Applications of ash аnd slag waste in agriculture

Environmental pollution creates problems for health of people living in residential areas near pollution sources. Studies aimed at developing methods for investigating the impact of industrial facilities on the air is of interest. The purpose of this work is to analyze the methodology for assessing the risk of exposure of a technosphere object to the atmosphere. It was assumed that the enterprise in emergency mode emits pollutants through the source of emissions at the maximum single concentration of the substance exceeding the maximum permissible concentration. To calculate the impact on a human, various scenarios of an emergency situation are taken into account. These are constructing failure trees and using well-known health risk assessment techniques. The calculation took into account the wind rose for a specific enterprise location and wind speed projections obeying the normal distribution law. These assumptions allowed us to develop a method for calculating the risk of exceeding the concentration of a pollutant at a given point (x, y) during the year. Isolines of surface concentrations were built. Three toxic substances were taken for analysis. The method for calculating the dispersion of emissions of harmful (polluting) substances in the atmospheric airwas used; maps of the dispersion of isolines of pollutants in residential areas were constructed. When solving the inverse problem, emergency emission intensities at which excess of permissible concentrations occurred were determined. In the range of multiplicities exceeding the maximum single maximum permissible concentration from 1 to 5, the dependence was well approximated by a straight line. This technique can be used to determine the risk of diseases caused by carcinogenic and noncarcinogenic substances and minimize the risk of exposure to harmful substances. Ash and slag wastes are the source of negative impact on the environment. This area is studied by a number of researchers. The article aims to systematize the data on possible applications, accumulated practical experience of using ash and slag waste in agriculture both in Russia and abroad. The analysis showed that waste from the fuel and energy industry can be widely used in various areas of agriculture. It can be used as ameliorants, zeolite-based mineral fertilizers, pesticides and insecticides for treating horticultural crops, microfertilizers, as well as for soil remediation and land reclamation. The use of ash and slag waste in agriculture and other sectors of the national economy can reduce the ecological load on the environment. The number of overfilled ash dumps can be reduced, and there will be no need to build new ones.

Comprehensive Evaluation of Land Reclamation Schemes in Mining Area based on Linguistic Intuitionistic Fuzzy Group Decision Making

Mine geological environment protection and land reclamation schemes are the core requirements for mining right application, which play an important role in regulating mining activities and supervising mining enterprises to fulfill their obligations of mine reclamation. In order to give full play to the guidance function of the schemes, provide reference for the compilation and review of the schemes, this paper attempts to make comprehensive evaluation of land reclamation schemes in mining area with multi-attribute group decision making method. First, linguistic intuitionistic fuzzy numbers are utilized to describe the evaluation information. Considering the authority and preference attitude of experts, the determination methods of expert weights in four cases are established. Then max-min deviation method is used to determine the attribute weights. Thereafter, a method for Linguistic intuitionistic fuzzy group decision making problem is proposed. Finally, the practicability of this method is verified by land reclamation schemes of four mining areas in Sichuan Province and comparative analysis is made. The research results show that the evaluation process of this method is simple and effective, so it can be reasonably applied to compile and review of land reclamation schemes.

RESPON PERTUMBUHAN TANAMAN SENGON (PARASERIANTHES FALCATARIA) TERHADAP PEMBERIAN AMELIORAN PADA MEDIA CAMPURAN TANAH PASCATAMBANG BATU KAPUR

Open mining activities have caused soil damage, water pollution, air pollution, and damage to vegetation. Limestone post mining is a critical area that must be rehabilitated to be productive again. This problems can be fixed by doing land reclamation activities which mandated in the Mining Law Number 4, 2009. The success of land reclamation is largely determined by the choice of plant species and the provision of appropriate soil enhancers (ameliorant). This study was aimed to analyze the growth response of sengon plants on giving ameliorant in mixed limestone post mining soil. This study was designed in completely randomized design for 7 treatments and 3 replications used combination of ameliorant: P0 (without ameliorant); P1 (AH 4 kg ha-1); P2 (BFA 350 kg ha-1); P3 (FMA 500 spores plant-1); P4 (the combination of AH and FMA); P5 (the combination of BFA and FMA); and P6 (the combination of AH, BFA, and FMA). Data were processed by analysis of variance at the 0,05 significance level followed by the Least Significant Difference test. The results showed that the best growth response of sengon on giving ameliorant in mixed limestone post mining soil was P1 treatment (humic acid material) which significantly increased root length, root volume, root fresh weight, shoot fresh weight, root dry weight, and shoot dry weight in sengon plants. The addition of ameliorant can be recommended to improve the quality of revegetation plants

Sustainable Enviromental Management dalam Mengatasi Permasalahan Kerusakan Lahan Akibat Penambangan Galian C di Kabupaten Karangasem

The topography of Karangasem Regency is very varied, in the form of plains, hills, mountains, namely the highest mountain in Bali (Gunung Agung). The location of Karangasem Regency which is close to Mount Agung causes Karangasem Regency to have a wealth of natural resources in the form of class C minerals, namely sand and rocks which are abundant compared to other regencies in Bali. The government of Karangasem Regency collects taxes on group C mining entrepreneurs. Exploitation of land in Karangasem Regency carried out by C mining entrepreneurs has a negative impact, namely environmental damage. The purpose of this study was to determine the implementation of Sustainable environmental management in overcoming the problem of land damage due to excavation c mining in Karangasem Regency. The research method used is the library research method. The results of the study showed that there was critical land due to mining business activities of C excavation which did not carry out land reclamation after post-mining. This is because the C mining entrepreneurs in Karangasem Regency do not carry out the basic principles of Sustainable Environmental Management, namely the principle of Intragenerational equity, the principle of intergenerational equity, the principle of preventive action, the principle of prudence, the precautionary principle and the polluter-pays principle.

A Sudden Turnaround: The Pro-Han Immigration Policy in Manchuria and Its Abrupt Abrogation in Early Qing Era

For most of Qing domination over China, the Manchu rulers strictly controlled or even prohibited migration of Chinese people to the dynasty’s Motherland (long xing zhi di 龍興之地). Only two brief phases are an exception, namely the mid Shunzhi to early Kangxi and Yongzheng periods. During the former, in 1653, a “Regulation for the repopulation and land reclamation of Liaodong” was promulgated, establishing alluring incentives for whoever managed to move a hundred or more people to the region east of the Liao river. Only fifteen years later, when the maneuver had just started to produce some results, the Qing court abolished it. In the long term, such a change of direction appears perfectly normal, considering that later on most of the lands would be assigned to the Eight Banners and the state would have striven to keep the Chinese out. Nevertheless, in the short term, the decision seemed to come out of the blue. An interesting debate on what might have determined the turnabout began in the early twentieth century, and some most recent contributions have been published in the 2000s; yet none of the thesis proposed so far is fully convincing. On the basis of sources that have not yet been taken into account, this paper further investigates into the matter and aims at demonstrating that the concerns which compelled the rulers to officially oppose immigration in the following decades already existed in the very first years of Kangxi reign.

Response of Water Environment to Land Reclamation in Jiaozhou Bay, China Over the Last 150 Years

Jiaozhou Bay (JZB), located at Qingdao City, north China, is a semi-enclosed shallow bay that has undergone large-scale land reclamation and is suffering from a deteriorated water environment. Long-term evolution of JZB with respect of coastline, tidal prism, tidal dynamics, water-exchange capacity, and pollutant transport from 1863 to 2020 was investigated in this paper, using remote sensing images, historical charts, and a numerical model. The JZB was predominated by natural evolution from 1863 to 1935, during which the coastline barely changed. Thereafter, human intervention became intense and more and more natural tidal flats were replaced by salt ponds, aquaculture area, and reclamation very quickly. As a result, tidal prism, area of tidal flats, and area of JZB decreased sharply by 0.290 km3, 182 km2, and 223 km2, respectively, from 1935 to 2020, corresponding to annual decreasing rates being of 123 times, 10 times, 12 times, respectively, as that of before 1935. A numerical model showed that the residual current in JZB tended to be weaker due to the change of coastline and bathymetry, which is not favoring the water-exchange and pollutant transport, especially in the northeast of JZB. The basin residence time increased from 15.5 days in 1935 to 17.6 days in 2020, because of weaker residual tidal current and smaller tidal prism. Local residence time increased significantly near the area with large land reclamation, especially in the northeast and west of JZB. Distribution of dissolved inorganic nitrogen (DIN), in each year, which is the dominant pollutant in JZB, indicated higher DIN concentration and weaker transport along with reclamation. The research on JZB evolution over the last 150 years can provide useful suggestions for the decision-makers of the local government to improve the marine ecosystem. The systematic method to investigate long-term water environment evolution of JZB can be used to study other semi-closed bays.

Economic and energy evaluation of sainfoin growing technology elements for green feed

One of the main directions of fodder production intensification is the cultivation of fodder crops and fodder harvesting from them at the lowest cost of energy and labor resources, the maximum yield of fodder products per unit area, and 1 UAH of production costs. To successfully perform this task, it is necessary, first of all, to increase the productivity of forage crops, the use of cost-effective and energy-saving technologies and increase the efficiency of fertilizer application. One of the most valuable perennial legumes is sainfoin, which is characterized by high fodder value, unpretentiousness to growing conditions and has great agronomic value. At the same time, the existing technologies for growing sainfoin for fodder purposes remain energy- and resource intensive. The aim of the research was to determine the influence of mineral fertilizers and seed inoculation on the economic and energy efficiency of the sainfoin growing technology on green fodder. Experimental studies were conducted during 2016-2018 on the research field of the Department of Forage Production, Land Reclamation and Meteorology, located in the NULES of Ukraine "Agronomic Research Station" on typical low-humus chernozem. Experimental research was conducted during 2016-2018 on the research field of the Department of Forage Production, Land Reclamation and Meteorology, located in the NULES of Ukraine "Agronomic Research Station". The scheme of the experiment included the following factors: factor A - varieties of sainfoin: Amethyst Donetskyi, Adam, Smaragd; factor B - fertilizer, inoculation: 1) without fertilizers, 2) N45R60K90 + seeds inoculation, 3) P60K90 + seeds inoculation. As nitrogen fertilizer was used ammonium nitrate 34%, phosphorus - simple superphosphate 19%, potassium - potassium salt 56%. Method of sowing - row, spring, coverless. Inoculation was performed by Rhizotorphin. Economic evaluation of the results of field experiments was carried out in accordance with generally accepted methods developed by the Institute of Cereals NAAS, the Institute of Feed and Agriculture of Podillya NAAS, NSC "Institute of Agrarian Economics" and other research institutions. Calculations of energy efficiency of growing sainfoin for green fodder were calculated according to the "Methodology of bioenergy assessment of technologies for the production of livestock products and feed." According to the economic assessment, the calculations of monetary and material costs are performed taking into account the full mechanization of works. The costs for them are calculated according to the technological maps developed in the process of research. The cost of seeds, fertilizers and fuel was taken at wholesale prices as of January 1. 2019, 1 ton of fodder units of sainfoin was equated to the cost of 1 ton of feed grain. According to the results of research, it was found that when setting up an experiment with different varieties of sainfoin, both with the introduction of mineral fertilizers and without them, the costs were the same. Economic indicators differed significantly at the end of the growing season, as the productivity of different varieties of sainfoin differed significantly not only due to the biological characteristics of varieties, but also as a result of their different reactions to mineral fertilizers. According to the obtained results of the calculation, among the studied varieties of sainfoin the highest conditionally net profit (13354-16504 UAH/ha) and the level of profitability (129-176%), as well as the lowest cost of 1 ton of feed units (1431-1627 UAH per 1 ton) and crude protein (UAH 8393–7291 per 1 ton) were observed on crops of sainfoin Amethyst Donetskyi. In general, the most economically feasible in terms of profitability (176%) was the cultivation of this variety in the absence of fertilizer. The highest indicators of EEC (energy efficiency coefficient) (4.6-6.3) were observed for the cultivation of sainfoin variety Amethyst Donetskyi in the absence of mineral fertilizer or application of phosphorus-potassium fertilizers only.

Rationalization of Flares at Terminal Island

This study aims to assess potential opportunities for optimizing the number of flares operated by COMPANY at the Terminal Island with oil and gas processing, storage and export facilities, while considering ongoing and future developments on the island and possible integration with flare network of other downstream Company. The different flare systems cater to flaring requirements of HP, MP and LP systems in oil and gas processing plants at the island. The fundamental drivers for flare systems rationalization study are disadvantages associated with greater number of flares such as: More plot area usage for flares at expense of industrial expansion Increased HSE risks in terms of thermal radiation and dispersion of toxic gases More fuel gas consumption as purge and pilot gas Higher operational and maintenance costs In this study, existing flares at Terminal Island were studied and options were developed for each flare system with the aim of rationalizing the number of flares. These options included demolition of flares, diversion and redistribution of respective flare loads to other flares. Relocation of flares to offshore platforms / reclaimed areas in sea and replacement of elevated flare with enclosed ground flare, which has negligible thermal radiation was also considered. The rationalization options developed for each flare system were evaluated on the basis of factors such as recovered sterile area, reduction in purge gas (Hydrocarbon and Nitrogen) and pilot gas consumption, maintenance cost, operation cost, number of flares and estimated investment as CAPEX (for modification scope). The current and future flare loads were taken into account while developing these options. The flare design capacities, available capacities for accommodating additional flare loads, sterile area freed along with minimization of associated dispersion and thermal radiation effects at ground level after demolition of flares were also considered for generation of suitable rationalization options. A simplified and optimized flaring network at Terminal Island operated by COMPANY was developed by reducing the number of flares based on techno-economic screening, while safeguarding the operational and safety requirements. As concluded from the study, eight (8) nos. of flares occupying significant sterile radii can be demolished out of total fourteen (14) nos. of existing flares. The sterile area recovered (approximately 77,000 m2) as result of flares rationalization is of great value and importance for building new facilities. The land recovered can be used for future developmental projects on the island instead of opting for land reclamation. In addition, COMPANY's objectives to reduce environmental impact, associated HSE risks and thermal radiation intensity at surrounding areas / facilities will also be achieved.