, discharge and leakages of priority dangerous substances.

Environmental objectives aim to ensure and improve the quality of aquatic ecosystems and sustainable, balanced and equitable water use. Environmental targets are defined for surface water bodies, the groundwater bodies and the protected areas.

Environmental target for underground water bodies is to perform measures aimed at:

  • Preventing or limiting entry of pollutants into underground water and at preventing deterioration of the condition of underground water bodies;
  • Protection, improvement and renewal of underground water bodies and at ensuring the balance between underground water takings and completing their quantity in order to achieve the good condition of underground water until 22 December 2015 and 2021 within the second planning cycle, or until 2027 within the third planning cycle;
  • Reversing the important increasing trend of the pollutant concentration that is caused by human activities in order to decrease the underground water pollution gradually.

 

Plan for the development of public water supply systems and public sewers for the territory of the Slovak Republic for the years 2022 - 2027 (2021)

A. Plan for the development of public water supply systems

The Water Supply Development Plan is a starting document drawn up in accordance with the requirements established by the European Union for the fulfillment of the basic condition for the financing of measures in the field of water management in the program period 2022 – 2027.
 
The goal of the Public Water Supply Development Plan is to analyze the conditions for ensuring the necessary level of drinking water supply, to establish priorities and conditions for its implementation.
The strategic goal of the development of public water supply systems is to increase the number of inhabitants supplied from public water supply systems and to ensure the supply of health-safe drinking water.
 
The plan for the development of public water supply systems proposes to implement:
  • construction of public water supply systems in villages without water supply systems
  • increasing the number of inhabitants supplied from public water supply systems
  • and ensuring problem-free supplying residents with safe drinking water without negative impacts on residents' health and the environment.
The strategic goal is to ensure that the supplied drinking water meets health safety requirements and the limits of drinking water quality indicators for all residents of the Slovak Republic. Municipalities within the reach of the constructed water systems will gradually be supplied with water and the inhabitants will be supplied with drinking water supplied from high-quality water sources. Water supplies should gradually be built in municipalities that are beyond the reach of current water supplies and large-capacity sources. In the case of municipalities that are currently without a public water supply system, a proposal is presented to solve the supply until 2027, or the following years, depending on available public financial resources. If no solution method is proposed for the village, this village will be solved after 2027.
 

B. Public Sewerage Development Plan

The main goal of the Public Sewerage Development Plan is to establish the basic optimal concept for the development of sewerage and wastewater treatment in municipalities in the Slovak Republic until 2027. Council Directive 91/271 establishes the corresponding conditions for the removal and treatment of municipal wastewater for EU member states. /EHS on municipal wastewater treatment.
 
Goals for the development of public sewers by 2027:
 
7.1. Development of public sewers until 2027
 
I. Priority implementation of sewerage constructions
  • construction, expansion and increase of the hydraulic capacity of sewage networks in municipalities from agglomerations larger than 2,000 EO, construction, expansion and increase of the capacity of waste water treatment plants in municipalities from agglomerations larger than 2,000 EO (agglomerations with the highest priority are contained in Annex No. 6),
  • construction of sewer networks and wastewater treatment plants in agglomerations up to 2,000 EO, located in protected water management areas, in which there are large-capacity sources of groundwater and which aim to prevent threats to quality and quantity of groundwater so that their use is not endangered (CHVO Žitný ostrov),
  • construction of wastewater treatment plants, or feeder to another sewage system in municipalities included in agglomerations of less than 2,000 EO, in cases where a sewage network is already built or partially built and wastewater is discharged without treatment.
II. ongoing implementation of sewage construction
  • ongoing construction, expansion and increase of the hydraulic capacity of sewer networks and capacity increase and construction of new waste water treatment plants in all municipalities of the Slovak Republic (except municipalities falling under the National Program for the Implementation of Council Directive 91/271/EEC).
7.2. Classification of municipalities into sewage systems
  • Classification of municipalities into sewage systems by district in size categories of up to 2,000 inhabitants, from 2,001 to 10,000 inhabitants and over 10,000 inhabitants by district. The list of municipalities is given in the appendices of the Public Sewerage Development Plan.
7.3. Renewal of water supply and sewerage infrastructure
  • The concept of renewal of public waterworks and public sewerage systems is elaborated in a separate annex of the public sewerage development plan.

 

Strategy of the environmental policy of the Slovak Republic - Greener Slovakia (2019)

 
Sustainable Use and Effective Protection of Natural Resources
 
Goals: Agglomerations with more than 2,000 inhabitants equivalent will reach 100% and agglomerations with less than this number will reach 50% share of drainage and water treatment by 2030.

1. Enough clean water for everyone

 1.2.Increase in the Proportion of Treated Waste Water

- Where it is efficient, the public sewer system will be completed also in agglomerations with less than 2,000 inhabitants, even in locations that have had limited opportunities to apply for a financial contribution.
- If it possible in regards to the local and regional conditions, Slovakia will make use of the innovative (environmentally friendly) infrastructure (e.g.vegetation, membrane, container waste water treatment plants, etc.) and decentralized cleaning.
- Rainwater in Slovakia is mostly discharged through a unified sewer network into the waste water treatment plant, and thus part of the waste water. The optimization of the waste water infrastructure will enable rainwater and wastewater to be collected separately.

Orientation, principles and priorities of Slovak Republic water management policy by 2027 (2016)

3. Principls a priorities of the Slovak republik water management policy by 2027 and framework procedures in achieving the objectives
 
Priorities of water management 

With a view to water status improvement:
  • Implement the necessary measures aimed at the significant reduction of pollutants in discharged waste water or special waters. When discharging waste water, priority substances contained therein must be gradually decreased and priority hazardous substances should be progressively reduced in order to achieve a desired objective, i.e. the good water status;
  • Subsequently, after the fulfilment of the Slovak Republic´s commitments to the European Union, in relation to the collection and treatment of waste water in the agglomerations above 2,000 p.e., to focus attention on the gradual elimination by organic pollution and nutrients from point sources of pollution also in the agglomerations below 2,000 p.e., where the water body is in a bad status and measures focused on the collection and treatment of waste water will demonstrably contribute to the significant improvement of water quality;
  • Consistently address the reduction of pollution from agriculture in vulnerable areas in accordance with the requirements and procedures arising from the Council Directive 91/676/EEC, concerning the protection of waters against pollution caused by nitrates from agricultural sources, and wherever the good water status hasn´t been achieved and intense agricultural activity has been performed. Measures must be designed and implemented so as to prevent penetration of nitrates from agriculture into waters. When reducing the pollution from agricultural production, it is necessary to consistently apply all the principles of the EU Common Agricultural Policy and Good Agricultural Practice;

 

The Slovak Republic Strategy for Adaptation to Adverse Effects of Climate Change- Update (2018)

1.Strategy Goals

The main goal of the updated the Slovak Republic Strategy for Adaptation to Adverse Effects of Climate Change is to prepare Slovakia for tackling the adverse effects of climate change, deliver comprehensive information about the current state of adaptation processes in Slovakia, and based on their analysis establish an institutional framework for a coordinating mechanism which will ensure effective implementation of adaptation measures across all levels and in all areas, as well as improve general awareness of the domain.
 
5. Impact of climate change on select areas and recommended adaptation measures
 
5.4. Water regime and water management
 
Adaptation measures in local conditions should aim at compensating for the instances of drought, that is, the decrease of flows of water and water yields, as well as minimising the negative consequences of floods, especially flash floods in montane and submontane regions. Climate change adaptation within the domain of water management should be oriented towards implementing measures which will create the conditions for better water outflow management in catchment areas. In the domain of water management elements of green and blue infrastructure, green structural approaches and non-structural adaptation concepts should be prioritised over elements of grey infrastructure whenever it is technically possible and efficient to do so. Adaptation measures should focus on preserving or improving the current state of water, with the aim of achieving its good state, efficient and sustainable utilisation of water resources, protection against floods and contribution towards protection of nature and land and support with ecosystem services provision. It is important to create space for a wider application of so-called "green" measures in catchment areas where the main goal is to increase the land's adaptability through regeneration and improvement of efficiency of ecosystem functions of the land. "Green" measures are recognised as the better environmental choice, that is, as supplementary-mitigating measures with the aim of minimising the consequences of grey infrastructure, assuming that they are equally effective or more effective in regards to set goals.
Water is becoming a critical strategic stock of the state and it is necessary to protect it and manage its rational and efficient use in line with the goal of ensuring sustainable development. Justifiably, the highest priority is given to water sources, their protection and the need of their more efficient use.

Proposed adaptation measures
-slowing down of water outflow from catchment areas
-decreasing of the maximum flow of floods
-risk assessment
-water management
-general
 

The Protocol on Water and Health - to the Convention on the Protection and Use of Transboundary Watercourses and International Lakes, 1992 - National objectives of SR III (2014)

The reason for the Protocol´s objectives update in 2014 is their fulfilment, or the need of extending the deadlines for the fulfilment of objectives which are still actual, as well as determining new national objectives conditioned by the situation change and the occurrence of new problems to which the attention must be paid, and which seem to be important in terms of Protocol´s objectives implementation in SR. SR has defined the national objectives already for the third time since the Protocol entered into force.

National objectives of SR III

National objective no. 5: Improving the situation of sewerage, treatment and discharge of municipal waste water
Date of fulfilment: y. 2020, or 2023

Key question

Has the pollution of surface water caused by waste water discharges been reduced?

Key messages

  • In 2005, 56.7% of the population was connected to public sewerage, and 71.00% of the population was connected in 2022.
  • The total capacity (wastewater treatment plant) in 2022 was 1,715.1 thousand. m3.day-1, while in 2005 it represented 2,194.5 thousand m3.day-1.
  • In the monitored period (2005-2022), the number of WWTPs increased by 275.
  • The share of pollution discharged through the sewer network in agglomerations over 2,000 EO in 2020 represented 85.9%.
  • In agglomerations in the size category below 2,000 EO connection to the sewage network in 2020 reached the level of 29.6%.
Change since 2005 Change since 2015 Last year-on-year change
emo_smile Pozitivny trend emo_neutral
The share of residents connected to public sewerage increased by 14.3 percentage points compared to the mentioned years. The number of wastewater treatment plants increased, the total capacity of the WWTP decreased.
The number of residents connected to public sewers has increased. The number of WWTPs recorded a slight increase, the total capacity of WWTPs had a balanced character with a significant increase in 2018. The share of residents connected to the sewage network in agglomerations with more than 2,000 EO increased slightly. The connection to the sewer network in agglomerations under 2,000 EO grew minimally.
The share of residents connected to public sewers grew by 0.38 percentage points. The number of WWTPs decreased slightly and the total capacity of WWTPs was at the level of last year 2021. The share of residents connected to the sewer network in agglomerations increased slightly.

 

Summary assessment

Share of population connected to public sewerage network in individual districts of the Slovak Republic (2022)

 

 

Surce: WRI

Detailed assessment

 
The development of public sewerage systems is far behind the development of public water supply systems. The number of inhabitants living in houses connected to public sewerage system in 2022 amounted to 3,856 thousand of inhabitants, which represents 71.00% of the total population. Out of 2,890 independent municipalities, 1,190 municipalities had the public sewer system built (i.e. 41.18% of the total number of municipalities in SR). In 1990, 50.8% of the population was connected to the public sewerage, and in 2005 it was 56.7%. In the period 2000 – 2022, the number of population connected to public sewerage increased by 849,000.

Public sewerage systems in municipalities (administered by water companies and municipalities) in 2022

Region
Number of independent municipalities Number of municipalities with public sewerage systems % of municipalities with public sewerage systems
Bratislavský 73 50 68.49
Trnavský 251 162 64.54
Trenčiansky 276 107 38.77
Nitriansky 354 138 38.98
Žilinský 315 188 59.68
Banskobystrický 516 151 29.26
Prešovský 665 232 34.89
Košický 440 162 36.82
Total 2 890 1 190 41.18
Source: WRI, SO SR
 
In 2022, 727 wastewater treatment plants were administered by water companies, municipalities and other entities, while in 2005 there were 442. The largest share is represented by mechanical-biological WWTP. In 2022, the total capacity of wastewater treatment plants (WWTP) was 1,715.4 thousand m3. day-1.



 

Drainage and purification of waste water in agglomerations

In 2020, the share of residents connected to the sewer network in 2,047 agglomerations in the size category below 2,000 was at the level of 29.58%. According to regions, the highest connection to the sewer network was recorded in the Bratislava region (63.3%) and the lowest was recorded in the Trenčín region (10.6%). In Slovakia, there are cases when wastewater from one agglomeration is treated by several WWTPs or the opposite case , when one WWTP cleans wastewater from several agglomerations, then it is counted only once in the final number of WWTPs and such a WWTP is called unique. In agglomerations in the size category below 2,000 EO, 514 unique WWTPs were registered in 2020, which ensure wastewater treatment from 622 agglomerations. Of these, 68 WWTPs treat wastewater in accordance with Art. 4 directive, especially from municipalities from agglomerations in the size category above 2,000 EO. The remaining 446 WWTPs provide sewage treatment exclusively from municipalities from agglomerations in the size category below 2,000 EO. The area of ​​municipal wastewater removal and treatment in agglomerations with a size of over 2,000 equivalent inhabitants is characterized by extensive and intensive construction of sewage networks and WWTPs. In 356 agglomerations in the size category above 2,000 equivalent inhabitants, the share of pollution removed by the sewer network in 2020 was 87.85%. The highest connection of residents to the sewer network, based on the total number of municipalities belonging to the size category of over 2,000 equivalent inhabitants at the regional level, was recorded in the Bratislava Region (96.8%) and the lowest in the Nitra Region (76.1%). All municipal wastewater produced in agglomerations with a size of over 2,000 EO should be cleaned in accordance with the requirements of Article 4 of the directive - removal of organic pollution. In agglomerations in the size category above 2,000 EO, 272 unique WWTPs were registered in 2020, of which in accordance with Art. 4 directive, there were 261 WWTPs.

Contact

Ing. Ľubica Koreňová, SAŽP, lubica.korenova@sazp.sk

Related definitions:

Connection rate of public to public sewerage is a percentage of the population connected to the sewage network.

Waste water is water used in residential, manufacturing, agricultural, medical and other buildings and facilities or means of transport, if it has altered quality after its use (composition or temperature). The waste water may be sewage, industrial and municipal (Section 2 point. j) of the Act no. 364/2004 Coll.)

BOD5 is biochemical oxygen demand in 5 days, and it is the amount of oxygen consumed by microorganisms during biochemical oxidation of organic matter in aerobic processes, and without the concurrence of photosynthesising microorganisms over a certain time.

CODCr is a chemical demand by dichromate and determines the amount of oxygen required for the oxidation of organic substances, using oxidizing agents.

IS - insoluble substances


Methodology:

In the water management balance of surface water amounts there are recorded all users abstracting surface water in the amount of over 15, 000 m3 annually, or over 1, 250 m3 monthly. In discharges records, there are included all users that discharge more than 10, 000 m3 per year or more than 1, 000 m3 to surface waters.
Balance calculation – is done in the balance profiles network for all 12 months of the calendar year and an annual average in flow units (m3.s-1). For each balance profile the following balance characteristics are determined and given:
  • The total surface water abstractions (PO)
  • The total groundwater abstractions (PZO)
  • The total discharges into streams (V)
  • Change of flow rate (X)
  • Minimum balance flow rate (MQ)
  • The minimum required flow rate (MPP)
  • Influenced flow rate (E)
  • Impact of reservoirs (N)
  • The impact of water transfers and manipulation in partition objects (P)
  • Flow rate affected by reservoirs, water transfers and partition objects (ENP)
  • Net flow rate (C)
  • Long-term flow rate (D)
  • Coefficient of water content (KV)
  • Balance status (BSC, BSENP)
  • Resource capacity (KZC, KZENP)

More detailed information and description of the methodology:
Water management balance of SR


Data sources:

SHMI, WRI, SO SR

Related indicators:

 

Related international indicators:

 

Linked references: