The spatial organization of services in new land settlement: experiences and trends

Conclusion Despite its uniqueness, the vitality inherent in the rural structure of Israel is of particular interest to other developing regions with a predominant rural-agricultural population. Latin American countries, for example, are investing considerable resources in the development of new lands through construction of penetration roads and other infrastructure. Several countries have created regional development authorities; some have policies designed to attract private investments into virgin areas.¹³⁾ The general emphasis tends increasingly toward state-initiated and planned settlement, often in conjuction with agrarian reform programs — an approach dictated both by economic efficiency and welfare criteria.Past experience has shown that the rural population has to be organized in viable communities in order to become amenable to economic and cultural integration. Communities must likewise be spatially organized in an optimal way that will make it possible to provide them with amenities and so direct their production for the purpose of achieving economic status. At the same time, maximum flexibility must be preserved to fit varying developmental stages, since physical plans once carried into effect are extremely difficult to modify.In order to reduce the social and economic pull of existing urban centers it may be advisable to develop new settlement areas as self-sufficient enclaves, independent to some extent from the facilities existing in the region. The settlements would share the national infrastructure of communications and public services, but would gear their production to regional as well as extra-regional demand, bypassing the traditional local market place. Then, as the new communities consolidate as social and economic entities, the options for collaboration or competition with existing central places can be laid open on a more equitable basis.Admittedly such sheltered development may affect the role of the local intermediary and lessen the commercial activities of the urban sector, but it would also stimulate the development of an independent framework of handling, marketing, and an increasing degree of processing the settlements' produce. These complementary activities would help to retain part of the added value of the production and generate new sources of employment for successive village generations. The delay in the growth for the region's total output may well be worthwhile for achieving that social and economic transformation which in turn may lead to a more balance and sustained development of the entire region.¹⁴⁾     

硅质海绵骨针矿化机制及仿生应用研究进展

硅质海绵动物是地球上最简单、最古老的多细胞动物,它经几百万年的自然进化成就了适应自然和接近完美的技术蓝图,为人类利用纳米生物技术仿生合成生物无机矿物材料提供了一种崭新的节能和"环境友好"技术,在光纤、微电子和生物医学材料等领域具有广阔的仿生应用前景.生长在深海1000 m以下水深的单根海绵动物的根须骨针长达3 m,是世...     

基于土地资源的市县级多要素国土空间开发适宜性评价研究——以湖北省宜昌市为例

国土空间开发适宜性评价是国土空间规划编制的重要基础,市县是落实主体功能区划的基本单元,市县级国土空间开发适宜性评价可为国土资源与空间更精细化的管理提供有效支撑。本研究从自然因素和社会经济因素两个方面构建了国土空间开发适宜性评价指标体系,对宜昌市农业生产适宜性及城镇建设适宜性进行了评价,划分出适宜、较适宜、一般适宜、较不适宜和不适宜5类区域。结果表明宜昌市适宜开展农业生产的土地面积为3412 km²,不适宜土地面积为7143 km²;适宜进行城镇建设的土地面积为748 km²,不适宜土地面积为14679 km²。农业生产和城镇建设适宜性评价结果均呈现出典型的区域特征,适宜区主要分布在东部的平原区,区域整体的国土空间开发条件好;不适宜区主要分布在西部山区,区域整体的国土空间开发难度大。适宜性评价结果与规划数据有部分出入,与土地利用现状相差不大,农业生产适宜等级的土地面积比耕地保有量红线面积多132 km²,分布于农业生产适宜和较适宜区的现状耕地占耕地总面积的73.98%;城镇建设适宜等级的土地面积比建设用地底线面积少611 km²,分布于城镇建设适宜和较适宜区的现状建设用地占建设用地总面积的77.99%。将评价结果叠加在谷歌卫星图上,在空间上观察是否与土地现状一致,结果表明农业生产适宜区的评价结果准确率达100%,不适宜区的准确率为93%;城镇建设适宜区和不适宜区评价结果准确率达100%。     

Late glacial and holocene 10Be production rates for western Norway

We present a new regional calibration of the ¹⁰Be production rate from two well‐dated surfaces in southern Norway: a rock avalanche with ¹⁴C‐dated wood and a precisely dated Younger Dryas moraine. Calculated ¹⁰Be production rates are 4.26 ± 0.13 and 4.65 ± 0.14 at g^?1 a^?1 for the Lal/Stone and Lifton scaling models, respectively. Our regional production rate for southern Norway is 5% lower than the canonical global ¹⁰Be production rate with lower uncertainties. Our ¹⁰Be production rate agrees with regional ¹⁰Be production rates from north‐eastern North America and New Zealand. The ¹⁰Be production rate estimate presented here can be used to improve the precision and accuracy of exposure‐dated ice‐marginal features, as well as other surfaces, in northern Europe. Copyright © 2011 John Wiley & Sons, Ltd.     

Scale prediction in liquid flow through porous media: A geochemical model for the simulation of CaCO3 deposition at the near-well region

Currently available models of CaCO₃ scale formation during flow in porous media, provide simply a scaling tendency. We present a new tool that proceeds further to predict the distribution of scale precipitation in a one-dimensional porous medium and the consequent pore blocking. The innovative feature of this model is the combination of thermodynamics, kinetics and hydrodynamics for the prediction of scale deposition along and around the production wells. The development of the geochemical model was based on scale reaction calculations attempting to simulate/interpret dynamic tube-scale laboratory experiments. In this work, we present the equation scheme with the basic assumptions employed and some results with relevance to the experimental work. The paper also considers some of the issues associated with the generation and reliability of the laboratory data used in the construction of the geochemical model. The new laboratory scale data have been acquired from a series of sandpack blocking experiments using for the first time a radiotracer technique.     

Village water supply in Botswana: assessment of recommended yield for production boreholes in a semi-arid environment

More than 90% of the rural villages and settlements throughout Botswana have water supplies based on groundwater. The annual increase in water demand is about 0.3 × 10⁶ m³ and on average around 60 new boreholes are needed annually. In parallel with construction of new production boreholes for rural villages, there is an on-going rehabilitation of existing boreholes which have lost their original yield due to clogging, corrosion, encrustation, etc. The total annual cost of siting, drilling and testing of around 100 new production boreholes for rural villages water supply is estimated at around US$7.5 million (1997 price).Modelling of every groundwater resource for rural village water supply in Botswana is currently not feasible due to a lack of relevant and detailed information. A modelling exercise will assess the resource of the aquifer being studied, but can not give an assessment of the yield of each production borehole. Groundwater supply to rural villages is therefore currently based on the abstraction possible from established production boreholes. Test pumping data from these boreholes are the prime information in such an assessment. However safety factors and the fact that drought periods of longer duration are common in a semi-arid environment must also be considered. A computer program package TESTCURV developed by the Department of Water Affairs is a most useful tool in the assessment of yields for production boreholes for village water supply in Botswana, based on the performance of the well and the aquifer. No replenishment is assumed and the question of sustainable yield is not addressed by the program.     

Breaking the yield frontier of rice

Major increases in rice production have occurred during the last 25 years, due to large-scale adoption of high-yielding semidwarf rice varieties. However, the rate of increase of rice production has slowed down, and the rate of population growth of rice consumers is now higher than the rate of increase of rice production. Severe food shortages are therefore likely to occur in 20–30 years if the trend is not reversed. To meet these food needs, rice varieties with higher yield potential are needed. The yield potential of the modern high-yielding varieties grown under the best tropical conditions is 10 t ha^–1. A research program is under way to develop varieties with a yield potential of 15 t ha^–1. One strategy aims to develop new rice plants with a harvest index of 0.6 (60% grain: 40% straw by weight) and with an increased ability for photosynthesis to increase total biological yield. The harvest index of the modern high-yielding varieties is 0.5. Such new varieties should have a yield potential of 12.5–13 tons ha^–1. These new plant type varieties will be used to produce hybrid rices with a yield advantage of 25% over the best parent. Such hybrids would have a yield potential of 15 t ha^–1.     

A simple accelerated rock weathering method to predict acid generation kinetics

The development of effective, and economical pre-development waste rock management plans requires an accurate estimate of the quality of drainage generated during mining. This study was conducted to determine if a simple accelerated rock weathering method with lower capital and personnel costs can be used in lieu of the elaborate and costly ASTM method to predict the quality of drainage generated. It involves subjecting rock samples to a constant relative humidity and temperature for 7 days and leach flooding the weathered samples on the 7th day. The acid production rate from the new weathering method correlates quite well with the net neutralization potential generated from the standard acid-base accounting procedure (R²=0.940) which has been demonstrated to be correct 90% of the time in assessing overburden quality, and a mineralogical method (R²=0.924). For investigators interested in generating weathering kinetic parameters, the simple and less costly accelerated weathering method is proposed.     

石英原料在太阳能产业及其他高科技工业中的应用前景——以哈萨克斯坦和埃及为例

人类开发应用石英具有悠久的历史：早在石器时代,人类就曾将石英作为装饰品、工具、法器、武器、日用品等应用;在工业时代,石英主要作为玻璃原料及冶金熔剂使用;当代,石英广泛应用于许多工业和高科技领域。近年来,石英作为可再生能源及其它高科技领域用的材料,特别是以石英为原料制备多晶硅及单晶硅作为微电子学材料及太阳能利用材料方面展示了广阔的前景。但这个领域对石英纯度的要求很高,通过传统的提纯和晶体生长技术将石英转化为硅很不经济,因为传统方法大量使用氯、氯化氢及四氯化硅对环境有负面影响。而开发闭路循环技术系统或使用高纯度石英原料足解决这个问题的重要途径,前者取决于化学冶金技术水平,而后者则取决于矿产地质。因此,高纯度石英的找矿评价及工业硅的提纯是大力发展太阳能产业的重要途径。目前,以石英为原料进行高纯半导体材料和微电子材料等的合成在有些国家已经大规模工业化,并形成产业,如太阳能产业和高科技工业。据预测,在2010至2012年间,高纯石英原料将会短缺且竞争激烈。根据发达国家的实践经验,在哈萨克斯坦建立用于太阳能和其它高科技工业的高纯石英基地具有重要的理论和现实意义。哈萨克斯坦高纯石英资源丰富,在哈萨克斯坦中部,变质成因的石英脉及交代型的石英岩很普通,在东部、中部、南部和西部,石英结晶仡岗岩则很多,水晶矿床则主要集中在哈萨克斯坦的西南地区,花岗岩侵入体的水晶矿以及粒状石英脉几乎在哈萨克斯坦到处都有分布,结晶花岗岩则分布在哈萨克斯坦北部和南部地区,但是该国针对高纯石英的工业化研究与应用则很少。埃及的石英原料也很丰富,主要矿床位于该国中部和东南部地区,工业化研究与应用也很少。建议这两个国家将高纯石英原料作为太阳能产业及其它高科技产业发展的重点研究领域。     

中国西部铜矿资源勘查开发现状和潜力及接替区选区

新世纪以来,中国西部地区的重要成矿区（带）内探明了一批大、中型铜矿床,致其铜矿资源储量和产能大幅度增长,已形成了东西并驾齐驱的铜矿勘查开发格局。文章简要介绍了新世纪以来西部地区探明的主要大型铜矿床的地质特征。通过综合评价,优选出14个西部铜矿资源接替区,即在未来的5至10年间可实现规模开发的中观尺度的资源接替基地。预期到“十三五”末,通过加大勘查开发力度,西部铜矿接替区的铜产能和资源储量都将显著增加。西部铜矿接替区大多地处高山深谷区或荒漠戈壁区,开发基础条件落后,生态环境脆弱,应加快其基础设施的建设,同时,应做好铜矿资源开发的环境影响评价与规划。     

热流和岩石生热率关系的研究

通过花岗岩体和中下地壳剖面岩石生热率的研究,显示出花岗岩体内生热率的分布至多样性;华北下地壳变质岩的生热率介于0.2-0.4μW/m³之间,其对热流的热贡献较小;地壳岩石生热率总体上是深度不连续的递减函数。中国东南地区出露着大面积的中生代花岗岩体,实测热流和岩石生热率没有得出可信的线性关系。结合对现有热流省资料的认识,提出了对热流和岩石生热率关系的新看法,解释了以往线性关系的不稳定性,估算出正常陆壳厚度的热流下限应为29.5mW/m²。     

Calcite and barite precipitation in CaCO<Subscript>3</Subscript>-BaSO<Subscript>4</Subscript>-NaCl and BaSO<Subscript>4</Subscript>-NaCl-CaCl<Subscript>2</Subscript> aqueous systems: kinetic and microstructural study

During the production of hydrocarbons from subterranean reservoirs, scaling with calcium carbonate and barium sulfate causes flux decline and dangerous problems in production facilities. This work is intended to study the effect of calcium ions on the precipitation of barium sulfate (barite); then, the effect of the formed barite on calcium carbonate crystallization. The conductometric and pH methods were used to follow the progress of the precipitation reaction in aqueous medium. The obtained precipitates were characterized by FTIR, RAMAN, SEM, and XRD. It was shown that Ca²⁺ in the reaction media does not affect the microstructure of barite even for higher calcium–barium molar ratio. It influences the precipitation kinetics and the solubility of barite by the formation of CaSO₄° ion pairing as a predominant role of complex formation (CaSO4) and the increase of the ionic strength. In Ca(HCO₃)₂-BaSO₄-NaCl aqueous system, experiments have showed that added or formed barite in the reaction media accelerates calcite precipitation. No effect on the microstructure of heterogeneous formed calcite which remain calcite shape. However the presence of carbonate ions affects slightly the microstructure of barite.     

Distribution characteristics,exploration and development,geological theories research progress and exploration directions of shale gas in China

The shale gas resources in China have great potential and the geological resources of shale gas is over 100×10¹²m³,which includes about 20×10¹²m³ of recoverable resources.Organic-rich shales can be divided into three types according to their sedimentary environments,namely marine,marine-continental transitional,and continental shales,which are distributed in 13 stratigraphic systems from the Mesoproterozoic to the Cenozoic.The Sichuan Basin and its surrounding areas have the highest geological resources of shale gas,and the commercial development of shale gas has been achieved in the Upper Ordovician Wufeng Formation-Lower Silurian Longmaxi Formation in these areas,with a shale gas production of up to 20×10⁹m³ in 2020.China has seen rapid shale gas exploration and development over the last five years,successively achieving breakthroughs and important findings in many areas and strata.The details are as follows.(1)Large-scale development of middle-shallow shale gas(burial depth:less than 3500 m)has been realized,with the productivity having rapidly increased;(2)breakthroughs have been constantly made in the development of deep shale gas(burial depth:3500-4500 m),and the ultradeep shale gas(burial depth:greater than 4500 m)is under testing;(3)breakthroughs have been made in the development of normal-pressure shale gas,and the assessment of the shale gas in complex tectonic areas is being accelerated;(4)shale gas has been frequently discovered in new areas and new strata,exhibiting a great prospect.Based on the exploration and development practice,three aspects of consensus have been gradually reached on the research progress in the geological theories of shale gas achieved in China.(1)in terms of deep-water fine-grained sediments,organic-rich shales are the base for the formation of shale gas;(2)in terms of high-quality reservoirs,the development of micro-nano organic matter-hosted pores serves as the core of shale gas accumulation;(3)in terms of preservation conditions,weak structural transformation,a moderate degree of thermal evolution,and a high pressure coefficient are the key to shale gas enrichment.As a type of important low-carbon fossil energy,shale gas will play an increasingly important role in achieving the strategic goals of peak carbon dioxide emissions and carbon neutrality.Based on the in-depth study of shale gas geological conditions and current exploration progress,three important directions for shale gas exploration in China in the next five years are put forward.     

Calibration of the in situ cosmogenic 14C production rate in New Zealand's Southern Alps

In situ cosmogenic ¹⁴C (in situ ¹⁴C) analysis from quartz‐bearing rocks is a novel isotopic tool useful for quantifying recent surface exposure histories (up to ～25 ka). It is particularly powerful when combined with longer‐lived cosmogenic isotopes such as ¹⁰Be. Recent advances in the extraction of in situ ¹⁴C from quartz now permit the routine application of this method. However, only a few experiments to calibrate the production rate of in situ ¹⁴C in quartz have been published to date. Here, we present a new in situ ¹⁴C production rate estimate derived from a well‐dated debris flow deposit in the Southern Alps, New Zealand, previously used to calibrate ¹⁰Be production rates. For example, based on a geomagnetic implementation of the Lal/Stone scaling scheme we derive a spallogenic production rate of 11.4 ± 0.9 atoms ¹⁴C (g quartz)^?1 a^?1 and a ¹⁴C/¹⁰Be spallogenic production rate ratio of 3.0 ± 0.2. The results are comparable with production rates from previous calibrations in the northern hemisphere. Copyright © 2012 John Wiley & Sons, Ltd.     

基于生态优先的水资源承载力分源评价及应用——以河北保定平原为例

水资源是保障区域发展的重要因素,是维持生态环境的关键要素.保定平原区作为京津冀地区的重要区域,其水资源承载能力对于区域生态和社会经济发展具有重要意义.本文以生态优先为基本理念,基于不同供水来源与不同用水类型的供给与利用关系,采用定额计算和线性加权目标规划相结合的方法,对保定平原区水资源承载力进行分源评价,并与地方规划相...     

Numerical simulation of operation performance on production and injection of a double well geothermal system in Kailu Basin,Inner Mongolia

Inner Mongolia is abundant in geothermal resources, but the development and utilization of medium-depth geothermal resources for clean heating in winter is still in the preliminary stage compared with the neighboring provinces. In this paper, a recently developed geothermal heating system using the Mesozoic sandstone reservoirs in Baokang of Kailu Basin, Eastern Inner Mongolia was investigated, a three-dimensional geological model of a pair of production and injection well was established, and numerical simulations on the long term operation performance were conducted and verified by pumping test and water level recovery test data. The effects of flow rates, the direction of wells, injection temperature and ratios on the flow field and water level in the thermal reservoir were analyzed. The results show that considering a 30-year operation period and a production rate from 90 m³/h to 110 m³/h, the optimum well spacing can be increased from 225 m to 245 m, with an average value of 235 m. With the decrease of the injection temperature, the cold front of the injection water has an increasing influence on the temperature in the production well. A complete injection or the principle of production according to injection is recommended in order to maintain the long-term operation stability. In addition, the location of the injection well should be arranged in the downstream of the natural flow field. The present results can provide a useful guide for the optimum design and performance prediction of geothermal wells, thus maintaining the production and injection balance and promoting the sustainable development and utilization of medium-depth and deep geothermal resources.     

Hydrogen from coal gasification: An economical pathway to a sustainable energy future

Although hydrogen is the most abundant element in the universe, it does not occur naturally in large quantities or high concentrations on Earth. Hydrogen must be produced from other compounds such as fossil fuels, biomass, or water and is therefore considered an energy carrier like electricity. Gasification of carbonaceous, hydrogen-containing fuels is an effective method of thermal hydrogen production and is considered to be a key technology in the transition to a hydrogen economy. However, for gasification to play a major role during the transition period, capital and operating cost must be reduced and reliability and performance must be improved.Analyses show that hydrogen produced from coal-based gasification can be competitive with production from natural gas provided the cost of natural gas remains above $4/10⁶ Btu and the high reliability of gasification-based processes can be demonstrated. But for coal to be considered in a carbon-constrained environment, the cost of natural gas would have to be greater than $5.50/10⁶ Btu. The development of advanced technologies, however, offers the potential for significant reductions in capital costs, improved thermal efficiencies, and increased reliability. If these advanced technologies are capable of achieving their goals, the cost of producing hydrogen from coal could be reduced by 25–50%, even with the capture and sequestration of CO₂. With these reductions, the cost of natural gas would have to be less than $2.50/10⁶ Btu to compete, a scenario that is very unlikely to occur in the future. This potential cost reduction provides considerable impetus for continuing research and development in the production of hydrogen from coal.     

Carbon isotope fractionation of Thermoanaerobacter kivui in different growth media and at different total inorganic carbon concentration

Chemolithotrophic homoacetogenic bacteria apparently express a characteristic stable carbon isotope fractionation and may contribute significantly to acetate production in anoxic environments. However, fractionation factors (ε) in bacterial cultures have rarely been determined and the effect of substrate availability has not been assessed. We therefore studied the kinetic carbon isotope effect in cultures of Thermoanaerobacter kivui grown at 55 °C. The fractionation factor in HCO₃⁻ buffered medium was ca. 15‰ more negative than that in PO₄³⁻ buffered medium. To test whether the difference was caused by the initial substrate ratio of H₂ and total inorganic carbon (TIC; 0.5 in HCO₃⁻ vs. 4.0 in PO₄³⁻ buffered medium), T. kivui was grown in either [3-(N-morpholino) propanesulfonic acid, MOPS] buffered or PO₄³⁻ buffered media with different HCO₃⁻ concentration. Indeed, the fractionation factor became more negative with increasing HCO₃⁻ concentration and decreasing H₂/TIC ratio. While pH had only a small effect, the fractionation was generally more negative in MOPS buffered than in phosphate buffered media, indicating that the buffer system also affected fractionation. Collectively, the results show that substrate availability and other environmental factors affect the magnitude of isotope fractionation during acetate production by chemolithotrophic homoacetogenesis.     

Numerical simulation and evaluation of the fracturing and tight gas production with a new dimensionless fracture conductivity (FCD) model

Hydraulic fracturing is an essential technology for the development of unconventional resources such as tight gas. The evaluation of the fracture performance and productivity is important for the design of fracturing operations. However, the traditional dimensionless fracture conductivity is too simple to be applied in real fracturing operations. In this work, we proposed a new model of dimensionless fracture conductivity (F_CD), which considers the irregular fracture geometry, proppant position and concentration. It was based on the numerical study of the multistage hydraulic fracturing and production in a tight gas horizontal well of the North German Basin. A self-developed full 3D hydraulic fracturing model, FLAC3D^plus, was combined with a sensitive/reliability analysis and robust design optimization tool optiSLang and reservoir simulator TMVOCMP to achieve an automatic history matching as well as simulation of the gas production. With this tool chain, the four fracturing stages were history matched. The simulation results show that all four fractures have different geometry and proppant distribution, which is mainly due to different stress states and injection schedule. The position and concentration of the proppant play important roles for the later production, which is not considered in the traditional dimensionless fracture conductivity F_CD. In comparison, the newly proposed formulation of F_CD could predict the productivity more accurately and is better for the posttreatment evaluation.