Sustainable Development of Reclamation in Russia on the Basis of
Increasing the Technical Level and Improving the Ecological State of
the Reclamation Complex
G. V. Olgarenko
a
, V. I. Bulgakov and T. A. Kapustina
b
Federal State Research Institution All-Russia Scientific and Research Institute for Irrigation and Farming Water Supply
Systems “Raduga”, Kolomna, Russia
Keywords: Reclamation System, Assessment of Technical and Operational Parameters, Technical Level, Ecological State,
Recommendations, Technical Proposals, Operational Efficiency.
Abstract: Development of methodological recommendations for assessing the technical level, technical and operational
parameters, and the ecological state of the reclamation fund, increasing the technical level (modernization) of
reclamation systems and the ecological state of reclaimed lands, the efficiency of using interfarm and
intrafarm reclamation systems. The article presents an analysis of the technical level and technical and
operational parameters of reclamation systems, a qualitative assessment of the ecological state of reclaimed
lands. Recommendations for improving the technological and environmental quality of the operation of
reclamation systems and lands are developed. The relevance of scientific research is due to the need to
improve the efficiency of the use of integral resources and reduce the energy intensity of the operation of
reclamation systems, largely depending on the validity of decisions made on reconstruction, heavy overhaul
and service checks, water use and water distribution in reclamation systems.
1 INTRODUCTION
Hydro land reclaiming systems are complex natural
and technical objects, that function under conditions
of uncertainty in the dynamic impact of a complex of
external and internal factors, that change in space and
time. The technical level and efficiency of the hydro
land reclaiming system operation is a hierarchical set
of structural, technical, economic, technological,
ecological and operational indicators, that determine
the production function of the system's compliance
with its purpose. Low technical level and poor
technical and operational parameters of hydro land
reclaiming systems lead to the danger of emergencies,
a decrease in safety and reliability indicators, which
leads to low values of efficiency, causes significant
losses of irrigation water, leading not only to a
decrease in the efficiency of reclaimed lands, but also
to environmental degradation of the natural
environment (negative impact on the environment)
(Reclamation complex, 2020; Report on the
a
http//orcid.org/0000-0003-1225-3147
b
https://orcid.org/0000-0003-3109-4460
implementation, 2018; Information portal of FSBSI,
2021).
It is necessary to develop and form a base of initial
data for assessing the technical level of reclamation
systems, agroecological and functional state, and use
of the reclamation fund and, on this information and
analytical basis, develop methodological
recommendations for the development of the
reclamation complex, taking into account the
technical level, ecological state and actual use of the
reclamation fund.
Carrying out of research work in this direction
will allow to objectively assess the work and
technical level of regional hydro land reclaiming
systems and develop recommendations on the priority
of the timing and cost of works during the
reconstruction, modernization of systems, to ensure
high-quality performance of capital and maintenance
operational works, and agricultural producers to
increase the yield of agricultural crops on reclaimed
land.
Olgarenko, G., Bulgakov, V. and Kapustina, T.
Sustainable Development of Reclamation in Russia on the Basis of Increasing the Technical Level and Improving the Ecological State of the Reclamation Complex.
DOI: 10.5220/0010586200650072
In Proceedings of the International Scientific and Practical Conference on Sustainable Development of Regional Infrastructure (ISSDRI 2021), pages 65-72
ISBN: 978-989-758-519-7
Copyright
c
2021 by SCITEPRESS Science and Technology Publications, Lda. All rights reserved
65
2 PURPOSE
Development of methodological recommendations
for assessing the technical level, technical and
operational parameters, and the ecological state of the
reclamation fund, increasing the technical level
(modernization) of reclamation systems and the
ecological state of reclaimed lands, the efficiency of
using interfarm and intrafarm reclamation systems.
The main tasks, solved in the course of research:
to conduct a scientific and technical analysis of
scientific and technical and production
materials on the technical and ecological state
of the reclamation fund and on the operation of
reclamation systems;
to develop a methodology for assessing and
criteria for reliable stable operation of hydro
land reclaiming systems during the life cycle;
to justify and develop recommendations for
improving the technical and ecological state of
the reclamation fund and the standard operating
mode of reclamation systems.
3 RESEARCH METHODOLOGY
When undertaking scientific information-analytical
and statistical research, standard methodological
approaches were used, scientific-methodical and
regulatory-technical documents were studied,
methods of analysis of the technical level and
technical and operational parameters of reclamation
facilities and the ecological state of reclaimed lands
were used (Information portal of FSBSI, 2021; The
consolidated report, 2019; Temporary provision,
2012).
The methods for assessing the technical level and
efficiency of hydro land reclaiming systems operation
establishes the nomenclature of indicators, used to
assess the technical level and technical state of hydro
land reclaiming systems and hydraulic structures, as
well as the procedure for conducting and formalizing
the assessment results (GOST R 58376-2019).
The nomenclature of parameters for assessing the
technical level of hydro land reclaiming systems and
hydraulic structures includes the following
indicators: the engineering-technical level and the
technical and operational state of the facility, the wear
percentage (depreciation); the volume of water
intake, (irrigation) or water disposal (drainage); the
presence of a dispatch control system; equipment
with control and metering devices; availability of
design estimates, operational documentation,
technical passport, safety declaration; availability of
qualified service personnel; availability of special
equipment, machinery and equipment for operation;
the yield of agricultural crops in the subcommand
(suspended) reclaimed areas; the cost of carrying out
maintenance operational works; the number of
hydraulic engineering posts; the information on
reconstruction and heavy overhaul and measures,
taken at the facility, to ensure operational reliability.
According to the technical level and technical and
operational state, reclamation facilities are divided
into four classes (Table 1):
first - facilities with a good level of technical
state: facilities are equipped with a full set of
all technical means, have the necessary
reliability of all elements and ensure the
performance of the functions assigned to them
within the specified accuracy limits, the
reconstruction of such facilities is not required;
second - facilities with a satisfactory level of
technical state, that is, the issue of the need to
carry out works to maintain the technical level
or to carry out reconstruction in the amount of
up to 25% is considered on an individual basis
to modernize and increase the technical level;
third - facilities with an insufficient level of
technical state: they need to consider the
feasibility of reconstruction in the amount of up
to 50% of the book value of fixed assets,
depending on the plans for the development of
agricultural production on the reclaimed lands,
it is necessary to make a decision on the
reconstruction or conservation of these
facilities until the period of demand;
fourth - facilities with an unsatisfactory level of
technical state: such facilities require complex
reconstruction in the amount of more than 50%
of the book value of fixed assets, or it is
necessary to make a decision on the
conservation of these facilities or pension off
(Olgarenko, 2015).
The results of the assessment are used to analyze
the indicators of the technical and operational state of
the existing hydro land reclaiming systems and
hydraulic structures, make a decision on the
feasibility of reconstruction, technical re-equipment,
or heavy overhaul of hydro land reclaiming systems
and hydraulic structures.
ISSDRI 2021 - International Scientific and Practical Conference on Sustainable Development of Regional Infrastructure
66
Table 1: Indicators for assessing the technical level and technical and operational parameters of the reclamation facility
(irrigation system, drainage system, canal, separately located hydraulic structure).
The main standard indicators for assessing the technical and
o
p
erational state
Technical and operational state class
1 2 3 4 5
I II III IV
System name, location, cadastral numbers of plots
1. Technical condition, wear percentage (depreciation)
Up to 50%
50-
75%
75-90%
More than
90%
2. The volume of water intake, (irrigation) or water disposal
(drainage), the percentage of the design indicator of the reclamation
facilit
y
More than
75%
50-
75%
25-50%
Less than
25%
3. Availability of a dispatch control system - yes/no If any, then I-II If not, then III-IV
4. Equipping with control and metering devices, in % of the design
indicator of the reclamation facility, if there is no data on design
indicators - yes/no
More than
75%
50-
75%
25-50%
Less than
25%
If any, then I-II If not, then III-IV
5. The number of hydraulic engineering posts, in % of the design
indicator of the reclamation facility, if there is no data on design
indicators - yes/no
More than
75%
50-
75%
25-50%
Less than
25%
If any, then I-II If not, then III-IV
6. Availability of design estimates, operational documentation,
technical passport, safety declaration.
Available
in full
Partially available,
then II-III
Not
available
1 2 3 4 5
7. Service personnel, (people), including: Engineering and technical
personnel (1 person per 1,000 hectares), Workers (2 persons per
1,000 hectares)
More than
75%
50-
75%
25-50%
Less than
25%
8. Availability of equipment, (pcs.) Including: (mark by default)
- construction;
+
- specialized reclamation equipment; +
- vehicles. +
9. Yield on the serviced reclaimed areas of the main types of
agricultural crops (t/ha) - check for compliance with the design yield
- rice
- vegetable
- feed
- technical
- cereal
More than
75%
50-
75%
25-50%
Less than
25%
10. The cost of carrying out maintenance operational works as a
p
ercentage of the book value
8-10 % 5-8% 3-5%
Less than
3%
11. Information about reconstruction and heavy overhaul, in
accordance with the date of the last performance
Up to 5
years
5-10
years
10-25
years
Over 25
years
12. Information about the measures taken at the facility to ensure
operational reliability, as well as the prevention and elimination of
emergencies. Annual measures taken and cost.
If any, then I-II If not, then III-IV
Based on the results of data analysis and
comparison with standard indicators, an expert
opinion is prepared, including conclusions and
recommendations for the final assessment of the
technical and operational state of the reclamation
facility and its safety level, compliance with the
structure and staff, qualification support, safety
control, as well as technical proposals for increasing
technical level and improving technical and
operational parameters, of reclamation facility with
an indication of the types, volumes, and cost of
construction and installation work and equipment.
The assessment of the ecological state of the soils
of the reclaimed lands is carried out on the basis of
standard assessment methods and a methodology,
developed with the participation of the authors. A
three-level system of qualitative assessment is
adopted as the main parameters: good, satisfactory
and unsatisfactory state of the land fund
(Methodological recommendations, 1982; Nikitin et
al., 2010).
Sustainable Development of Reclamation in Russia on the Basis of Increasing the Technical Level and Improving the Ecological State of the
Reclamation Complex
67
The main indicators, characterizing the ecological
situation on reclaimed lands, include: the level of
groundwater, salinity and alkalinity of soils; the state
of the surface of reclaimed lands, or a complex of all
negative ecological processes, that appear
simultaneously. Assessment categories reflect the
degree of their suitability for agricultural production
and the direction of measures to improve the land
reclamation state (Nikitin et al., 2010; Technique of
operational, 2015).
The algorithm for assessing the ecological state of
reclaimed lands includes the following procedures:
selection and justification of parameters,
characterizing the ecological situation and standard
values; assessment of the current ecological state of
the soil of reclaimed lands; retrospective analysis of
changes in the ecological situation by individual
parameters; projected development of processes and
predictive assessments of the territory; assignment of
reclamation measures to improve the ecological state
of reclaimed lands.
According to the results of the assessment of the
ecological situation of the reclaimed lands, a list of
reclamation systems and lands is drawn up:
functioning in the normative mode, the assessment of
the situation is good; requiring a set of measures to
prevent or eliminate negative processes during the
operation of reclamation systems or their
reconstruction (the situation is assessed as
satisfactory); requiring implementation of a complex
of reclamation measures to improve the ecological
state of soils at the stage of reconstruction, the
assessment of the situation is unsatisfactory.
4 RESEARCH RESULTS
By 2020, the reclamation fund of the Russian
Federation amounted to 9.45 million hectares,
including with the following structure:
with 4.67 million hectares of irrigated land,
3.86 million hectares were actually used in
agricultural production, and irrigation was
carried out due to the supply of water by state
reclamation systems on an area of 1.69 million
hectares and due to the initiative actions of
agricultural producers, on expert assessment,
about 0.75 million hectares were watered;
with 4.69 million hectares of drained land, 3.16
million hectares were used in agricultural
circulation, and in fact, the regulation of the
water regime and drainage loss is ensured
through state reclamation systems on an area of
about 916.86 thousand hectares (Ugryumova et
al., 2018; Olgarenko and Ugryumova, 2019).
Not used in agricultural production, total
reclaimed land - 2,320.60 thousand hectares,
including:
Irrigated lands - 791.0 thousand hectares, of
which 116.6 thousand hectares were not used due to
salinization and waterlogging. Of the total area of
irrigated land, 2,963.35 thousand hectares were not
watered, including 1,912.92 thousand hectares due to
the irrigation network failure.
Drained lands - 1,528.17 thousand hectares, of
which: due to the drainage network failure - 625.8
thousand hectares, due to poor agroecological state
(close occurrence of GWL, poor water-physical and
agrochemical parameters of soils) - 894.8 hectares.
2,146.42 thousand hectares of irrigated lands are
in federal ownership, 478.8 thousand hectares are
owned by the constituent entities of the Russian
Federation, municipal units, legal entities, and
individuals own 1,216.55 thousand hectares of
irrigated lands, there are 357.35 thousand hectares
ownerless and under registration irrigated lands.
1,117.96 thousand hectares of drained lands are in
federal ownership, 755.47 thousand hectares are
owned by the constituent entities of the Russian
Federation, municipal units, legal entities, and
individuals own 1,670.17 thousand hectares of
irrigated lands, there are 1,877.69 thousand hectares
ownerless and under registration drained lands.
In total, there are 2,868 reclamation facilities in
the Russian Federation, of which 805 are irrigation
systems, 1,052 are drainage systems, 285 are
separately located hydraulic structures (Table 2).
There are more than 34.3 thousand reclamation
facilities in federal ownership, including: 232 water
reservoirs; more than 2 thousand regulating and
distribution waterworks facilities; 134 river stanches;
1.8 thousand supply and discharge pumping stations,
42.3 thousand km of main water supply and discharge
canals; over 3 thousand km of protective stanches and
protection embankments.
Of the reclamation fund of Russia, about 58.4% of
hydro land reclaiming facilities are in federal
ownership, and 34.7% are ownerless. The number of
land plots under Federal property facilities is 12,200
units, of which 4,780 units have title documentation.
The total area of land plots under reclamation
facilities (water reservoirs, stanches, waterworks
facilities, ponds, etc.) is 1,503.45 thousand hectares,
of which the area of registered land plots is 352.7
thousand hectares.
ISSDRI 2021 - International Scientific and Practical Conference on Sustainable Development of Regional Infrastructure
68
Table 2: Technical and operational state of reclamation facilities by the Federal Districts of the Russian Federation as of
01/01/2020.
Name of the reclamation facility Total State class
I II III IV
RF
Irri
g
ation interfarm s
y
stems 805 42 192 389 182
Draina
g
e interfarm s
y
stems 1,052 56 213 574 209
H
y
draulic structures on reclamation s
y
stems 721 34 143 437 107
Separately located hydraulic structures 285
Total reclamation facilities 2,868
Central
Irrigation interfarm systems 159
51491 49
Drainage interfarm systems 450
27 83 231 109
Irrigation intrafarm systems 3
11 1
Drainage intrafarm systems 3
21
Hydraulic structures with facilities on the network 42
21019 11
Separately located and other hydraulic structures and facilities 17
3 11 3
orthwestern
Irrigation systems 2
2
Drainage systems 329
14 77 199 39
Hydraulic structures with facilities on the network 507
22 109 295 81
Separately located hydraulic structures 52
2 10 31 9
Vol
g
a
Irrigation systems 174
14 53 76 31
Drainage systems 106
93252 14
Hydraulic structures with facilities on the network 81
2669 4
Separately located hydraulic structures 87
Southern
Irrigation systems 119
55143 19
Drainage systems 1
1
Separately located hydraulic structures 8
35
N
orth Caucasian
Irrigation systems 126
23667 21
Drainage systems 7
15 1
Hydraulic structures with facilities on the network 62
7 11 37 7
Separately located hydraulic structures 41
Ural
Irrigation systems 43
5918 11
Drainage systems 39
619 14
Separately located hydraulic structures 25
Siberian
Irrigation systems 68
31232 21
Drainage systems 19
37 9
Separately located hydraulic structures 23
3 16 4
Far Eastern
Irrigation systems 116
81761 30
Drainage systems 101
61156 28
Hydraulic structures with facilities on the network 28
1717 3
Separately located hydraulic structures 32
On irrigated lands: 2.41 million hectares are in a
good ecological state; 1.38 million hectares are in a
standard (satisfactory) state; 0.9 million hectares are
in an unsatisfactory state. Of the irrigated lands in an
unsatisfactory ecological state on an area of 0.9
million hectares (19.0% of the availability), 0.4
Sustainable Development of Reclamation in Russia on the Basis of Increasing the Technical Level and Improving the Ecological State of the
Reclamation Complex
69
million hectares have a close occurrence of
groundwater, 0.26 million hectares - soil salinization,
and on 0.24 million hectares, there is the combined
action of unfavorable ecological factors -
unacceptable close occurrence of groundwater and
soil salinization.
On drained lands: 0.86 million hectares are in a
good state; 2.14 million hectares are in a satisfactory
state; 1.78 million hectares are in an unsatisfactory
state. Of the irrigated lands in an unsatisfactory
ecological state on an area of 1.78 million hectares
(37.0% of the availability), there is an unacceptably
close (critical) occurrence of groundwater and
inadmissible terms for surface drainage.
Table 3: Ecological state of the reclamation fund in Russia
Federal districts Good, (%) Normal, (%) Bad, (%)
Irri
g
ated lands
Central Federal District 45 30 26
Northwestern Federal District 8 54 38
Volga Federal District 68 28 4
Siberian Federal District 63 29 9
North Caucasian Federal District 41 25 34
Southern Federal District 60 22 18
Ural Federal District 53 36 11
Far Eastern Federal District 46 21 33
Drained lands
Central Federal District 16 38 45
Northwestern Federal District 11 53 36
Vol
g
a Federal District 21 55 24
Siberian Federal District 23 35 42
North Caucasian Federal District 41 41 18
Southern Federal District 45 39 16
Ural Federal District 5 58 36
Far Eastern Federal District 39 30 31
5 RESULTS AND DISCUSSION
An analysis is carried out and an assessment is given
of the technical and operational state of reclamation
facilities in the federal districts of the Russian
Federation, which are under the operational
management of the regional FSBI "Management
"Meliovodkhoz". The bulk of reclamation facilities
(73.6%), in terms of their technical and operational
state, belong to the III and IV classes, of which
70.93% are irrigation systems, 74.4% are drainage
systems and 75.45% are hydraulic structures with
facilities on networks. In the regional context, the
largest percentage of reclamation facilities in an
unsatisfactory state falls on the Central Federal
District, so for irrigation systems, about 90% of
facilities classes III and IV, and more than 75% of
facilities for drainage systems (Table 2).
The first class - facilities with a good level of
technical state, which have the necessary reliability of
all elements and ensure the performance of the
functions assigned to them within the specified
accuracy limits, wear does not exceed 50%.
The second class - facilities with a satisfactory
level of technical and operational state (wear is no
more than 50-75%). For each facility, on the basis of
an expert assessment, the issue of the need to carry
out works on technical re-equipment, heavy overhaul
or reconstruction in the amount of up to 25% of the
book value of fixed assets to increase the technical
level is considered.
The third class - facilities with an insufficient
level of technical and operational state, equipment
wear is 75-90%. They require modernization and
reconstruction in the amount of up to 50% of the book
value of fixed assets. Depending on the plans for the
development of agricultural production, it is
necessary to make a decision on the reconstruction or
conservation of these facilities until the period of
demand.
The fourth class - facilities with an unsatisfactory
level of technical and operational state, wear of
elements is more than 90%. At such facilities,
complex reconstruction is required in the amount of
more than 50% of the book value of fixed assets, or it
ISSDRI 2021 - International Scientific and Practical Conference on Sustainable Development of Regional Infrastructure
70
is necessary to make a decision on the conservation
or liquidation of facilities of this class.
For the effective operation of reclamation systems
and separately located hydraulic structures, it is
necessary to carry out the whole complex of
technical, organizational and economic measures to
ensure the maintenance of the reclamation network,
structures and equipment, their periodic inspection,
scheduled preventive maintenance, identification and
elimination of emergencies, rational water
distribution, regulation of the water regime of soils,
management and control over the preparation of the
reclamation network and structures for work during
the growing season by water users.
However, the potential of reclaimed lands and
state reclamation systems is significantly higher than
the actual indicators. The main limiting factors for
increasing the productivity of agricultural land are the
insufficient development of complex reclamation,
low technical level of reclamation systems, the
development of land degradation processes, such as
erosion, salinization, waterlogging, underflood,
deficiency of organic matter and mineral nutrients,
desertification (Kireicheva, 2017; Olgarenko et al.,
2019).
For sustainable development and complex
modernization of the reclamation complex, an agreed
solution of a number of priority tasks is required:
development of a complex of engineering and
technical and technological solutions for the
restoration and modernization (reconstruction)
of hydro land reclaiming systems and hydraulic
structures, reclamation measures to improve
the ecological state of reclaimed lands, with a
justification of the scope and structure of work,
resourcing, as well as the sequence of works to
modernize the reclamation complex on
irrigated lands and dykeland by stages of the
Program implementation;
improvement of the operation of reclamation
systems, incl. introduction of new technologies
and equipment for maintenance operational
works on reclamation systems and canal
cleaning, organization of rational water use,
using GIS-technologies for water distribution,
automation, and telemechanics, flood
prevention measures;
increasing the efficiency of water-economic
complex management using computer
technologies, information and analytical
support, development of monitoring and
planning systems for water use, ecological
audit, management and control in the field of
land reclamation and water management;
development of a system for the provision of
information and consulting services and the
contagion of advanced experience in modern
technologies of construction, reconstruction
and effective use of reclaimed lands;
development of infrastructure, improvement of
organizational and socio-economic
mechanisms for the functioning of the
reclamation and water-economic complex of
the agro-industrial complex;
reforming the organizational structure of the
system of the operation of reclamation facilities
with the creation of regional technological
parks and specialized operational bases, that
ensure high-quality carrying out of
maintenance operational works; creation of
experimental production testing grounds;
development of the production base of the
reclamation industry, the formation of planning
and surveying centers, the scientific and
laboratory base of federal state budgetary
scientific institutions, subordinate to the
Department of Reclamation;
development and updating of regulatory and
procedural and standard technical documents,
ensuring the effective operation of the
reclamation and water-economic complex of
the agro-industrial complex;
development of human resources in the field of
reclamation industry, hydraulic engineering,
water economy, and agricultural water supply:
preservation and development of scientific
potential, training of highly qualified scientific
and pedagogical personnel, retraining of
engineering and managerial personnel in
universities and research institutes, taking into
account the new economic situation and land
planning of the territory.
The development program of the reclamation
complex should include the concept of adaptive
landscape agriculture, the development of
ecologically reliable water circulation irrigation and
water supply systems, drainage and wastewater
treatment technologies; prevention of water and wind
erosion, restoration and vegetative reclamation;
biochemical technologies for restoring soil fertility,
bioengineering systems for treatment of drainage and
wastewaters, land and forest reclamation.
Development of an industrial base for the
reconstruction and restoration of reclamation systems
of operation and maintenance providers, technical re-
equipment, a system of machines for the construction
and operation of reclamation systems.
Sustainable Development of Reclamation in Russia on the Basis of Increasing the Technical Level and Improving the Ecological State of the
Reclamation Complex
71
6 CONCLUSIONS
In this work, an analysis is carried out and an
assessment is given of the technical and operational
state of reclamation facilities in the federal districts of
the Russian Federation, which are under the
operational management of the regional FSBI
"Management "Meliovodkhoz". There are 2,868
objects in total, including: 807 - irrigation systems,
1,055 - drainage systems, 721 - hydraulic structures
on the reclamation network, and 285 facilities -
separately located hydraulic structures. The bulk of
reclamation facilities (84%), in terms of their
technical state, belong to the III and IV classes, incl.
70% of irrigation systems, 88% - drainage systems
and separately located hydraulic structures, and 100%
- canals. Such reclamation facilities do not work
efficiently and require reconstruction or heavy
overhaul.
Basic components for the development of
reclamation potential and infrastructure: reclamation
systems and reclaimed lands not used in agricultural
production, as well as reclamation systems with
unsatisfactory technical and operational
characteristics and reclaimed lands, that are in an
unsatisfactory ecological state and have a low level of
soil fertility. To increase the level of productivity of
reclaimed lands, it is necessary to significantly
increase the technical level of reclamation facilities
by completing a set of works on the reconstruction of
reclamation systems and hydraulic structures, as well
as to implement a set of reclamation measures to
increase the level of fertility and improve the
ecological situation on reclaimed lands. The main
measures are technical, technological, organizational,
managerial and others, aimed at increasing the
sustainability of the development of the reclamation
complex and the agro-industrial complex of Russia,
including: measures for hydrotechnology, land, and
forest reclamation, cultural and technical, and
chemical reclamation.
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