Pickling Behaviour of 2205 Duplex Stainless Steel Hot-rolled Strips in Sulfuric Acid Electrolytes

Pickling behaviour of the oxide layer on hot-rolled 2205 duplex stainless steel (DSS) was studied in H2SO4 solutions with electrolytic workstation.Comment: 12 pages, 14 figures,3 table

Livelihood Diversification Helps Herder Households on the Mongolian Plateau Reduce Emissions: A Case Study of a Typical Pastoral Area

Environmental issues caused by energy consumption have become increasingly prominent in recent years. In some ecologically vulnerable areas of developing countries, the negative environmental effects caused by farmers’ household energy consumption are closely related to the local (and even global) ecological environment and human health. Taking a typical ecologically vulnerable area of the Mongolian Plateau as an example, we combined a regression model, energy popularity rate, and average energy consumption to explore the impact of livelihood diversification on herder households’ energy consumption structures. We also attempted to quantify the environmental effects of the energy transition in terms of greenhouse gas and air pollutant emissions. The findings show that the average consumption of livestock dung, gasoline, coal, liquefied gas, solar, and wind of livelihood diversification households (LDHs) is lower than that of pure herder households (PHHs), whereas the average consumption of electricity is higher than that of PHHs. As a result, the average emission of CO2 by LDHs is 5.14 t/a lower than that of PHHs. And compared with PHHs, the average emission reductions of air pollutants by LDHs are ranked as follows: CO: 153.20 kg/a, PM10: 36.56 kg/a (including PM2.5: 32.94 kg/a), VOCs: 12.47 kg/a, SO2: 3.14 kg/a, and NOx: 3.06 kg/a. Therefore, livelihood diversification can help herder households on the Mongolian Plateau reduce emissions through energy consumption transitions. Strengthening education (especially language education) can help herder households engage in livelihood diversification. This study provides a scientific means for ecologically vulnerable areas in developing countries to resolve conflicts between farming households’ energy consumption and the environment

Livelihood Diversification Helps Herder Households on the Mongolian Plateau Reduce Emissions: A Case Study of a Typical Pastoral Area

Environmental issues caused by energy consumption have become increasingly prominent in recent years. In some ecologically vulnerable areas of developing countries, the negative environmental effects caused by farmers’ household energy consumption are closely related to the local (and even global) ecological environment and human health. Taking a typical ecologically vulnerable area of the Mongolian Plateau as an example, we combined a regression model, energy popularity rate, and average energy consumption to explore the impact of livelihood diversification on herder households’ energy consumption structures. We also attempted to quantify the environmental effects of the energy transition in terms of greenhouse gas and air pollutant emissions. The findings show that the average consumption of livestock dung, gasoline, coal, liquefied gas, solar, and wind of livelihood diversification households (LDHs) is lower than that of pure herder households (PHHs), whereas the average consumption of electricity is higher than that of PHHs. As a result, the average emission of CO2 by LDHs is 5.14 t/a lower than that of PHHs. And compared with PHHs, the average emission reductions of air pollutants by LDHs are ranked as follows: CO: 153.20 kg/a, PM10: 36.56 kg/a (including PM2.5: 32.94 kg/a), VOCs: 12.47 kg/a, SO2: 3.14 kg/a, and NOx: 3.06 kg/a. Therefore, livelihood diversification can help herder households on the Mongolian Plateau reduce emissions through energy consumption transitions. Strengthening education (especially language education) can help herder households engage in livelihood diversification. This study provides a scientific means for ecologically vulnerable areas in developing countries to resolve conflicts between farming households’ energy consumption and the environment

The Impact of China’s Grassland Ecological Compensation Policy on the Income Gap between Herder Households? A Case Study from a Typical Pilot Area

China’s policy of subsidies and rewards for grassland ecological protection (PSRGEP) aims to maintain the ecological function of grasslands and increase the income of herder households. Since 2011, the Chinese government has invested more than 150 billion yuan in this policy, making it currently the largest grassland ecological compensation project in China. Based on a survey of 203 herder households in Xin Barag Left Banner, Inner Mongolia Autonomous Region, this study used the Lorenz curve and Gini index to describe the imbalance in the distribution of compensation funds. Then, the integrated livelihood capital scores before compensation were used as a baseline. The changes in ranking and standard deviation of the scores after receiving compensation funds were analysed to draw a conclusion about the impact on the income gap between herder households. Finally, we described the absolute income gap through a group comparison. The results show that the distribution of compensation funds is unbalanced (Gini index is 0.46). According to the order of compensation funds from high to low, the top 20% of sample herder households received 49% of the total funds. Given the unbalanced distribution, households with better family economic conditions received more compensation funds. After receiving the compensation funds, the change in the ranking of the household’s livelihood capital integrated score was small, but the standard deviation increased from 0.1697 to 0.1734, and the Gini index of the households’ capital integrated scores decreased from 0.35 to 0.34 (the coefficient of variation decreased from 0.66 to 0.63). The group with the highest integrated livelihood capital score received 3.6 times the compensation funds of the group with the lowest score. As a result, under the promotion of PSRGEP, the local absolute income gap has widened, but the relative income gap has reduced. This study evaluated the current distribution of compensation funds for PSRGEP, which could provide a scientific basis for managers to optimize the fund distribution in the future

Research Progress on the Theory and Practice of Grassland Eco-Compensation in China

In order to curb the phenomenon of grassland degradation caused by human activity, China has begun the exploration of grassland eco-compensation, setting an example for the ecological protection of grasslands and sustainable use of resources around the world. At this stage, China has invested more than 170 billion yuan in grassland eco-compensation, benefiting 12 million farmer and herder households. The related research involves various perspectives, scopes, and methods, but lacks systematic reviewing. This study reviews the relevant theoretical and practical research and explores the connotations and effects of grassland eco-compensation in China. In general, the current grassland eco-compensation in China is a large-scale ecological-economic institutional arrangement with the following five characteristics: (1) the goals are to maintain the grassland ecosystem services and increase the income of herder households; (2) the main bodies are governments and herder households; (3) the main method is financial transfer payments; (4) the compensation standards are based on the opportunity costs of the herder households’ responses as the lower limits and the grassland ecosystem service values as the upper limits; and (5) it is a comprehensive compensation system that requires legal, regulatory, technological support and long-term mechanisms. Since 2011, driven by the grassland eco-compensation policy, the income levels of herder households in each pilot area have generally increased, and the overall ecology of grasslands has slightly improved. However, there are still some areas where overload is common. Additionally, there are regional differences in the satisfaction degree of herder households, which is mainly affected by factors such as family income, compensation cognition and family holding grassland scale. Our analysis shows that the shortcomings of current theoretical research are mainly reflected in the low precision of scientific compensation standards, the lack of a basis for differentiated standards, and the single compensation method. The shortcoming of practical research is that most effect evaluations cannot reflect the role of eco-compensation in it. This study suggests that future work should focus on the response mechanism of herder households and the improvement of the compensation measures. At the same time, the scope of research should be expanded, and we should learn from advanced compensation experience in other fields

Specialization or diversification? The situation and transition of households’ livelihood in agricultural heritage systems

Zhagana Agriculture-Forest-Animal Husbandry Composite System (ZCS) is the first Globally Important Agricultural Heritage Systems site in the Tibetan Plateau. Similar to many traditional agricultural regions, with the development of tourism and leisure agriculture, the peasant households in ZCS have gradually changed their livelihood strategies and livelihood activities in the past 10 years, resulting in the disappearance of some traditional farming methods and agricultural landscapes with a long history. By taking livelihood assets as the entry point and livelihood strategies as the core, this paper analyzed the basic situation of households’ livelihood and the transition mechanism of different livelihood strategies in order to offer suggestions for the dynamic conservation and sustainable development of Agricultural Heritage Systems (AHS). (1) The livelihood strategies of peasant households in ZCS can be divided into two major categories: specialized strategies and diversified strategies. (2) According to the empirical calculation of the livelihood asset accounting framework of AHS, the average livelihood asset value of peasant households in ZCS is 2.040, showing that the situation of peasant households’ livelihood is inadequate. (3) The transition of peasant households’ livelihood strategies from traditional strategy to specialized or diversified livelihood strategies is mainly influenced by natural assets, human assets, cultural assets, social assets and informational assets. In order to meet the growing material and spiritual needs of peasant households and achieve the sustainable development of ZCS simultaneously, it is suggested that the agriculture-forestry-animal husbandry-tourism composite strategies shall be taken as the development direction of peasant households’ livelihood strategies

Thermal Fatigue Characteristics of Type 309 Austenitic Stainless Steel for Automotive Manifolds

The thermal fatigue behavior of type 309 austenitic stainless steel was investigated by cyclic tests ranged from 100 °C to the maximum temperatures 800 and 900 °C. The microstructures of the specimens were characterized by optical microscope, scanning electron microscope and X-ray diffraction. With changing the maximum temperature from 800 to 900 °C, the stainless steel exhibits much lower strength, higher elongation and a decrease of fatigue life about 56.6%. After the thermal fatigue failure, the specimens show micro-void coalescence fractures caused by the creep during the holding period at the maximum temperatures, and the quasi-cleavage feature also appears in the case of the maximum temperature 800 °C. During the thermal fatigue processes, the cavities usually form at the grain and twin boundaries, facilitating the initiation and growth of cracks. Furthermore, the high-temperature oxidation produces oxides on the specimen surfaces and in the cracks, deteriorating thermal fatigue properties. With an increase in the maximum temperature, the enhanced synergetic effect of strength, grain size, creep and oxidation is responsible for the accelerated fatigue failure of 309 stainless steel during the thermal cycles

Life Cycle Analysis of Carbon Flow and Carbon Footprint of Harvested Wood Products of Larix principis-rupprechtii in China

Larix principis-rupprechtii is a native tree species in North China with a large distribution; and its harvested timbers can be used for producing wood products. This study focused on estimating and comparing carbon flows and carbon footprints of different harvested wood products (HWPs) from Larix principis-ruppechtii based on the life cycle analysis (from seedling cultivation to HWP final disposal). Based on our interviews and surveys, the system boundary in this study was divided into three processes: the forestry process, the manufacturing process, and the use and disposal process. By tracking carbon flows of HWPs along the entire life cycle, we found that, for one forest rotation period, a total of 26.81 tC/ha sequestered carbon was transferred into these HWPs, 66.2% of which were still stored in the HWP when the rotation period had ended; however, the HWP carbon storage decreased to 0.25 tC/ha (only 0.9% left) in the 100th year after forest plantation. The manufacturing process contributed more than 90% of the total HWP carbon footprint, but it was still smaller than the HWP carbon storage. In terms of the carbon storage and the carbon footprint, construction products had the largest net positive carbon balance compared to furniture and panel products. In addition, HWP are known to have a positive impact on global carbon mitigation because they can store parts of the sequestered carbon for a certain period of time and they have a substitution effect on carbon mitigation. Furthermore, there still exist great opportunities for carbon mitigation from HWPs through the use of cleaner energy and increasing the utilization efficiency of wood fuel

Livelihood Assets and Strategies among Rural Households: Comparative Analysis of Rice and Dryland Terrace Systems in China

The livelihood of peasant households is one of the selection criteria of Globally Important Agricultural Heritage Systems and a critical factor that affects agricultural heritage system conservation and inheritance. Taking the Honghe Hani Rice Terraces System (HHRTS) and Shexian Dryland Terraces System (SDTS) as examples, we investigated 304 households through a participatory rural appraisal method to discuss the livelihood assets and strategies of households in agricultural heritage systems. From the viewpoint of livelihood strategies, household strategies can be divided into pure agricultural, nonagricultural, and part-time agricultural strategies. The livelihood strategies of households in the HHRTS feature a higher proportion of nonagricultural, while those in the SDTS have a diverse distribution. With respect to livelihood assets, we constructed a livelihood assets accounting framework to highlight the important role of traditional culture and information technology in agricultural activities. The average livelihood assets value in the HHRTS and SDTS was 2.249 and 1.832, respectively. Then, applying the multinomial logit model, we quantitatively analyzed the relationship between livelihood assets and strategies. The results show that in both terrace systems, the understanding of traditional agricultural knowledge is important to suppress the shift of pure agricultural households to nonagricultural or part-time agricultural households. Therefore, in order to achieve dynamic conservation of terrace systems, it is necessary to effectively increase the cultural assets level of households, especially farmers’ understanding of traditional agricultural knowledge

Effect of cold rolling deformation on the pitting corrosion behavior of high-strength metastable austenitic stainless steel 14Cr10Mn in simulated coastal atmospheric environments

The pitting corrosion behaviors of high-strength metastable austenitic stainless steel (MASS) 14Cr10Mn with different cold rolling reductions (0 %, 10 % and 20 %) were investigated in simulated coastal atmospheric environments by scanning electron microscope (SEM), transmission electron microscope (TEM), X-ray photoelectron spectroscopy (XPS), electrochemical measurements and cyclic corrosion test. The cold rolling deformation noticeably increases the dislocation density in the steel. As the cold rolling reduction changes from 0 % to 20 %, the pitting potential and the polarization resistance decrease to some extent in 1 wt% NaCl solution. The cold rolling deformation increases the defect density and the contents of (Fe,Cr)-oxyhydroxides/hydroxides in the passive film on the specimen surface. After the wet-dry cyclic corrosion test, the corrosion pits initiate at the deformation band regions. The quantity, diameter and depth of the pits gradually increase with enlarging the cold rolling reduction