May 2021 marks the 25th anniversary of the basic department
"Capital Group Project and Program Management
REU by G.V. Plekhanova ….. 3
EDUCATION and SCIENCE
Resin V.I., Bachurina S.S., Vladimirova I.L., Dmitriev A.N., Nosov S. I., Pankratov E. P., Potravny I. M., Sukhorukov A. I.
Project management in the investment and construction sector, real estate and environmental protection at the modern innovative level: 25 years of the basic department "Project Management and Programs of Capital Group" of Plekhanov Russian University of Economics …. 4
On the property approach in assessing economic efficiency
investment projects in real sectors of the economy
(expansion, reconstruction and technical rearmament) …. 15
Lisichkin V. A.,Simchera V. M.
Optimization of the investment cycle in oil and gas construction …. 21
HOUSING CONSTRUCTION AND
HOUSING AND COMMUNAL SERVICES
Makarov D.A., Yudenko M.N.
Systemic modelling of economic interaction
in sphere of housing construction …. 28
ECONOMICS and MANAGEMENT
Simionova N.E.,Kirichenko D.A.
Supply chain efficiency: subsystems, processes, indicators …. 39
Semenov A.I., Gubaidullina A.D.
Digital transformation of the organization's business models … 49
Zakharova T.I., Gylin M.A.
Trends in the sustainable development of social sector organizations … 56
Biryukov E.S., Boyko M.N.
5 key steps in the organization's transition to an effective
sustainable development strategy …. 63
EYO J.E., CHIADIGHIKAOBI P.C.
Effects of gas flaring to the Nigerian ecology …. 71
Project management in the investment and construction sector, real estate and environmental protection at the modern innovative level: 25 years of the basic department "Project Management and Programs of Capital Group" of Plekhanov Russian University of Economics
Resin V.I., Bachurina S.S., Vladimirova I.L., Dmitriev A.N., Nosov S. I., Pankratov E. P., Potravny I. M., Sukhorukov A. I., Plekhanov Russian University of Economics, Moscow, Russia; e-mail:firstname.lastname@example.org
Keywords:Basic Department, Project and program management, continuing education, digitalization, investment and construction projects, real estate, environmental management, land use.
The article analyzes the 25-year scientific and pedagogical experience of the basic Department of Project and Program Management Capital Group of the Plekhanov Russian University of Economics for training specialists in the field of construction project management; The results achieved are considered and the prospects for further development of the system of training young specialists and conducting research on improving the methods of project and program management in the investment and construction sector, real estate economics, development and environmental activities, resource conservation, land use, in the search and adoption of innovative solutions using digital technologies in project management are outlined.
1. Resin V. I., Vladimirova I. L., Dmitriev A. N., Nosov S. I., Motorina M. A., Potravny I. M., Pankratov E. P. 20 years of the Department of Project Management and Programs of Plekhanov Russian University of Economics: scientific results and prospects for improving project management in the investment and construction sector, real estate and environmental management // Construction economics. – 2016. – № 3 (39). – P. 4-13.
2. Pankratov E. P., Pankratov O. E. Problems of increasing the production potential of construction complex enterprises // Economics of construction, 2015. - no. 3. - p. 4-17.
3. Digital methods of innovative management of investment and construction projects. Monograph /Ed. by I. L. Vladimirova. - Moscow: Plekhanov Russian University of Economics, 2020 – - 448 p.
4. Spatial development project Management: Training manual / Under the general ed. acad. RAS Komova N. V., prof. Tsypkina Yu. A., prof. Nosova S. I.; rel. for the issue of prof. Likefet A. L.-M.: IP Osminina E. O., 2020 – - 540 p.
5. Sustainable spatial development. Design and management: Monograph / Ed. acad. RAS Komova N. V., member-cor. RAS Sharipova S. A., prof. Nosova S. I., prof. Tsypkina Yu. A. - M.: IP Gubarev Evgeny Vladimirovich, 2021. - 752 p.
6. Resin V. I., Vladimirova I. L., Motorina M. A., Nosov S. I. Project management of territorial development – a new scientific direction at Plekhanov Russian University of Economics. Modern problems of project management in the investment and construction sector and environmental management. Materials of the MNPK for the 105th anniversary of the Plekhanov Russian University of Economics.-2012. - p. 5-8.
7. Modernization of industry and development of high-tech industries in the context of "green" growth. The monograph edited by acad. RAS Porfiriev B. N. M.: Izd. Scientific Consultant, 2017.
8. Bachurina S. S., Vladimirova I. L., Kallaur G. Yu. Formation of the infrastructure of the education system in the conditions of digitalization of the economy/Formation of the digital economy and industry: new challenges. The monograph edited by A. V. Babkin. Petersburg 2018.
9. Vladimirova I.L., Bareshenkova K.A., Kallaur G.Yu. Digital methods of real estate asset lifecycle management // Baltic Journal of Real Estate Economics and Construction Management. Volume 6, Issue 1, 2018.
10. Porfiriev B N, Dmitriev A N, Vladimirova I L, Tsygankova A A 2017 Sustainable development planning and green construction for building resilient cities: Russian experiences within the international context Environmental Hazards 165-79.
11. Approaches to classifying building innovations while implementing information modelling and project management» A.N. Dmitriev, I.L. Vladimirova, G.Yu. Kallaur and A.A. Tsygankova. Journal of Engineering Science and Technology Review 12 (2) (2019) Р.143 – 151.
12. Pankratov E. P., Pankratov O. E. About management of increase of investment opportunities of construction enterprises in the sphere of reproduction and renewal of fixed assets //Construction economics. 2019. - No. 4. - p. 3-17.
13. Sergey Nosov, Boris Bondarev, Evgeny Venevtsev et al. Increasing the efficiency of land use in real property complexes development projects. E3S Web of Conferences. 2020; Vol.164: 09031.
14. Nosov S. I., Svintsova T. Yu. Economic justification of urban land recultivation for involving them in economic turnover for new construction // Construction economics. – 2019. – № 6 (60). – р. 47-56.
On the property approach in assessing economic efficiencyinvestment projects in real sectors of the economy (expansion, reconstruction and technical rearmament)
Serov V.M., State University of Management, Moscow, Russia; e-mail: email@example.com
Keywords: investments, investment activity, economic efficiency of investments, profitable approach, property approach, capital investments, fixed assets / funds, market value of fixed assets / funds.
The article is devoted to the consideration of the methodical provisions and methods of the economic efficiency of capital expenditures and investments in the expansion, reconstruction and technical rearmament of existing enterprises using a property approach. In this article there are the results of investments in the creation of new production capacity, outlines the methods, indicators and formulas are given for calculating them when assessing the effectiveness of development projects and technical rearmament of existing organizations.
1. Serov V.M. On the property approach in assessing the economic efficiency of investment projects in real sectors of the economy (new capital construction) // Ekonomika stroitel’stva [Economics of Construction], 2021, no 1, pp. 3-11 (in Russ.).
2. Moiseenko N.A. Investing in the reconstruction of operating enterprises. M.: GUU, 2004, 169 p. (in Russ).
3. Serov V.M., Nesterova N.A.,Serov A.V. Organization and management in construction. Moscow, 2007, 432 p. (in Russ).
4. Gureeva E.G., Tihomirova K.A. Problems and solutions in the field of organization of investment and construction work at the enterprises of oil production // Ekonomika stroitel’stva [Economics of Construction], 2019, no 3, pp. 37-50 (in Russ.).
5. Serov V.M. On the development of methodology and methods for the analysis and evaluation of the economic efficiency of capital-forming investment-building projects // Ekonomika stroitel’stva [Economics of Construction], 2017, no 5, pp. 18-29 (in Russ).
6. Opekunov V.A. Real estate economics. Moscow, 2003, 242 p. (in Russ).
Optimization of the investment cycle in oil and gas construction
Lisichkin V. A., Federal Research Sociological Center Institute of Socio-Political Studies of the Russian Academy of Sciences, Doctor of Economics, Professor; e-mail: firstname.lastname@example.org;
Simchera V. M. , Federal Research Sociological Center Institute of Socio-Political Studies of the Russian Academy of Sciences, Doctor of Economics, Professor.
Keywords: investment and construction process, optimization, production sharing agreement, service contract, mining license, cost structure, losses and risks in the development of deposits.
The article considers the main stages of the investment and construction process in oil and gas construction. Shows the fallacy of acting companies of different ownership forms of the methodology for calculating the cost per unit of finished product (ton of oil cubic meters of natural gas) not taking into account the costs of geological exploration, contribuye, translation deposits in commercial operation. This practice is beneficial only for oil and gas oligarchs and allows them to receive super-profits, when many items of costs for the development of the field are attributed to the state, and the entire profitable part is distributed to private beneficiaries. Another significant gap in the methodology is the use of one of the most backward organizational and legal forms of relations between the state and private companies involved in the investment process-a production sharing agreement or a license for the extraction of mineral raw materials. Such forms are used mainly in countries of third world, while all countries OPEC member countries operate under schemes based on the use of service contracts. The transition in Russia to these advanced schemes of the investment cycle in oil and gas construction – service contracts-will have a huge effect both for the Russian economy and for individual economic entities and the entire population of the country.
1. Nursent N.A. What contracts in the oil and gas industry meet the country's interests? Modern research of social problems (electronic scientific journal), № 11, 2012 URL: https://cyberleninka.ru/article/n/kakie-kontrakty-v-neftegazovoy-otrasli-otvechayut-interesam-strany/viewer (date accessed: 26.02.2021).
2. Davidov B.A. Ways to improve service in the oil and gas industry in Russia. 07.11.2016, URL: https://neftegaz.ru/analisis/oil_gas/328603-puti-sovershenstvovaniya-regulirovaniya-servisnogo-obsluzhivaniya-neftegazovoy-otrasli-rossii/ (date accessed: 26.02.2021).
Systemic modelling of economic interaction in sphere of housing construction
Makarov D.A. Petersburg State Transport University Emperor Alexander I, St. Petersburg, Russia; e-mail: email@example.com;
Yudenko M. N., St. Petersburg State Economic University, St. Petersburg, Russia; e-mail: firstname.lastname@example.org
Keywords: housing construction, modeling economic interaction, sustainable equilibrium, government regulation.
The article presented the result of system approach to the modelling and the research of the functional mechanism in housing construction. A system of economic-mathematical models was proposed to model housing construction as a complex socio-economic system. The composition of the main participants in the housing and their interests (targeted functions) have been determined. The proposed set of models includes models of participants in this type of economic activity and models of their economic interaction.In the sphere of housing construction defined the concepts of optimal static and dynamic equilibrium, sustainability of equilibrium development.The sustainability of the housing construction is proposed to be assessed through the ability to return to the trajectory of optimal equilibrium development and the speed of such transition. The research of dynamic equilibrium and sustainability is carried out on the basis of identification and analysis of the totality of positive and negative feedback loops operating in the analyzed socio-economic system.The need for a system evaluation of both the instruments of state support and the mechanism for regulating the interaction processes of participants in the housing construction is substantiated.The work is noted the positive and negative effects of the current measures to support and stimulate construction. Proposals to improve the tools and mechanism of state regulation in housing construction have been formulated.
1. Forrester Jay W. Industrial dynamics. - M.: Progress, - 1971. - 340 p. (in Russ).
2. Kobelev N.B. The basics of complex economic systems simulation. – M.: Delo, - 2003. – 336 p. (in Russ).
3. Williamson Oliver E. The economic institutions of capitalism. - SPb.: Lenizdat, 1996. - 702 p. (in Russ).
4. Parinov S.I. Information interactions in the economic sphere. – N.: IEOPP SO RAN, - 1999. – 245 p. (in Russ).
5. Keynes J.M. The general theory of employment, interest and money. – M.: Gelios ARV, - 2017. – 350 p. (in Russ).
6. Zakharov V.Y., Trofimov O.V., Frolov V.G. The interaction of the participants in complex economic systems: role of the state in the deployment of Industry 4.0 // Ekonomicheskie otnosheniya [Journal of international economic affairs]. - 2020, - no.10. (2). - pp. 409-424 (in Russ).
7. Forrester Jay W., Urban Dynamics. - M.: Progress, - 1974. - 286 pp.
8. Makarov D.A., Yudenko M.N. Economic efficiency, financial risks and timing for investment projects implemented with borrowed funds// Mikroekonomika [Microeconomics]. - 2020. - no. 2. - pp. 23–28 (in Russ).
9. Pankratov E.P., Pankratov O.E. Problems of management of loading of capacities of the construction organizations // Ekonomika stroitelstva [Economics of Construction], 2018, no 4, pp. 3-12 (in Russ.).
10. Chepachenko N.V., Fedoseev I.V., Yudenko M.N. Methodological aspects of the study of growth potential in relation to construction organizations // Ekonomika stroitelstva [Economics of Construction], 2018, no 5, pp. 14-24 (in Russ.).
Supply chain efficiency: subsystems, processes, indicators
Simionova N.E., Russian Customs Academy (Rostov Branch), Rostov-na-Donu, Russia; e-mail:email@example.com
Kirichenko D.A., Russian Customs Academy (Rostov Branch), Rostov-na-Donu, Russia; e-mail: firstname.lastname@example.org
Keywords:supply chain, construction specifics, supply chain network model, key processes, efficiency, assessment indicators.
Increased competition requires strengthening the market position of enterprises, including more efficient supply chain management. To activate logistics activities, it is necessary to highlight key business processes in the logistics management system and form a system of indicators for assessing their effectiveness. Logistic operations in resource-intensive industries, including construction, are of particular importance. The specifics of the formation of supply chains in construction are due to the specifics of the industry. Researchers include the territorial dispersion of construction projects, a long and non-cyclical production, the need to attract not only resource suppliers, but also subcontractors, the predominance of discrete, non-deterministic and irregular flows. This increases the importance of logistics in the management of the construction business, since any deviations in the supply chain lead to an increase in the cost of construction, violation of the terms of commissioning of facilities.The combination of process and project-oriented approaches to the management of investment and construction activities is considered as a promising direction for the development of supply chains, which fully reflects the specifics of the flow model of construction production. The network model of the supply chain in construction, in particular, residential real estate, corresponds to the specifics of construction. Studies show that most authors consider the SCOR model as the basis for supply chain management, developing a system of metrics, detailing indicators, taking into account the specifics of the activity, the business model being implemented. Considering the problems of management and return on investments in logistics assets, the author proposes the payback period, profitability index, as well as the growth of business activity indicators as indicators.Considering the possibilities of the balanced scorecard, the author has identified the indicators of the logistics system, which are advisable to use to assess internal business processes. As a main indicator of the efficiency of management of the logistics subsystem, an indicator of added market value is proposed, which reflects not only an increase in profitability, but also an increase in the value of the assets. As investments in logistics assets grow, costs increase, but not only absolute costs should be considered as indicators, but also relative indicators characterizing, in particular, the return on costs.
1. Borisova L.A. The use of logistics in construction in a crisis URL: https://cyberleninka.ru/article/n/ispolzovanie-logistiki-v-stroitelstve-v-usloviyah-krizisa. (Date appeals: 01/03/2021). (in Russ.).
2. Pasyada I.N. Integrated logistics of projects of complex residential development and development of territories: dissertation ... candidate of economic sciences - St. Petersburg, 2018.-180 p. (in Russ.).
3. Eremina E.A. Tools for assessing the effectiveness of supply chain management. URL:http://elib.altstu.ru/journals/files/pv2012_2_1/pdf/070eremina.pdf. (Date appeals: 11/02/2021). (in Russ.).
4. Strimovskaya A. V. Formation of a system of indicators for assessing the efficiency of transportation in supply chains: dissertation ... candidate of economic sciences - St. Petersburg, 2017.-180 p. (in Russ.).
5. Sinitsyna A.G., Nekrasov A.S. Model of transformation of the transport and logistics system in asset management of railway transport // Logistika [Logistics], 2018, no7. URL: https: //grebennikon.ru/article-uap5.html. (Date appeals: 12/12/2020). (in Russ.).
6. Demchenko A.I. An approach to building a system of indicators of the logistics chain // Sovremennye problemy nauki i obrazovaniya [Modern problems of science and education], 2015, no 1-1. URL: http://www.science-education.ru/ru/article/view?id=18683. (Date appeals: 10/02/2021). (in Russ.).
7. Rybakov D.S. SCOR methodology as the basis of a model for optimizing costs and the level of logistics service // Logistika i upravlenie cepyami postavok [Logistics and supply chain management], 2020, no4, pp.39-49. (in Russ.).
8. Pankratov E.P., Pankratov O.E. Assessment of the state of the park of construction equipment and the problem of increasing its innovative and technical potential // Ekonomika stroitel'stva [Economics of construction]. -2020.- no2 (62) .- pp.3-15. (in Russ.).
9. Levina T.V. SCOR - modeling // Logistika i upravlenie cepyami postavok [Logistics and management in supply chains], 2012, no2, pp.88-94. (in Russ.).
10. Malysheva T.V., Ganeeva G.A. Organizational and economic features of distribution logistics of petrochemical industries // Vestnik Kazanskogo tekhnologicheskogo universiteta Bulletin of Kazan Technological University. - 2014.- no. 21. pp. 432-435. (in Russ.).
11. Pletneva N.G., Guzheva E.G., Chepachenko N.V. The choice of a supply chain model as a way to improve the efficiency of business structures in construction // Bulletin of civil engineers. - 2018.- no. 6 (71) . pp. 236-242. (in Russ.).
12. Olve N. G., Roy J., Vetter M. Assessment of the effectiveness of the company. A practical guide to the use of a balanced scorecard - M .: Williams, 2004. - 420 p. (in Russ.).
13. Lukinsky V. V., Strimovskaya A. V. Formation of an integrated system for assessing individualized performance indicators in supply chains // Logistika i upravlenie cepyami postavok [Logistics and management in supply chains], 2017, no 5 (82), pp.3-11. (in Russ.).
14. Sheremet A.D. Analysis and diagnostics of financial and economic activities of the enterprise: textbook. 2nd ed., Add. - M.: INFRA-M, 2018 .- 374 p. (in Russ.).
Digital transformation of the organization's business models
Semenov A.I., Gubaidullina A.D., Plekhanov Russian University of Economics, Moscow, Russia; e-mail: email@example.com
Keywords: business model, digitalization, innovations, innovative business-models, digital business model, technologies, digital transformation.
Business model is the scheme of the organization. It represents the main processes of the organization and the way the company generates cash flow and adds the value to the existing product or service. Digital transformation is one of the most popular trends in the modern management. More and more companies uses its principles for generating cash flow and reinventing the current business model. They allow company to create a marketing lead and to add a value to its products.
The main goal of the management tea is to introduce and to develop new technologies, and study the impact of their launch. This article is written to introduce the main methods and issues of the digital transformation and to study the differences.
1. OsterwalderA., PigneurY.,Ticci.L. Clarifying Business Model: Origin, Present and Future of The Concept. Communication of the Association for Information Systems, 2017.
2. Marchin Kotarba: Digital Transformation of business models, 2018.
3. Oliferov A.V., Makoveychuk K.A., Petrenko S.A. Transforming business models in the digital economy, 2019 (in Russ.).
4. Lyandau U.V. Business Architect: Designing Management Systems (part 1), Rusines, 2015, pp. 112 (in Russ.).
5. Maslennikov V.V., Lyandau U.V., Kalinina I.A., Popova E.V. The model of integrating the financial contour into the organization's strategy //Vestnik Rossijskogo ekonomicheskogo universiteta imeni G.V. Plekhanova, 2020, v. 17, no 3 (111), pp. 73-82 (in Russ.).
6. Lyandau U.V., Solovyeva U.V. Needs and features of the digital transformation of the organization // Ekonomika stroitel'stva [Economics of Construction], 2020, no 5(65), pp.40-47 (in Russ.).
Trends in the sustainable development of social sector organizations
Zakharova T.I., Gylin M.A., Plekhanov Russian University of Economics, Moscow, Russia; e-mail: Zaharova.TI@rea.ru
Keywords: social sector, sustainable development, global, health care, education, private income.
Rational popularization of the theory of sustainable development is especially important at the present time. Our civilization has accumulated many global problems in the economic, environmental and social spheres. Without the mutual support of government and business in the modern world, it is impossible to solve such problems as providing quality education or reducing unemployment, the lack of clean drinking water for a huge number of the world's population, and climate change, which leads to disastrous consequences. Without solving these problems, it is impossible to talk about the implementation of sustainable development plans. This global problem often relegates the development of the social sphere to the background, which is unacceptable, since in the end it can negatively affect the potential of people and the future of the country as a whole. The processes that took place in Russia at the end of the twentieth century show how dangerous it is to ignore the needs of the social sector. Today, the transition of the social sphere to a new level is a necessary prerequisite for the transition of the Russian Federation to sustainable development. Russia is systematically creating opportunities for positive changes in the social sphere, and our government is looking for optimal solutions to the accumulated problems. At the same time, work is underway to create a modern regulatory framework that optimizes Federal and regional legislation in such areas as population, health, education, sports and physical education, environmental and environmental management, and pension reform.
1. May V.A. Human capital: challenges for Russia. The development of human capital. Sat. scientific articles, M.: Delo, 2013.
2. Public health and health care. National Leadership / Under Ed.V.I. Starodubova, O.P. Shchepina et al. - M.: GEOTAR-Media, 2013 (in Russ.).
5 key steps in the organization's transition to an effective sustainable development strategy
Biryukov E.S., Boyko M.N., Plekhanov Russian University of Economics, Moscow, Russia; e-mail: Birykov.ES.@rea.ru
Keywords: sustainable development, sustainable development strategy, environmental friendliness of business, stakeholders, reporting, society.
Statistics show that society's requirements for business have become more specific and meaningful. So, for the majority of consumers today it is important that the business be environmentally friendly, cause minimal harm to the environment, be socially responsible and at the same time remain stable. Businesses, in turn, strive to meet these requirements and are everywhere working to implement sustainable development strategies and solve global problems. In this article, we will look at the benefits of implementing such a strategy and what steps are key in moving to this strategy.
1. Models of sustainable business development: the financial aspect of "Text": monograph / "Morozko N.I., Vorotnikova I.V., Lukasiewicz I.Y., etc.; under Ed.I. Lukasiewicz." - Moscow: Science. Technology, 2018. - 759 p. (in Russ.).
2. Gorshenin A.N. GORA Business Methodology. Customer Satisfaction Management System and Sustainable Business Development: "We identify systemic problems, affect customer satisfaction, break away from competitors, improve business processes, standardize business, turn risks into opportunities, implement strategy, develop business" / Gorshenin A.N. - Moscow: InterConsult, 2018. - 144 p. (in Russ.).
3. Cecilia Dosal. 5 Key Steps to a Sustainable Corporate Strategy. http://www.pgsadvisors.com/2013/08/5-key-steps-to-a-sustainable-corporate-strategy/ (date accessed 18.01.2021).
Effects of gas flaring to the Nigerian ecology
EYO J. E., Department of Ecology, Peoples Friendship University of Russia (RUDN University), 6 Miklukho- Maklaya Street, Moscow, 117198, Russian Federation; e-mail: firstname.lastname@example.org
CHIADIGHIKAOBI P. C., Pacherozi Engineering and Materials Nigeria Limited, 14 Chief Andy Obidike Lane, off Udeagbala Road, Ayaba Umueze, Osisioma, Abia State, Nigeria; e-mail: email@example.com
Keywords: gas flaring, global climate change, gas flaring in ecology, Niger Delta.
Nigeria is an oil and gas producing nation. The Niger Delta is the Nigerian oil and gas province. About 10 – 40% of produced associated gas is underutilized and is flared into the environment. This is the usual trend in the Nigerian oil and gas industry. Environmental pollution arising from gas flaring has impacted the ecosystem of Niger Delta region of Nigeria. The main stresses relative to oil and gas operations arise from gas flaring. Gas flaring has adverse impacts on the environmental components and its associated biota. This paper reviews the impacts of gas flaring on the agriculture and water quality resources in the Niger Delta region of Nigeria. The study found that gas flaring alters water ions (especially sulphate, carbonate, nitrate), pH, conductivity heavy metals (such as lead and iron) concentration, especially in rainwater. It also affects agriculture leading to decrease in growth and productivity probably due to changes in soil quality parameters.
1. Ismail O.S., Umukoro G.E. Global impact of gas flaring. Energy and Power Engineering. 2012. 4, pp. 290-302.
2. Kahforoshan D., Fatehifar E., Babalou A.A., Ebra-himin A.R., Elkamel A., Ltanmohammadzade J.S.S. Modelling and Evaluation of Air pollution from a Gaseous Flare in an Oil and Gas Processing Area. WSEAS Conferences in Santander, Cantabria, 23-25 September 2008.
3. Obioh I.B. Environmental Impact assessment of emissions from major facilities at QIT.” Atmospheric emissions and dispersion modeling. Faithlink Consults Nigeria Ltd., PortHarcourt. 1999.
4. Imevbore A.A., Adeyemi S.A. Environmental monitoring in relation to pollution and control of oil pollution. Seminar on the petroleum industry and the Nigerian environment. 1981. 6, pp. 135-142.
5. Ubani E.C., Onyejekwe I.M. Environmental impact analysis of gas flaring in the Niger delta region of Nigeria. Am. J. Sci. Indust. Res. 2013. 4(2), pp. 246-252.
6. Orimoogunje O.I., Ayanlade A., Akinkuolie T.A., Odiong A.U. Perception on the effect of gas flaring on the environment. Res. J. Environ. Earth Sci. 2010. 2(4), pp. 188-193.
7. Achi C. Hydrocarbon exploitation, environmental degradation, and poverty: the Niger Delta experience. Diffuse Pollution Conference, Dublin 2003 2B Policy / Socioeconomics.
8. Ozabor F., Obisesan A. Gas flaring: impacts on temperature, agriculture, and the people of Ebedei in Delta State Nigeria. Journal of Sustainable Society. 2015. 4 (2), pp. 5-12.
9. Lawanson A.O., lmevbore A.M.A., Fanimokun V.O. The Effects of Waste-Gas Flares on the Surrounding Cassava Plantations in the Niger Delta Regions of Nigeria. http://www.istrc.org/images/Documents/Symposiums/Sixth/6th_symposium_proceedings_0041_section_3_239.pdf. Accessed September 21st, 2016.
10. Adewale O.O., Mustapha U. The impact of gas flaring in Nigeria. International Journal of Science, Technology and Society. 2015. 3 (2), pp. 40-50.
11. Ezenwaji E.E., Okoye, A.C., Otti V.I. Effects of gas flaring on rainwater quality in Bayelsa State, Eastern Niger-Delta region, Nigeria. Journal of Toxicology and Environmental Health Sciences. 2013. 5 (6): 97-105.
12. Amadi A.N. Impact of gas-flaring on the quality of rainwater, groundwater, and surface water in parts of Eastern Niger Delta, Nigeria. Journal of Geosciences and Geomatics. 2014. 2 (3), pp. 114-119.
13. Efe S.I. Spatial variation of acid rain and its ecological effect in Nigeria. Proceedings of the Environmental Management Conference, Federal University of Agriculture, Abeokuta, Nigeria. 2011. Pp. 381 – 396.
14. Jacobson J. S. Effect of Acidic Aerosol, fog, Mist and Rain on Crops and Trees, Phill. Trans. Roy. Soc. Lond. 1989. B 49, pp. 327-338.
15. Neufeld H.S., Jernstedt J.A., Haines B.L. Direct foliar effects of simulated acid rain, I. Damage, Growth and Gas Exchange New Phytologist. 1985. 99 (3), pp. 389-405.
16. Efe S.I. Spatial variation in acid and some heavy metal composition of rainwater harvesting in the oil producing region of Nigeria. Natural Hazard. 2010. DOI 10.1007/s11069-010-9526-2.
17. Epidi J. O., Izah S.C., Ohimain E.I., Epidi T.T. Phytochemical, antibacterial and synergistic potency of tissues of Vitex grandifolia. Biotechnological Research. 2016. 2 (2), pp. 69-76.
18. Epidi J.O., Izah S.C., Ohimain E.I. Antibacterial and synergistic efficacy of extracts of alstonia boonei tissues. British Journal of Applied Research. 2016. 1 (1), pp. 0021-0026.
19. Ifemeje J.C. Effect of gas flaring on the anti-nutritional composition of four green leafy vegetables from Eleme in Rivers State, Nigeria. Columbia International Publishing International Journal of Environmental Pollution and Solutions. 2015. 3 (1), pp. 31-37.
20. Ujowundu C.O., Nwaogu L.A., Ujowundu F.N., Belonwu D.C. Effect of gas flaring on the phytochemical and nutritional composition of Treculia Africana and Vigna subterranean, British Biotechnology Journal. 2013. 3 (3), pp. 293-304.
21. Izah S.C., Chakrabarty N., Srivastav A.L. A review on heavy metal concentration in potable water sources in Nigeria: Human health effects and mitigating measures. exposure and health. 2016a. 8, pp. 285–304.
22. Izah S.C., Ineyougha E.R. A review of the microbial quality of potable water sources in Nigeria. Journal of Advances in Biological and Basic Research. 2015. 1 (1), pp. 12 – 19.
23. Izah S.C., Srivastav A.L. Level of arsenic in potable water sources in Nigeria and their potential health impacts: A review. Journal of Environmental Treatment Techniques. 2015. 3 (1), pp. 15 – 24.
24. Agedah E.C., Ineyougha E.R., Izah S.C., Orutugu L.A. Enumeration of total heterotrophic bacteria and some physico-chemical characteristics of surface water used for drinking sources in Wilberforce Island, Nigeria. Journal of Environmental Treatment Techniques. 2015. 3 (1), pp. 28 – 34.
25. Ogamba E.N., Izah S.C., Oribu T. Water quality and proximate analysis of Eichhornia crassipes from River Nun, Amassoma Axis, Nigeria. Research Journal of Phytomedicine. 2015. 1 (1), pp. 43 – 48.
26. Ogamba E.N., Izah S.C., Toikumo B.P. Water quality and levels of lead and mercury in Eichhornia crassipes from a tidal creek receiving abattoir effluent, in the Niger Delta, Nigeria. Continental Journal of Environmental Science. 2015. 9(1), pp. 13 – 25.
27. Ogamba E.N., Seiyaboh E.I., Izah S.C., Ogbugo I., Demedongha F.K. Water quality, phytochemistry and proximate constituents of Eichhornia crassipes from Kolo creek, Niger Delta, Nigeria. International Journal of Applied Research and Technology. 2015c. 4 (9), pp. 77 – 84.
28. Ogamba E.N., Ebere N., Ekuma C.G. Physicochemistry and Ichthyofauna of Ikoli Creek, Niger Delta, Nigeria. Biotechnol Res. 2017. 3 (2), pp. 43-49.
29. Seiyaboh E.I., Izah S.C., Oweibi S. Physico-chemical characteristics of sediment from sagbama creek, Nigeria. Biotechnological Research. 2017. 3 (1): 25-28.
30. Seiyaboh E.I., Izah S.C., Oweibi S. Assessment of water quality from Sagbama Creek, Niger Delta, Nigeria. Biotechnological Research. 2017. 3 (1): 20-24.
31. Seiyaboh E.I., Harry G.A., Izah S.C. Length-weight relationship and condition factor of five fish species from River Brass, Niger Delta. Biotechnological Research. 2016. 2 (4), pp. 187-192.
32. Seiyaboh E.I., Inyang I.R., Izah, S.C. Spatial variation in physico-chemical characteristics of sediment from Epie Creek, Bayelsa State, Nigeria. Greener Journal of Environment Management and Public Safety. 2016. 5(5), pp. 100-105.
33. Seiyaboh E.I., Inyang I.R., Izah S.C. Seasonal variation of physico-chemical quality of sediment from Ikoli Creek, Niger Delta. International Journal of Innovative Environmental Studies Research. 2016. 4 (4), pp. 29-34.
34. Oyoroko E., Ogamb E.N. Effects of detergent containing linear alkyl benzene sulphonate on behavioural response of Heterobranchus bidorsalis, Clarias gariepinus and Heteroclarias. Biotechnol. Res. 2017. 3 (3), pp. 55-58.
35. Dami A., Ayuba H.K., Amukali O. Effects of gas flaring and oil spillage on rainwater collected for drinking in Okpai and Beneku, Delta State, Nigeria. Global Journal of Human Social Science Geography & Environmental GeoScience. 2012. 12 (13), pp. 25- 29.
36. Dami A., Ayuba H.K., Amukali O. Ground water pollution in Okpai and Beneku, Ndokwa east local government area, Delta state, Nigeria. E3 Journal of Environmental Research and Management. 2013. 4(1), pp. 0171-0179.
37. Nwankwo C.N., Ogagarue D.O. Effects of gas flaring on surface and ground waters in Delta State Nigeria. Journal of Geology and Mining Research. 2011. 3 (5), pp. 131-136.
38. Emumejaye K. Effects of gas flaring on surface and ground water in Irri Town and Environs, Niger-Delta, Nigeria. IOSR Journal of Environmental Science, Toxicology and Food Technology. 2012.1(5), pp. 29-33.
39. Ezenwaji E.E., Okoye A.C., Otti V.I. Effects of gas flaring on rainwater quality in Bayelsa State, Eastern Niger-Delta region, Nigeria. Journal of Toxicology and Environmental Health Sciences. 2013. 5(6), pp. 97-105.
40. Mecke A., Lee I., Baker jr J.R., Banaszak Holl M.M., Orr B.G. Eur. Phys. J. 2004. E 14, 7 (2004).
41. Ben Rabha M., Boujmil M.F., Saadoun M., Bessaïs B. Eur. Phys. J. Appl. Phys. (to be published).
42. De Lillo F., Cecconi F., Lacorata G., Vulpiani A. EPL, 84 (2008).
43. De Luca L.T. Propulsion physics (EDP Sciences, Les Ulis, 2009).
44. Plancque G., You D., Blanchard E., Mertens V., Lamouroux C. Role of chemistry in the phenomena occurring in nuclear power plants circuits, in Proceedings of the International Congress on Advances in Nuclear power Plants, ICAPP, 2-5 May 2011, Nice, France (2011).