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https://doi.org/10.53656/nat2023-1.02

2023/1, стр. 7 - 24

EVALUATION OF QUANTITATIVE CRITERIA FOR TRIASSIC RESERVOIRS IN THE SOUTH MANGYSHLAK BASIN

Hofmann, M.
OrcID: 0000-0001-5889-5351
E-mail: hof620929@gmail.com
Department of Petroleum Engineering
Mining University Russia
AL-Obaidi, S. H.
OrcID: 0000-0003-0377-0855
E-mail: drsudad@gmail.com
Department of Petroleum Engineering
Mining University Russia
Chang W. J.
OrcID: 0000-0002-5457-2923
E-mail: changwj962@gmail.com
Department of Petroleum Engineering
University of Xidian
Xi’an Shaanxi 710126 China

Резюме: Carbonate rocks of the Triassic deposits of the South Mangyshlak basin are investigated in this paper for their boundary values, which are important for interpretation of field geophysical data as well as perforation and blasting. Based on their lithological composition, Triassic deposits are classified as either terrigenous or carbonate reservoirs. Carbonate reservoirs are found in the Middle Triassic strata containing volcanogenic dolomite and volcanogenic limestone rocks. A complex type of reservoir characterizes these rocks: porous-fractured, porouscavernous, and fractured. Upper Triassic sediments are formed by the intercalation of tuffaceous, siltstone-sandy, and mudstone rocks overlying Middle Triassic sedimentary rocks. Oil deposits are confined to polymictic sandstones, which are oil-saturated to varying degrees. In order to substantiate the quantitative criteria of the reservoir, experimental studies of the core samples were carried out in the laboratory. Fluid flow studies were performed where physical and hydrodynamic characteristics were determined when oil was displaced by displacing reagents. On the basis of the parameters obtained, correlations between reservoirs and non-reservoirs were constructed. Based on relationships between reservoir properties such as porosity and permeability versus residual water content, as well as effective porosity and permeability versus dynamic porosity, the boundary values were determined. Using these results, the porosity limit for the Middle and Upper Triassic strata has been determined to be \(7 \%\), the permeability limit for the Middle Triassic has been determined to be 0.02 X \(10^{-3} \mu \mathrm{~m}^{2}\), and the permeability limit for the Upper Triassic has been determined to be \(0.3 \times 10^{-3} \mu \mathrm{~m}^{2}\).

Ключови думи: Quantitative Criteria; Carbonate rocks; boundary values; Triassic deposits; Carbonate Rocks Reservoirs

1. Introduction

As a result of geological exploration at Mangyshlak basin during the 70s – 90s of the last century, numerous oil and gas fields were discovered with proven productivity (Li et al. 2020; Murzagaliev 1996; Kamensky, Al-Obaidi & Khalaf 2020; Sobornov 1995).Triassic carbonate reservoirs in the basin exhibit a number of characteristics, including complex pore structures, high heterogeneity in flow and reservoir properties, variety of rock compositions, and many others (Timurziev 1984; Al-Obaidi & Khalaf 2017; Feyzullayev, Kadirov & Kadyrov 2016; Al-Obaidi, Kamensky & Hofmann 2010). These characteristics complicate the interpretation of field geophysical data, the selection of reservoirs, and the design of development models.

To identify carbonate reservoirs of Triassic deposits using well logging methods, it is difficult to identify the boundaries of the reservoirs using qualitative features due to the complex structure of the deposits and a number of factors that negatively affect the curves. Therefore, the technology of identifying reservoirs according to quantitative criteria that determine the “reservoir-non-reservoir” boundary at the static level is necessary to clarify the interpretation (Huang et al. 2022; Ulmishek 2001; Al-Obaidi 2022; Soroush et al. 2021). In order to determine the boundary values, correlation dependencies were constructed based on the parameters obtained from special laboratory core tests.

2. Lithological and petrographic characteristics of Triassic carbonate reservoirs

2. 1 Lower Triassic deposits (T1)

The carbonate-terrigenous sequence of the Lower Triassic (T1), which lies at the base of the oil and gas complex, is composed of rhythmically interbedded siltstones, sandstones, mudstones, and limestones. Due to numerous ammonite finds in the carbonate-terrigenous sequence, the age of the carbonate-terrigenous sequence has been determined to be late Olenekian (Rabinovich, Palamar & Popkov 1983; Al-Obaidi, Hofmann & Kamensky 2010; Gurbanov 2004). The reservoirs (porous-fractured) are composed of arkosic sandstones with effective porosity from 8 to \(18 \%\), fracture permeability up to \(6.5 \times 10^{-3} \mu \mathrm{~m}^{2}\), and porous permeability from 0.1 to \(141 \times 10^{-3} \mu \mathrm{~m}^{2}\) (Kettanah 2003; Al-Obaidi, Patkin & Guliaeva 2003). The productivity of the stratum has been established at the Tasbulat and South Zhetybai fields and weak oil inflows have been obtained at the Uzen, West Tasbulat, and West Tenge fields. The sequence is absent within the Beke-Bashkuduk swell (the western part, in the areas of Saura and Segenda, and the eastern part of Sokko, Shalabai and Senek), the northern part of the Uzen uplift, in the southwest of the Zhetybay-Uzen step (northwestern Zhetybay, Pridorozhnaya), and in the North Karagiinskaya area (Fig. 1).

Figure 1. Mangyshlak Tectonic Scheme

2. 2. Middle Triassic deposits (T2)

The Middle Triassic deposits (T2) consist of a volcanic-carbonate grey-colored formation, which accumulated under the conditions of a marine brackish-water basin and humid conditions. The formation consists of three lithological layers (from bottom to top):

– volcanogenic-dolomitic;

– volcanogenic-limestone;

– volcanic-argillic.

A volcanic-dolomite layer lies on the underlying Lower Triassic. The composition of this rock is characterized by the wide development of oolitic-cloddy tuffs, tuffites, tuff mudstones, and clastic polydetrital limestones. Due to the development of carbonate rocks, which can be easily leached, reservoir properties such as effective porosity and permeability are high. It has a porosity of up to \(28 \%\) and a permeability of \(115 \times 10^{-3} \mu \mathrm{~m}^{2}\) (Kulumbetova, Nursultanova & Mailybayev 2019; Zholtayev & Kuandykov 1999; Kamensky & Al-Obaidi 2022).

The void space is represented by intra-form isolated pores formed as a result of calcite leaching. The inter-formal space is filled with clear-crystalline calcite.

Immediately above the section is a volcanogenic limestone sequence, consisting of limestones with rare interlayers of dolomites, tuffites, tuff sandstones, mudstones and siltstones. The limestones are highly bituminized, which causes the black color of the rocks. There is a significant reduction in reservoir properties due to the widespread development of tuffaceous rocks.

The upper part of the Middle Triassic section - volcanogenic-argillite sequence is composed mainly of mudstones with an admixture of tuffaceous material and thin interlayers of carbonate rocks (lower part) and siltstones (upper part). The rocks are characterized by low reservoir properties and are often taken as a seal for hydrocarbon deposits confined to the carbonate layer (Galkin et al. 2005; Kurmanov 1999).

Upper Triassic deposits (T3)

There is a coarse-grained unit at the base of the stratum with a thickness of 40 to 70 m with the following reservoir properties; effective porosity up to \(20 \%\), permeability of \(10 \times 10^{-3} \mu \mathrm{~m}^{2}\) (Windley et al. 2007; Al-Obaidi 2016). The overlying part of the section is composed of inequigranular tuff sandstones, tuff siltstones, and tuff mudstones (Kiritchkova & Nosova 2014).

The total thickness of the Middle Triassic deposits within the South Mangyshlak reaches \(600-650 \mathrm{~m}\) (Qin et al. 2015; Smirnov & Al-Obaidi 2008).

3. Methodology and materials

To assess the boundary values, studies were carried out on the selected core in the period 2010-2019 (Shilanov 2018; Gaafar, Tewari & Zain 2015; Hofmann, Al-Obaidi & Kamensky 2021). General information on sampling for the core studies is presented in Table 1.

To assess the boundary values of porosity and permeability properties, a 2-phase flow unit was used, the main elements of which are:

1. Vertically positioned core holder designed for core samples with a diameter of \(1 \tfrac{1}{2}\) inches and a length of 12 inches.

2. Vertically positioned X-ray system for continuous core scanning and realtime determination of water-oil saturation.

3. A set of precision pumps and temperature sensors for fluid flow under thermobaric conditions.

4. Transducer module for differential pressure detection.

Table 1. Detailed information on selected samples

Field/WellHorizonLithologyNumber ofexperimentsX-10Т3, BasalFine-grained sandstone2X-3Т3, BasalFine-grained sandstone2Y-9Т3, BasalTusandstone2Y-40Т3, BasalTusandstone2X-15Т2, volcanic-dolomiticCalcareous dolomite1X-27Т2, volcanic-dolomiticClastic dolomite,cavernous1Y-40Т2Tusiltstone1

3. 1. Preparation of core samples

The preparation of core samples for experimental studies included several stages.

Stage 1: Drilling samples with a diameter of \(1 \tfrac{1}{2}\) inches were collected from the working part of the sawn core.

Samples were extracted in Soxhlet reflux devices (Kløv et al. 2003; Al-Obaidi 2020), using toluene as a solvent, then a mixture of chloroform and methanol in a ratio of \(9: 1\), respectively. For standard and special core studies, samples were dried and placed in a desiccator with silica gel to prevent moisture from adsorbing from the air.

Stage 2: Matrix density, porosity, and absolute permeability were determined by standard core testing. To measure the matrix density of grains, coefficients of effective porosity, and absolute permeability of rocks, an UltraPoroPerm-500 device from Core Laboratories Instruments (CLI) was used (Alcaíno-Olivares et al. 2022; Joseph, Gunda & Mitra 2013; Al-Obaidi & Guliaeva 2002). The operating principle of the porosimeter is based on the use of the Boyle-Mariotte law. Absolute gas permeability was measured during steady-state flow using a standard Hassler core holder by injection of nitrogen gas. The operating principle of the permeameter is based on the use of Darcy’s law (Nijp et al. 2017; Chang, Al-Obaidi & Khalaf 2021).

A hydrostatic pressure of 400 psi was applied to the side surface of the sample. The absolute permeability of the rock was automatically calculated when the airflow followed the Darcy law.

Stage 3: In addition to the saturation of core samples using an auto-saturator with a reservoir water model, measurements were made of partial and residual water saturation coefficients, relative phase permeability of oil and water, and residual oil saturation. Before the start of the experiments, the selected samples were saturated in a vacuum saturator with a reservoir water model (RWM) using a prepared synthetic solution of the NaCl type with a mineralization of \(20-40 \mathrm{~g} / \mathrm{l}\).

The core samples, pre-saturated with RWM, were placed in a specially designed gamma-ray-transmitting core holder, where reservoir pressure was created. First, the water phase permeability of the rock was determined at \(100 \%\) RWM saturation. Then, without removing the sample from the core holder, water was displaced under reservoir conditions using crude oil, and the coefficients of residual water saturation and oil phase permeability were determined. The coefficient of residual water saturation of core samples was determined from the results of X-ray scanning (Withjack, Devier & Michael 2003).

Steady-state studies

As soon as the core samples had been prepared, oil and water were injected simultaneously in different proportions: \(75 / 1,25 / 1,5 / 1,1 / 1\), and \(1 / 10\). Each subsequent batch injection was performed after the stabilization of the differential pressure.

With the aid of an X-ray scanner, the effective permeability of each phase and water saturation of the samples were measured at each stage of the experiment.

After batch injection of two phases, water injection equal to 25 times the pore volume was performed until residual oil saturation was achieved, and oil phase permeability was determined.

The water saturation of the sample extracted from the core holder was also determined by the extraction method in the Dean-Stark apparatus (Handwerger et al. 2012; Liu et al. 2022).

To determine the oil phase permeability, the samples were additionally cleaned, dried, and saturated with crude oil. Then, the samples were placed in a core holder, after which crude oil was injected and the oil permeability coefficient was determined at \(100 \%\) oil saturation.

The results of the experiments performed are presented in Table. 2.

Table 2. Results of special core studies

IndicatorsUnitof meas.Experiment№ 1№ 2№ 3№ 4№ 5№ 6№ 7№ 8Field / wellX-10X-3Y-9Y-40Laboratory № ofthe sample262257225242219220LithologySand-stoneSand-stoneSand-stoneSand-stoneTusandstoneTusandstoneTusandstoneTusandstone
Depthm3256,23262,123699,543698,872962,033037,313703,053703,23Eective porosityFraction0,1550,1750,1430,1400,2460,1380,1800,182AbsolutePermeability×10-3µm2107,9206,932,031,623,11,451,129,1Density offormation waterg/cm31,0561,0561,0561,0561,0611,0611,0611,061Oil viscositymPa.s0,5600,5600,5600,5601111Oil densityg/cm30,7580,7580,7580,7580,7980,7980,7980,798Generalmineralizationg/l2828282821212121Residual watersaturationFraction0,2200,2300,2760,2620,3840,4700,3340,391Residual oilsaturationFraction0,3560,3250,3490,3550,3450,3490,3660,351Waterpermeability atresidual oil×10-3µm25,6765,8608,0227,9776,5450,21617,5565,470Oil permeability×10-3µm213,58313,2924,9205,687----Oil permeabilityat residual water×10-3µm25,9885,8604,3054,39915,6201,01042,51018,950Oil displacementcoecientFraction0,5390,5780,5190,5190,4410,2730,4500,424Experimenttemperature°С130,6130,6130,6130,6115115115115

4. Results and discussion

According to the results of the studies, Fig. 2 presents graphs of relative permeability for both water and oil. The following conclusions can be drawn from these graphs of relative permeability:

Residual oil saturation of rocks varies within \(32.5-36.6 \%\).

Residual water saturation within \(22.0-47.0 \%\).

Oil displacement ratio is \(27.3-57.8 \%\).

The limiting value of the relative permeability of water is \(0.2-0.4\) units, indicating that the rocks are hydrophilic.

According to the results of special studies conducted, residual water saturation and oil saturation were determined. The dynamic porosity of rocks was calculated using the following expression:

(1) \[ \varphi_{D}=\varphi_{e} *\left(1-S_{w}-S_{o}\right) \]

Where \(\varphi_{D}\)– Dynamic porosity; \(\varphi_{e}\)– Effective porosity of rocks by helium; \(\mathrm{S}_{\mathrm{w}}\) – Residual water saturation; Son; \(\mathrm{S}_{\mathrm{o}}\)– Residual oil saturation.

Figure 2. The relative permeability curves for oil and water

As the residual water-oil saturation is considered, the dynamic porosity characterizes the capacitive and flow properties of the formation. When the rock has a dynamic porosity of \(0 \%\), the residual water-oil saturations fill the entire pore space, making it a non-reservoir. It is possible to estimate the boundary values of Upper Triassic productive reservoirs using the constructed relationships “dynamic porosity – effective porosity” and “dynamic porosity-absolute permeability” presented in

Figure 3 and Figure 4.

Thus, the limit values for Upper Triassic reservoirs are defined as:

1. The porosity boundary value is \(7 \%\).

2. The value of the boundary permeability is \(0.3 \times 10^{-3} \mu \mathrm{~m}^{2}\).

Figure 3. The relationship between dynamic porosity and effective porosity

Figure 4. The relationship between dynamic porosity and absolute permeability

The Middle Triassic rocks were also studied in depth. Samples were taken from different wells and fields.

However, when performing studies for rocks from several fields, when water was injected, the differential pressure increased to 3200 psi, and the water permeability was less than \(0.1 \times 10^{-3} \mu \mathrm{~m}^{2}\), which did not allow further studies. This factor may be related to the hydrophobicity of the rocks. A summary of the initial information and results can be found in Table 3.

Table 3. Results of special core studies

IndicatorsUnit ofmeasurementExperiment№ 5№ 6№ 7Field / wellХ-15Х-27Y-40Laboratory № ofthe sample259A1612LithologyCalcareousdolomiteDolomiteTu siltstoneDepthm2944,913789,553588,31EectiveporosityFraction0,2370,1530,103AbsolutePermeability×10-3µm263,70,630,237Density offormation waterg/cm31,0611,061,061Oil viscositymPa.s111Oil densityg/cm30,7980,80,798Generalmineralizationg/l24,52121Residual watersaturationFraction0,270380,4530,35Residual oilsaturationFraction0,464--Oil permeability×10-3µm24,810,110,05Oil permeabilityat residual water×10-3µm23,76--OildisplacementcoecientFraction0,364--ExperimentTemperature°С115115115

For a more reliable determination of the hydrophobization of rocks, the most permeable laboratory sample No. 259A (\(63.7 \times 10^{-3} \mu^{2}\) ), represented by calcareous dolomite, was chosen. The studies were carried out in a steady-state mode. The results are presented in Fig. 5.

Figure 5. The relative permeability curves for oil and water

As a result of the relationship between the relative permeability of oil and water, we can conclude the following:

Residual oil saturation of rocks is high \(-46.4 \%\);

Residual water saturation \(-27.0 \%\);

Oil displacement ratio is only \(36.4 \%\);

The limiting value of the water’s relative permeability is 0.83 units, which indicates the hydrophobicity of the rocks.

To determine the boundary value of the effective porosity of rocks, instead of determining the residual oil saturation and, accordingly, dynamic porosity, a mass determination of capillary pressure was performed under reservoir conditions using a high-speed centrifuge.

The studies involved 124 samples selected in 2012 – 2015 (Gurbanov & Zinalova 2018). A maximum capillary pressure of 215 psi was used to determine residual water saturation. The obtained values of residual water saturation are compared with effective porosity. The dependencies are shown in Fig. 6 and Fig. 7.

Figure 6. The relationship between the absolute permeability and residual water saturation

Figure 7. The relationship between the effective porosity and residual water saturation

According to the constructed dependencies, it can be seen that with a residual water saturation of more than \(35 \%\), the reservoir properties of rocks deteriorate, the fluid occupies the entire pore space, and the rock becomes a non-reservoir.

Thus, the defined limit values for volcanic-carbonate rocks of the Middle Triassic are as follows:

1. The porosity boundary value is \(7 \%\).

2. The value of the boundary permeability is \(0.02 \times 10^{-3} \mu \mathrm{~m}^{2}\).

The reliability of reservoir properties determination in the course of well-logging data interpretation depends on the reliability of established petrophysical relationships and parameters. The quality of the core analysis carried out in the 80s does not allow today to use the results of these analyzes to build petrophysical relationships for the following reasons:

1. A low level of core recovery.

2. The lack of results from the profile studies intended to link the core to the rock section.

3. Lack of uniform sampling of cylindrical samples from all intervals, including low-permeability and non-reservoirs.

4. Insufficiency of studies - the lack of a set of studies on the same samples to establish the closeness of relationships between various parameters.

Consequently, the selection of cores and the study of reservoir properties of rocks should be continued.

5. Conclusions

Experimental analyses of the core samples were conducted in the laboratory in order to substantiate the quantitative criteria of the reservoir. By analysing the parameters, correlations were constructed between reservoirs and non-reservoirs. Boundary values were determined by analysing the relationships between reservoir properties, such as porosity and permeability, and residual water content. Based on the results of this work, the porosity limit for the Middle and Upper Triassic strata is \(7 \%\), the permeability limit for the Middle Triassic is \(0.02 \times 10^{-3} \mu \mathrm{~m}^{2}\), and the permeability limit for the Upper Triassic is \(0.3 \times 10^{-3} \mu \mathrm{~m}^{2}\). The use of the obtained boundary values contributes to the identification of complex carbonate reservoirs using both qualitative and quantitative features based on the difference in reservoir properties of reservoir rocks and host rocks. Since cores are being taken from new wells and various fields, the study of boundary values needs to be continued.

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Книжка 3
ПРАЗНИК НА ХИМИЯТА 2025

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ФАТАЛНИЯТ 13

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ХИМИЯ НА МЕДОВИНАТА

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ХИМИЯ НА БАНКНОТИТЕ И МОНЕТИТЕ

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АЛУМИНИЙ – „ЩАСТЛИВИЯТ“ 13-И ЕЛЕМЕНТ

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МЕТАЛЪТ НА ВРЕМЕТО

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СЛАДКА ЛИ Е ФРЕНСКАТА ЛУЧЕНА СУПА?

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ПАРИТЕ – ИСТОРИЯ И НЕОБХОДИМОСТ

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АЛУМИНИЯТ – ОТ ОТПАДЪК ДО РЕСУРС

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ТАЙНАТА ХИМИЯ НА ШВЕЙЦАРСКИТЕ БАНКНОТИ

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ХИМИЯТА – ДЕТЕКТИВ ИЛИ ПРЕСТЪПНИК?

Алвина Илин, Валентина Ткачова, Петя Петрова

БЕБЕШКИ ШАМПОАН ОТ ЯДЛИВИ СЪСТАВКИ: ФОРМУЛИРАНЕ НА НОВ КОЗМЕТИЧЕН ПРОДУКТ

Хана Крипендорф, 5, Даниел Кунев, 5, Цветелина Стоянова

БЪЛГАРСКОТО ИМЕ НА ДЪЛГОЛЕТИЕТО

Сияна Краишникова, Анелия Иванова

ХИМИЯ НА МОНЕТИТЕ

Кристина Анкова, Сияна Христова, Ростислава Цанева

ХИМИЯ НА ШОКОЛАДА

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ХИМИЯТА НА ПАРИТЕ

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АЛУМИНИЯТ В КРИОГЕНИКАТА

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ПРИЛОЖЕНИЕ НА АЛУМИНИЯ ВЪВ ВАКСИНИТЕ

Станислав Милчев, Петя Вълкова

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ХИМИЯТА В ПЧЕЛНИЯ МЕД

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ХИМИЯ НА МЛЕЧНИТЕ ПРОДУКТИ

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ХИМИЯ НА ЛЮТОТО

Марта Пенчева, Васка Сотирова

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ХИМИЯ НA ПAРИТE

Игликa Кoлeвa, Eмилия Ивaнoвa

ВЛИЯНИЕ НА МАРИНАТИТЕ ВЪРХУ МЕСОТО

Емил Мирчев, Галя Петрова

АНАЛИЗ НА ПРИРОДНИ ВОДИ В ОБЩИНА СЛИВЕН

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ТРИНАДЕСЕТИЯТ ЕЛЕМЕНТ – СПАСИТЕЛ ИЛИ ТИХ РАЗРУШИТЕЛ?

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MATHEMATICAL MODELLING OF THE TRANSMISSION DYNAMICS OF PNEUMONIA AND MENINGITIS COINFECTION WITH VACCINATION

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Книжка 5-6
Книжка 3-4
Книжка 1-2
2023 година
Книжка 5-6
ПОДКАСТ – КОГА, АКО НЕ СЕГА?

Христо Чукурлиев

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2022 година
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METEOROLOGICAL DETERMINANTS OF COVID-19 DISEASE: A LITERATURE REVIEW

Z. Mateeva, E. Batchvarova, Z. Spasova, I. Ivanov, B. Kazakov, S. Matev, A. Simidchiev, A. Kitev

Книжка 5
MATHEMATICAL MODELLING OF THE TRANSMISSION MECHANISM OF PLAMODIUM FALCIPARUM

Onitilo S. A, Usman M. A., Daniel D. O. Odetunde O. S., Ogunwobi Z. O., Hammed F. A., Olubanwo O. O., Ajani A. S., Sanusi A. S., Haruna A. H.

ПОСТАНОВКА ЗА ИЗМЕРВАНЕ СКОРОСТТА НА ЗВУКА ВЪВ ВЪЗДУХ

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MAGNETIC PROPERTIES

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„TAP, TAP WATER“ QUANTUM TUNNELING DEMONSTRATION

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КОМЕТИТЕ – I ЧАСТ

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DISTANCE LEARNING: HOMEMADE COLLOIDAL SILVER

Ana Sofía Covarrubias-Montero, Jorge G. Ibanez

2021 година
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STUDY OF COMPOSITIONS FOR SELECTIVE WATER ISOLATION IN GAS WELLS

Al-Obaidi S.H., Hofmann M., Smirnov V.I., Khalaf F.H., Alwan H.H.

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POTENTIAL APPLICATIONS OF ANTIBACTERIAL COMPOUNDS IN EDIBLE COATING AS FISH PRESERVATIVE

Maulidan Firdaus, Desy Nila Rahmana, Diah Fitri Carolina, Nisrina Rahma Firdausi, Zulfaa Afiifah, Berlian Ayu Rismawati Sugiarto

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PROBLEM OF THE 8-TH EXPERIMENTAL PHYSICS OLYMPIAD, SKOPJE, 8 MAY 2021 DETERMINATION OF PLANCK CONSTANT BY LED

Todor M. Mishonov, Aleksander P. Petkov, Matteo Andreoni, Emil G. Petkov, Albert M. Varonov, Iglika M. Dimitrova, , Leonora Velkoska, Riste Popeski-Dimovski

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INVESTIGATION OF \(^{238}\)U, \(^{234}\)U AND \(^{210}\)PO CONTENT IN SELECTED BULGARIAN DRINKING WATER

Bozhidar Slavchev, Elena Geleva, Blagorodka Veleva, Hristo Protohristov, Lyuben Dobrev, Desislava Dimitrova, Vladimir Bashev, Dimitar Tonev

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DEMONSTRATION OF DAMPED ELECTRICAL OSCILLATIONS

Elena Grebenakova, Stojan Manolev

2020 година
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ДОЦ. Д-Р МАРЧЕЛ КОСТОВ КОСТОВ ЖИВОТ И ТВОРЧЕСТВО

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JACOB’S LADDER FOR THE PHYSICS CLASSROOM

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THE DAY OF THE INDUCTANCE: PROBLEMS OF THE 7\(^{TH}\) EXPERIMENTAL PHYSICS OLYMPIAD, SKOPJE, 2019

Todor M. Mishonov, Riste Popeski-Dimovski, Leonora Velkoska, Iglika M. Dimitrova, Vassil N. Gourev, Aleksander P. Petkov, Emil G. Petkov, Albert M. Varonov

MATHEMATICAL MODELING OF 2019 NOVEL CORONAVIRUS (2019 – NCOV) PANDEMIC IN NIGERIA

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МОЛЕКУЛИТЕ НА УДОВОЛСТВИЕТО

Веселина Янкова, Снежана Демирова, Цветанка Митева, Явор Князов, Христо Желев, Димитър Георгиев, Габриела Стоянова

WATER PURIFICATION WITH LASER RADIATION

Lyubomir Lazov, Hristina Deneva, Galina Gencheva

2019 година
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LASER MICRO-PERFORATION AND FIELDS OF APPLICATION

Hristina Deneva, Lyubomir Lazov, Edmunds Teirumnieks

ПРИЛОЖНА ФОТОНИКА И АНТИОКСИДАНТНИ СВОЙСТВА НА ВИСОКООЛЕИНОВО СЛЪНЧОГЛЕДОВО МАСЛО С БИЛКОВИ ПРИМЕСИ

Кръстена Николова, Стефка Минкова, Поли Радушева, Георги Бошев, Еркан Фаридин, Нурал Джамбазов, Мариана Перифанова-Немска

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Берна Сабит, Джемиле Дервиш, Мая Никова, Йорданка Енева

IN VITRO EVALUATION OF THE ANTIOXIDANT PROPERTIES OF OLIVE LEAF EXTRACTS – CAPSULES VERSUS POWDER

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2019 − THE INTERNATIONAL YEAR OF THE PERIODIC TABLE OF CHEMICAL ELEMENTS

Maria Atanassova, Radoslav Angelov, Dessislava Gerginova, Alexander Zahariev

ТЕХНОЛОГИЯ

Б. В. Тошев

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ЗЕЛЕНА ХИМИЯ В УЧИЛИЩНАТА ЛАБОРАТОРИЯ

Александрия Генджова, Мая Тавлинова-Кирилова, Александра Камушева

ON THE GENETIC TIES BETWEEN EUROPEAN NATIONS

Jordan Tabov, Nevena Sabeva-Koleva, Georgi Gachev

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CHEMOMETRIC ANALYSIS OF SCHOOL LIFE IN VARNA

Radka Tomova, Petinka Galcheva, Ivajlo Trajkov, Antoaneta Hineva, Stela Grigorova, Rumyana Slavova, 6Miglena Slavova

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ПРИНЦИПИТЕ НА КАРИЕРНОТО РАЗВИТИЕ НА МЛАДИЯ УЧЕН

И. Панчева, М. Недялкова, С. Кирилова, П. Петков, В. Симеонов

UTILISATION OF THE STATIC EVANS METHOD TO MEASURE MAGNETIC SUSCEPTIBILITIES OF TRANSITION METAL ACETYLACETONATE COMPLEXES AS PART OF AN UNDERGRADUATE INORGANIC LABORATORY CLASS

Anton Dobzhenetskiy, Callum A. Gater, Alexander T. M. Wilcock, Stuart K. Langley, Rachel M. Brignall, David C. Williamson, Ryan E. Mewis

A TALE OF SEVEN SCIENTISTS

Savina Kirilova

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DEVELOPMENT OF A LESSON PLAN ON THE TEACHING OF MODULE “WATER CONDUCTIVITY”

A. Thysiadou, S. Christoforidis, P. Giannakoudakis

AMPEROMETRIC NITRIC OXIDE SENSOR BASED ON MWCNT CHROMIUM(III) OXIDE NANOCOMPOSITE

Arsim Maloku, Epir Qeriqi, Liridon S. Berisha, Ilir Mazreku, Tahir Arbneshi, Kurt Kalcher

THE EFFECT OF AGING TIME ON Mg/Al HYDROTALCITES STRUCTURES

Eddy Heraldy, Triyono, Sri Juari Santosa, Karna Wijaya, Shogo Shimazu

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A CONTENT ANALYSIS OF THE RESULTS FROM THE STATE MATRICULATION EXAMINATION IN MATHEMATICS

Elena Karashtranova, Nikolay Karashtranov, Vladimir Vladimirov

SOME CONCEPTS FROM PROBABILITY AND STATISTICS AND OPPORTUNITIES TO INTEGRATE THEM IN TEACHING NATURAL SCIENCES

Elena Karashtranova, Nikolay Karashtranov, Nadezhda Borisova, Dafina Kostadinova

45. МЕЖДУНАРОДНА ОЛИМПИАДА ПО ХИМИЯ

Донка Ташева, Пенка Василева

2018 година
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ЗДРАВЕ И ОКОЛНА СРЕДА

Кадрие Шукри, Светлана Великова, Едис Мехмед

РОБОТИКА ЗА НАЧИНАЕЩИ ЕНТУСИАСТИ

Даниела Узунова, Борис Велковски, Илко Симеонов, Владислав Шабански, Димитър Колев

DESIGN AND DOCKING STUDIES OF HIS-LEU ANALOGUES AS POTENTIOAL ACE INHIBITORS

Rumen Georgiev, , Tatyana Dzimbova, Atanas Chapkanov

ELECTROCHEMICAL IMPEDANCE STUDY OF BSCCO (2212) CUPRATE CERAMIC ADDITIVE TO THE ZINC ELECTRODE IN Ni-Zn BATTERIES

A. Vasev, P. Lilov, G. Ivanova, Y. Marinov, A. Stoyanova, V. Mikli, A. Stoyanova-Ivanova

CALIBRATION OF GC/MS METHOD FOR DETERMINATION OF PHTHALATES

N. Dineva, I. Givechev, D. Tanev, D. Danalev

SONOCHEMICAL SYNTHESIS OF 4-AMINOANTIPYRINE SCHIFF BASES A ND EVALUATION OF THEIR ANTIMICROBIAL, ANTI-TYROSINASE AND DPPH SCAVENGING ACTIVITIES

Maya Chochkova, Boyka Stoykova, Iva Romanova, Petranka Petrova, Iva Tsvetkova, Hristo Najdenski, Lubomira Nikolaeva- Glomb, Nadya Nikolova, Galya Ivanova, Atanas Chapkanov, Tsenka Milkova, Martin Štícha, Ivan Nemec

ELECTROSYNTHESIS OF CADMIUM SELENIDE NANOPARTICLES WITH SIMULTANEOUS EXTRACTION INTO P-XYLENE

S. S. Fomanyuk, V. O. Smilyk, G. Y. Kolbasov, I. A. Rusetskyi, T. A. Mirnaya

БИОЛОГИЧЕН АСПЕКТ НА РЕКАНАЛИЗАЦИЯ С ВЕНОЗНА ТРОМБОЛИЗА

Мариела Филипова, Даниела Попова, Стоян Везенков

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ИМОБИЛИЗИРАНЕНАФРУКТОЗИЛТРАНСФЕРАЗА ВЪРХУКОМПОЗИТНИФИЛМИОТПОЛИМЛЕЧНА КИСЕЛИНА, КСАНТАН И ХИТОЗАН

Илия Илиев, Тонка Василева, Веселин Биволарски, Ася Виранева, Иван Бодуров, Мария Марудова, Теменужка Йовчева

ELECTRICAL IMPEDANCE SPECTROSCOPY OF GRAPHENE-E7 LIQUID-CRYSTAL NANOCOMPOSITE

Todor Vlakhov, Yordan Marinov, Georgi. Hadjichristov, Alexander Petrov

ON THE POSSIBILITY TO ANALYZE AMBIENT NOISERECORDED BYAMOBILEDEVICETHROUGH THE H/V SPECTRAL RATIO TECHNIQUE

Dragomir Gospodinov, Delko Zlatanski, Boyko Ranguelov, Alexander Kandilarov

RHEOLOGICAL PROPERTIES OF BATTER FOR GLUTEN FREE BREAD

G. Zsivanovits, D. Iserliyska, M. Momchilova, M. Marudova

ПОЛУЧАВАНЕ НА ПОЛИЕЛЕКТРОЛИТНИ КОМПЛЕКСИ ОТ ХИТОЗАН И КАЗЕИН

Антоанета Маринова, Теменужка Йовчева, Ася Виранева, Иван Бодуров, Мария Марудова

CHEMILUMINESCENT AND PHOTOMETRIC DETERMINATION OF THE ANTIOXIDANT ACTIVITY OF COCOON EXTRACTS

Y. Evtimova, V. Mihailova, L. A. Atanasova, N. G. Hristova-Avakumova, M. V. Panayotov, V. A. Hadjimitova

ИЗСЛЕДОВАТЕЛСКИ ПРАКТИКУМ

Ивелина Димитрова, Гошо Гоев, Савина Георгиева, Цвета Цанова, Любомира Иванова, Борислав Георгиев

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PARAMETRIC INTERACTION OF OPTICAL PULSES IN NONLINEAR ISOTROPIC MEDIUM

A. Dakova, V. Slavchev, D. Dakova, L. Kovachev

ДЕЙСТВИЕ НА ГАМА-ЛЪЧИТЕ ВЪРХУ ДЕЗОКСИРИБОНУКЛЕИНОВАТА КИСЕЛИНА

Мирела Вачева, Хари Стефанов, Йоана Гвоздейкова, Йорданка Енева

RADIATION PROTECTION

Natasha Ivanova, Bistra Manusheva

СРАВНИТЕЛЕН АНАЛИЗ НА СЪДЪРЖАЩИТЕ СЕ ЕСТЕСТВЕНИ РАДИОНУКЛИДИ В НЕВЕН И ЛАЙКА

Сияна Димова, Цветелина Стефанова, Йорданка Енева, Нина Архангелова

СТАБИЛНОСТ НА ЕМУЛСИИ ОТ ТИПА МАСЛО/ ВОДА С КОНЮГИРАНА ЛИНОЛОВА КИСЕЛИНА

И. Милкова-Томова, Д. Бухалова, К. Николова, И. Алексиева, И. Минчев, Г. Рунтолев

THE EFFECT OF EXTRA VIRGIN OLIVE OIL ON THE HUMAN BODY AND QUALITY CONTROL BY USING OPTICAL METHODS

Carsten Tottmann, Valentin Hedderich, Poli Radusheva, Krastena Nikolova

ИНФРАЧЕРВЕНА ТЕРМОГРАФИЯ ЗА ДИАГНОСТИКА НА ФОКАЛНА ИНФЕКЦИЯ

Рая Грозданова-Узунова, Тодор Узунов, Пепа Узунова

ЕКСПЕРИМЕНТЪТ ПО ПРИЛОЖНА ФИЗИКА И НЕГОВАТА РОЛЯ ПРИ УСВОЯВАНЕТО НА ПРАКТИКО-ПРИЛОЖНИТЕ ЗНАНИЯ ОТ КУРСАНТИТЕ И СТУДЕНТИТЕ

Николай Тодоров Долчинков, Бонка Енчева Караиванова-Долчинкова, Nikolay Dolchinkov, Bonka Karaivanova-Dolchinkova

ЕЛЕКТРИЧНИ СВОЙСТВА НА КОМПОЗИТНИ ФИЛМИ ОТ ПОЛИМЛЕЧНА КИСЕЛИНА

Ася Виранева, Иван Бодуров, Теменужка Йовчева

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PHYSICS IS AN EVER YOUNG SCIENCE

Temenuzhka Yovcheva

ТРИ ИДЕИ ЗА ЕФЕКТИВНО ОБУЧЕНИЕ

Гергана Карафезиева

МАГИЯТА НА ТВОРЧЕСТВОТО КАТО ПЪТ НА ЕСТЕСТВЕНО УЧЕНЕ В УЧЕБНИЯ ПРОЦЕС

Гергана Добрева, Жаклин Жекова, Михаела Чонос

ОБУЧЕНИЕ ПО ПРИРОДНИ НАУКИ ЧРЕЗ МИСЛОВНИ КАРТИ

Виолета Стоянова, Павлина Георгиева

ИГРА НА ДОМИНО В ЧАС ПО ФИЗИКА

Росица Кичукова, Ценка Маринова

ТЪМНАТА МАТЕРИЯ В КЛАСНАТА СТАЯ

Симона Стоянова, Анета Маринова

ПРОБЛЕМИ ПРИ ОБУЧЕНИЕТО ПО ФИЗИКА ВЪВ ВВМУ „Н. Й. ВАПЦАРОВ“

А. Христова, Г. Вангелов, И. Ташев, М. Димидов

ИЗГРАЖДАНЕ НА СИСТЕМА ОТ УЧЕБНИ ИНТЕРНЕТ РЕСУРСИ ПО ФИЗИКА И ОЦЕНКА НА ДИДАКТИЧЕСКАТА ИМ СТОЙНОСТ

Желязка Райкова, Георги Вулджев, Наталия Монева, Нели Комсалова, Айше Наби

ИНОВАЦИИ В БОРБАТА С ТУМОРНИ ОБРАЗУВАНИЯ – ЛЕЧЕНИЕ ЧРЕЗ БРАХИТЕРАПИЯ

Георги Върбанов, Радостин Михайлов, Деница Симеонова, Йорданка Енева

NATURAL RADIONUCLIDES IN DRINKING WATER

Natasha Ivanova, Bistra Manusheva

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АДАПТИРАНЕ НА ОБРАЗОВАНИЕТО ДНЕС ЗА УТРЕШНИЯ ДЕН

И. Панчева, М. Недялкова, П. Петков, Х. Александров, В. Симеонов

INTEGRATED ENGINEERING EDUCATION: THE ROLE OF ANALYSIS OF STUDENTS’ NEEDS

Veselina Kolarski, Dancho Danalev, Senia Terzieva

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ZAGREB CONNECTION INDICES OF \(\mathrm{TiO}_{2}\) NANOTUBES

Sohaib Khalid, Johan Kok, Akbar Ali, Mohsin Bashir

SYNTHESIS OF NEW 3-[(CHROMEN-3-YL) ETHYLIDENEAMINO] -PHENYL] -THIAZOLIDIN-4ONES AND THEIR ANTIBACTERIAL ACTIVITY

Ramiz Hoti, Naser Troni, Hamit Ismaili, Malesore Pllana, Musaj Pacarizi, Veprim Thaçi, Gjyle Mulliqi-Osmani

2017 година
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GEOECOLOGICAL ANALYSIS OF INDUSTRIAL CITIES: ON THE EXAMPLE OF AKTOBE AGGLOMERATION

Zharas Berdenov, Erbolat Mendibaev, Talgat Salihov, Kazhmurat Akhmedenov, Gulshat Ataeva

TECHNOGENESIS OF GEOECOLOGICAL SYSTEMS OF NORTHEN KAZAKHSTAN: PROGRESS, DEVELOPMENT AND EVOLUTION

Kulchichan Dzhanaleyeva, Gulnur Mazhitova, Altyn Zhanguzhina, Zharas Berdenov, Tursynkul Bazarbayeva, Emin Atasoy

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47-А НАЦИОНАЛНА КОНФЕРЕНЦИЯ НА УЧИТЕЛИТЕ ПО ХИМИЯ

В последните години тези традиционни за българското учителство конфе- ренции се организират от Българското дружество по химическо образование и история и философия на химията. То е асоцииран член на Съюза на химици- те в България, който пък е член на Европейската асоциация на химическите и

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„СИМВОЛНИЯТ КАПИТАЛ“ НА БЪЛГАРСКОТО УЧИЛИЩЕ

Николай Цанков, Веска Гювийска

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ПРИРОДОНАУЧНАТА ГРАМОТНОСТ НА УЧЕНИЦИТЕ В НАЧАЛОТО НА XXI ВЕК – В ТЪРСЕНЕ НА КОНЦЕПТУАЛНО ЕДИНСТВО

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2016 година
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THE EFFECT OF KOH AND KCL ADDITION TO THE DESTILATION OF ETHANOL-WATER MIXTURE

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ИЗСЛЕДВАНЕ НА ПРОФЕСИОНАЛНО-ПЕДАГОГИЧЕСКАТА РЕФЛЕКСИЯ НА УЧИТЕЛЯ ПО БИОЛОГИЯ (ЧАСТ ВТОРА)

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Книжка 2
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ПО ПЪТЯ ON THE ROAD

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COMPLEX SYSTEMS FOR DRUG TRANSPORT ACROSS CELL MEMBRANES

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Книжка 5
TEACHER’S ACCEPTANCE OF STUDENTS WITH DISABILITY

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Книжка 4
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РУМЕН ЛЮБОМИРОВ ДОЙЧЕВ (1938 – 1999)

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Книжка 6
LUBRICATION PROPERTIES OF DIFFERENT PENTAERYTHRITOL-OLEIC ACID REACTION PRODUCTS

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Книжка 5
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ВИСША МАТЕМАТИКА ЗА УЧИТЕЛИ, УЧЕНИЦИ И СТУДЕНТИ: ДИФЕРЕНЦИАЛНО СМЯТАНЕ

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BOTYU ATANASSOV BOTEV

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Maria Atanassova, Radoslav Angelov

Книжка 1
КАК ДА МОТИВИРАМЕ УЧЕНИЦИТЕ OT VII КЛАС ДА УЧАТ

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Книжка 6
DIFFERENTIAL TEACHING IN SCHOOL SCIENCE EDUCATION: CONCEPTUAL PRINCIPLES

G. Yuzbasheva Kherson Academy of Continuing Education, Ukraine

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Книжка 4
RECASTING THE DERIVATION OF THE CLAPEYRON EQUATION INTO A CONCEPTUALLY SIMPLER FORM

Srihari Murthy Meenakshi Sundararajan Engineering College, India

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Joan J. Solaz-Portolés, Vicent Sanjosé Universitat de Valènciа, Spain

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Bipin B. Mahapatra, S. N. Dehury, A. K. Sarangi, S. N. Chaulia G. M. Autonomous College, India Covt. College of Engineering Kalahandi, India DAV Junior College, India

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SIMULATION OF THE FATTY ACID SYNTHASE COMPLEX MECHANISM OF ACTION

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G. Yuzbasheva Kherson Academy of Continuing Education, Ukraine

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COLORFUL EXPERIMENTS FOR STUDENTS: SYNTHESIS OF INDIGO AND DERIVATIVES

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ADDRESING STUDENTS’ MISCONCEPTIONS CONCERNING CHEMICAL REACTIONS AND SYMBOLIC REPRESENTATIONS

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КОНЦЕПТУАЛНА СХЕМА НА УЧИЛИЩНИЯ КУРС П О ХИМИЯ – МАКР О СКОПСКИ ПОДХОД

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Sunanda S. Aswale, Shashikant R. Aswale, Aparna B. Dhote Lokmanya Tilak Mahavidyalaya, INDIA Nilkanthrao Shinde College, INDIA

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Jadupati Malakar, Amit Kumar Nayak Bengal College of Pharmaceutical Sciences and Research, INDIA

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Mila Ivanova Luleva, Harald van der Werff, Freek van der Meer, Victor Jetten

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JOHN DEWEY: HOW WE THINK (1910)

John Dewey (1859 – 1952)

ИНФОРМАЦИЯ ЗА СПЕЦИАЛНОСТИТЕ В ОБЛАСТТА НА ПРИРОДНИТЕ НАУКИ В СОФИЙСКИЯ УНИВЕРСИТЕТ „СВ. КЛИМЕНТ ОХРИДСКИ“ БИОЛОГИЧЕСКИ ФАКУЛТЕТ

1. Биология Студентите от специалност Биология придобиват знания и практически умения в областта на биологическите науки, като акцентът е поставен на организмово равнище. Те се подготвят да изследват биологията на организмите на клетъчно- организмово, популационно и екосистемно ниво в научно-функционален и прило- жен аспект, с оглед на провеждане на научно-изследователска, научно-приложна, производствена и педагогическа дейност. Чрез широк набор избираеми и факул- тативни курсове студентите

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УЧИТЕЛИТЕ ПО ПРИРОДНИ НАУКИ – ЗА КОНСТРУКТИВИСТКАТА УЧЕБНА СРЕДА В БЪЛГАРСКОТО УЧИЛИЩЕ

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ПОВИШАВАНЕ ИНТЕРЕСА КЪМ ИСТОРИЯТА НА ХИМИЧНИТЕ ЗНАНИЯ И ПРАКТИКИ ПО БЪЛГАРСКИТЕ ЗЕМИ

Людмила Генкова, Свобода Бенева Българско дружество за химическо образование и история и философия на химията

НАЧАЛО НА ПРЕПОДАВАНЕТО НА УЧЕБЕН ПРЕДМЕТ ХИМИЯ В АПРИЛОВОТО УЧИЛИЩЕ В ГАБРОВО

Мария Николова Национална Априловска гимназия – Габрово

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„МАГИЯТА НА ХИМИЯТА“ – ВЕЧЕР НА ХИМИЯТА В ЕЗИКОВА ГИМНАЗИЯ „АКАД. Л. СТОЯНОВ“ БЛАГОЕВГРАД

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ЗА ПРИРОДНИТЕ НАУКИ И ЗА ПРАКТИКУМА ПО ФИЗИКА (Иванов, 1926)

Бурният развой на естествознанието във всичките му клонове през XIX –ия век предизвика дълбоки промени в мирогледа на културния свят, в техниката и в индустрията, в социалните отношения и в държавните интереси. Можем ли днес да си представим един философ, един държавен мъж, един обществен деец, един индустриалец, просто един културен човек, който би могъл да игнорира придобив- ките на природните науки през последния век. Какви ужасни катастрофи, какви социални сътресения би сполетяло съвре

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MURPHY’S LAW IN CHEMISTRY

Milan D. Stojković

42-рa МЕЖДУНАРОДНА ОЛИМПИАДА ПО ХИМИЯ

Донка Ташева, Пенка Цанова

СЕМЕЙНИ УЧЕНИЧЕСКИ ВЕЧЕРИНКИ

Семейството трябва да познава училишето и училишето трябва да познава семейството. Взаимното познанство се налага от обстоятелството, че те, макар и да са два различни по природата си фактори на възпитанието, преследват една и съща проста цел – младото поколение да бъде по-умно, по-нравствено, физически по-здраво и по-щастливо от старото – децата да бъдат по-щастливи от родителите

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