As the main body of ecological economy, forestry can not only effectively promote the economic development of our country, but also promote the construction of our ecological environment system, which plays a crucial role in the sustainable development of our economy and society. With the gradual improvement of people’s awareness of ecological environment protection, China’s forestry ushered in new opportunities for development, but also will face greater challenges.
Forestry engineering project is a decision-making and implementation activity combining forestry investment behavior and forestry construction behavior. Affected by human, financial, material, time, technology, information and other resources, the project management is complex and needs to be completed by several units in cooperation. In order to learn from foreign advanced technology and management experience, Chinese governments at all levels started to implement “Forestry Development Project”, “National Afforestation Project”, “Forest Resource Development and Protection Project”, “Forestry Development Project in Poverty-stricken Areas”, “Forestry Sustainable Development Project”, “Forestry Comprehensive Development Project”, “Ecological Afforestation Project in Shandong Province”, “Guangxi Forestry Comprehensive Development and Protection Project” and other forestry engineering construction projects successively with World Bank loans since 1980s. In the 21st century, China has reached an agreement with the European Investment Bank, which has successively implemented forestry special framework loan projects and climate change response framework loan projects in 12 provinces and regions including Shandong, Liaoning, Guizhou and Jiangxi, involving timber forest, national reserve forest, forestry biomass energy, forest carbon sink, etc. The implementation of the forestry projects loaned by these international financial organizations has effectively made up for the insufficient investment of forestry funds and accelerated the cultivation of forest resources in China.
前 言
林业作为生态经济的主体,既可以有效的推动我国经济的发展,也可以促进我国生态环境系统的建设,对我国经济和社会的可持续发展有着至关重要的作用。随着人们生态环境保护意识逐步提高,让我国的林业迎来了新的发展机遇,同时也将面临着更大的挑战。
林业工程项目是一种林业投资行为和林业建设行为相结合的决策与实施活动,受人力、财力、物力、时间、技术、信息等多种资源的影响;项目在管理上具有复杂性,需要由若干单位共同协作完成。为借鉴国外先进的技术和管理经验,中国各级政府从 20 世纪 80 年代开始, 利用世界银行贷款相继启动实施了“林业发展项目”“国家造林项目”“森林资源发展和保护项目”“贫困地区林业发展项目”“林业持续发展项目”“林业综合发展项目”“山东生态造林项目”“广西林业综合发展和保护项目” 等一批林业工程建设项目; 进入 21 世纪, 又与欧洲投资银行达成协议,相继在山东、辽宁、贵州、江西等 12 个省区利用欧洲投资银行实施了林业专项框架贷款项目、应对气候变化框架贷款项目,涉及用材林、国家储备林、林业生物质能源、森林碳汇等建设内容。这些国际金融组织贷款林业项目的实施,有效弥补了林业资金投入不足的问题,加快了我国森林资源培育。
With the improvement of China’s economic level and the increasing demand of society for energy, coal and other mineral resources have always been the important energy in the production and construction of China. In order to meet the demand of China’s economic market for mineral resources, the basic construction and management of mine resources has become the key to the development of China’s mine engineering. The construction and supervision of mine engineering has its own characteristics. The complexity of mine engineering construction supervision is determined by the particularity of large investment scale, high construction requirements, long service life and heavy safety responsibility. This also puts forward higher requirements for mine engineering supervisors. In addition to the necessary professional and technical knowledge, mine engineering supervisors should also have a high sense of social responsibility and a strong ability of comprehensive coordination and crisis response, and at the same time, they should cultivate noble professional ethics and hard-working dedication.
The capital construction of coal industry has its own characteristics. The complexity of construction supervision is determined by the particularity of large investment scale, high construction requirements, long service life and heavy safety responsibility. This requires supervisors to have not only necessary professional and technical knowledge, but also a high sense of social responsibility and strong ability of comprehensive coordination and crisis response, as well as noble professional ethics and hard-working dedication. Supervisors should timely grasp the industry trends, learn advanced experience and work philosophy, and constantly improve their own quality and business ability, so as to adapt to the rapid development of the construction market.
前 言
随着我国经济水平的提高,社会对于能源的需求日益增加,煤炭等矿产资源一直是我国生产建设中的重要能源,为了满足我国经济市场对矿产资源的需求,对矿山资源的基本建设和管理就成为我国矿山工程发展的关键。矿山工程的建设和监理有其自身特点,投资规模大、建设要求高、服务年限长、安全责任重等特殊性决定了矿山工程建设监理工作的复杂性。这也就对矿山工程的监理人员提出了更高的要求。矿山工程监理人员除具备必要的专业技术知识之外,还要有高度的社会责任感和较强的综合协调与危机应变能力,同时还要培养高尚的职业道德和吃苦耐劳的奉献精神。
煤炭工业基本建设工作有其自身特点,投资规模大、建设要求高、服务年限长、安全责任重等特殊性决定了建设监理工作的复杂性。这就要求监理人员除具备必要的专业技术知识之外, 还要有高度的社会责任感和较强的综合协调与危机应变能力,同时还要培养高尚的职业道德和吃苦耐劳的奉献精神。监理人员应该适时掌握行业动态,学习先进的经验和工作理念,不断提高自身素质和业务能力,能适应瞬息万变的建筑市场发展要求。
With the development of economy, the transportation industry has gradually entered the stage of comprehensive transportation system. With the rapid development of transportation economics, a relatively perfect research theory and system of transportation economics has been formed. Transportation economics is a subject that studies and discusses the laws of transportation economy based on the application of economic principles and methods in transportation leading cities, so that students can have the level of economic demonstration, prediction, analysis and evaluation and decision-making on transportation problems. Through in-depth investigation and research, this book summarizes the latest methods in the field of transportation economics on the basis of gathering the advantages of many families and combining the characteristics of transportation industry.
Since the reform and opening up, China has accelerated the construction of transportation infrastructure, and transportation industry has become one of the key supporting industries. Especially since the 1990s, China has taken a series of major measures to increase investment and promote the rapid development of transportation industry. However, there is a big gap between China’s current major transportation equipment and core technology level and the world’s advanced level. The transportation supply capacity is insufficient, the construction of comprehensive transportation system lags behind, various modes of transportation lack comprehensive coordination, and the problems of transportation energy consumption and environmental pollution are serious.
Looking forward to the 21st century, China’s transportation industry will continue to vigorously promote the construction of transportation infrastructure, rely on scientific and technological progress, strive to solve many key technical problems in transportation, including many challenges from the environment, energy, safety and other aspects, and build a sustainable new comprehensive transportation system to meet the needs of building a moderately prosperous society in an all-round way Higher requirements for transportation.
前 言
伴随着经济的发展,交通运输业已经逐步进入综合交通运输体系的阶段。交通运输经济学得到迅速发展,至今已形成了较为完善的运输经济学研究理论和体系。交通运输经济学是以经济学原理和方法在交通运输领城的应用为主要内容,研究和探讨运输经济规律的学科,从而使学生具备对交通运输问题进行经济论证、预测、分析评价和决策的水平。本书通过深入调查与研究,在集众家之所长的基础上,结合交通运输业的特点,对交通运输经济学领域的最新方式进行概述。
改革开放以来,我国加快了交通基础设施建设,交通运输业成为重点扶持的支柱产业之一,尤其是 20 世纪 90 年代以来,我国采取了一系列重大举措,增加投资力度,促进了交通运输业的快速发展。但是,我国目前的主要运输装备及核心技术水平与世界先进水平存在较大差距,运输供给能力不足,综合交通体系建设滞后,各种交通方式缺乏综合协调,交通能源消耗与环境污染问题严峻。
展望 21 世纪,我国交通运输业将在继续大力推进交通基础设施建设的基础上,依靠科技进步,着力解决好交通运输中存在的诸多关键技术问题,包括来自环境、能源、安全等方面的众多挑战,建立起一个可持续性的新型综合交通运输体系,以满足全面建设小康社会对交通运输提出的更高要求。
With the rapid development of economy, new science and technology and materials gradually enter people’s vision, especially the application of new technology and materials in the construction of mechanical and electrical engineering, which makes the construction of mechanical and electrical engineering more optimized. The construction of mechanical and electrical engineering is a complex system. Only the comprehensive and coordinated construction can ensure the normal operation of the project and realize its economic value. Only by carrying out the project reasonably and scientifically can the project be completed better.
In this paper, the contents of building electromechanical engineering are explored in detail from several angles, including: introducing the basic contents of mechanical and electrical engineering and related disciplines to realize the understanding of the development of mechanical and electrical engineering; the introduction of new engineering technology and new engineering materials to understand the specific project links of mechanical and electrical engineering. Secondly, from the perspective of construction technology in the construction of mechanical and electrical engineering, this paper gives a detailed introduction to the water supply, drainage, heating and other projects of the construction of mechanical and electrical engineering; the analysis of intelligent building engineering, to understand the importance of new technology for engineering construction. Finally, the construction of mechanical and electrical engineering is a complex and specific work, improving the effectiveness of the construction of mechanical and electrical engineering is of great significance to the development of society and the improvement of human living standards. Similarly, the construction mechanical and electrical engineering is also the content that the country needs to focus on. We should actively look for the problems in the implementation of the construction mechanical and electrical engineering, find reasonable solutions and implement the safety production.
前 言
随着经济的迅速发展,新的科学技术和材料慢慢进入人们的视野,尤其是建筑机电工程中的新技术、新材料应用,使得建筑机电工程更加优化。建筑机电工程环环相扣,是一个复杂的系统,只有全面协调的施工,才能保证工程的正常运转,实现其经济价值。合理科学地进行工程,项目才能更好地完成。
本文从多个角度对建筑机电工程内容展开了详细的探究,包含:对机电工程基本内容和相关专业的基础内容展开介绍,实现对机电工程的发展进行了解;包含介绍新的工程技术和新工程材料来了解机电工程的具体项目环节。其次,本文从建筑机电工程中施工技术的角度出发,对建筑机电的给水、排水、采暖等工程进行详细的介绍;对智能建筑工程的剖析,了解到新的技术对于工程建设的重要性。最后,建筑机电工程是一项复杂又具体的工作,提升建筑机电工程的有效性对社会的发展和人类生活水平的提高都具有十分重要的意义,同样,建筑机电工程也是国家需要重点关注的内容,应积极寻找建筑机电工程落实中存在的问题,寻找合理的解决方案并且将安全生产落到实处。
China’s construction industry has experienced 40 years of extensive and rapid development since the Reform and Opening up. Now it is facing great adjustment. The construction industry is currently in the stage of large cycle decline and small cycle nesting and overlapping. During the 13th Five Year Plan period, it will remain in the consolidation stage. China’s construction enterprises are in the critical period of transformation and reform. On the other hand, the construction industry also faces more development opportunities during the 13th Five Year Plan period. Engineering cost management is a major professional basic course of engineering management and civil engineering. It is a comprehensive engineering technology, involving a wide range of knowledge and a large scope. With the deepening of the reform of engineering management system in China, the system, method and content of engineering cost management and construction management have been greatly improved, and many relevant specifications have been innovated. In this context, the content of project cost management and construction management should also be adjusted appropriately, with the combination of theory and practice as the benchmark goal, so as to cultivate application-oriented talents with solid theoretical basis.
This book studies and analyzes the construction project cost and construction management, and explains in detail, including the explanation of the relevant contents of the project cost; what constitutes the project cost; pricing basis and mode of project cost; composition and calculation of construction cost; construction management; how to control construction cost and construction schedule; how to control the construction quality.
前 言
我国建筑行业经历了自改革开放至今 40 年的粗放型快速发展阶段, 现在正面临较大调整,建筑业目前正处于大周期下滑、小周期筑底的嵌套重叠阶段,在“十三五”期间都将保持在盘整阶段,我国建筑企业处于转型改革的关键时期。另一方面,建筑行业在“十三五”期间也面临更多的发展机遇。工程造价管理是工程管理类以及土木工程类主要的专业基础课程,是一门综合工程技术、牵涉的知识面广、范围大,而随着我国工程管理制度改革的不断深化,工程造价管理和施工管理体制、方法和内容也有了很大的改进,许多相关规范纷纷推陈出新,在此背景下,工程造价管理和施工管理的内容也应进行适当调整,以理论结合实践,以培养具有扎实理论基础的应用型人才为基准目标。
本书对建设工程造价和施工管理进行研究分析并详细说明,研究内容包括对工程造价相关内容的解释说明;工程造价由哪些构成;工程造价的计价依据与计价模式;对建设工程造价构成与计算;施工管理;怎么样进行施工成本控制和对施工进度进行控制;对施工质量如何控制。