Yong-gang Lin

Bio: Yong-gang Lin is an academic researcher from Zhejiang University. The author has contributed to research in topics: Turbine & Wind power. The author has an hindex of 19, co-authored 45 publications receiving 1329 citations.

Present situation and future prospect of renewable energy in China

Abstract: Energy demand in China has risen rapidly and reached an unprecedented level due to the high-speed economic growth and modern development. As a result, the Chinese government faces a growing pressure to address the energy shortage and environmental deterioration, mainly resulting from an over-dependence on fossil energy. China has become both the largest energy consumer and CO 2 emitting country in the world in 2015. Utilization of potential for renewable energy is necessary for changing inappropriate energy consumption structure, protecting environment and achieving sustainable economic and social development. In view of such mentioned situation, this paper firstly introduces the energy structure as well as the development status of renewable energy in China, which includes hydropower, wind power, solar power, biomass power and other renewable energy. Besides, based on the current situation in China, the paper makes a preliminary prediction of the development of renewable energy in the country for the future decades, and proposes targeted countermeasures and suggestions.

Fault analysis of wind turbines in China

Abstract: The installed capacity of wind turbines in China increased rapidly in the past 10 years. Against the backdrop of growing wind turbine capacity, the failure of wind turbines is becoming increasingly serious. Based on the three primary configurations and failure statistics analysis of wind turbines in China, this paper summarizes the failures of wind turbine components, such as frequency converters, generators, gearboxes, pitch systems, yaw systems, blades, braking systems and sub-synchronous machines. Although there are many failure types and various causes, we can deduce four primary reasons for these failures: lack of core technologies; inferior quality due to price competition; design standards and wind farm climate differences; and no mandatory quality certification and exterior factors, such as wind farm construction, power grids and maintenance. Finally, while aiming to improve the reliability, a reliability management method with regard to the design, manufacturing and maintenance of wind turbines was proposed.

A review on the development of tidal current energy in China

Abstract: Nowadays and in the coming years, increased attention is being given to the tidal current energy development all over the world. China is a country endowed with abundant tidal current energy resources. In this paper, the distribution of tidal current energy in China was presented. Policies and current status of usage and technology development of tidal current power generation in China were introduced. Meanwhile, special focus was given to the research programs being carried out and the achievements made. Finally, existing challenges were addressed and the future perspectives of tidal current energy development in China were provided.

Review of hydraulic transmission technologies for wave power generation

Abstract: Energy extraction and conversion from ocean waves are being increasingly regarded as a research hotspot. Many different wave energy conversion systems have been proposed to convert wave energy into electricity. The paper reviewed and analyzed the hydraulic transmission technologies used in various kinds of wave energy conversion systems, and introduced a water/oil integrated transmission system used in wave energy converter to reduce the pollution caused by hydraulic oil leakage. This paper also proposed a digital hydraulic cylinder group, which could regulate the pressure of hydraulic power take-off system and reduce the energy interference in multiple devices deployed in arrays. The wave power generation applications will develop rapidly due to the fading fossil energy resources and serious environmental pollution, while the hydraulic transmission technologies with water/oil integrated transmission and digital hydraulic cylinder group will be of crucial importance to the process of the development.

What would it take for renewably powered electrosynthesis to displace petrochemical processes

Abstract: Electrocatalytic transformation of carbon dioxide (CO2) and water into chemical feedstocks offers the potential to reduce carbon emissions by shifting the chemical industry away from fossil fuel dependence. We provide a technoeconomic and carbon emission analysis of possible products, offering targets that would need to be met for economically compelling industrial implementation to be achieved. We also provide a comparison of the projected costs and CO2 emissions across electrocatalytic, biocatalytic, and fossil fuel-derived production of chemical feedstocks. We find that for electrosynthesis to become competitive with fossil fuel-derived feedstocks, electrical-to-chemical conversion efficiencies need to reach at least 60%, and renewable electricity prices need to fall below 4 cents per kilowatt-hour. We discuss the possibility of combining electro- and biocatalytic processes, using sequential upgrading of CO2 as a representative case. We describe the technical challenges and economic barriers to marketable electrosynthesized chemicals.

Extreme Learning Machine 기반 퍼지 패턴 분류기 설계

Abstract: 본 논문에서는 인공 신경망의 일종인 Extreme Learning Machine의 학습 알고리즘을 기반으로 하여 노이즈에 강한 특성을 보이는 퍼지 집합 이론을 이용한 새로운 패턴 분류기를 제안 한다. 기존 인공 신경망에 비해 학습속도가 매우 빠르며, 모델의 일반화 성능이 우수하다고 알려진 Extreme Learning Machine의 학습 알고리즘을 퍼지 패턴 분류기에 적용하여 퍼지 패턴 분류기의 학습 속도와 패턴 분류 일반화 성능을 개선 한다. 제안된 퍼지 패턴 분류기의 학습 속도와 일반화 성능을 평가하기 위하여, 다양한 머신 러닝 데이터 집합을 사용한다.

Recent progress in covalent organic framework thin films: fabrications, applications and perspectives

Abstract: As a newly emerging class of porous materials, covalent organic frameworks (COFs) have attracted much attention due to their intriguing structural merits (e.g., total organic backbone, tunable porosity and predictable structure). However, the insoluble and unprocessable features of bulk COF powder limit their applications. To overcome these limitations, considerable efforts have been devoted to exploring the fabrication of COF thin films with controllable architectures, which open the door for their novel applications. In this critical review, we aim to provide the recent advances in the fabrication of COF thin films not only supported on substrates but also as free-standing nanosheets via both bottom-up and top-down strategies. The bottom-up strategy involves solvothermal synthesis, interfacial polymerization, room temperature vapor-assisted conversion, and synthesis under continuous flow conditions; whereas, the top-down strategy involves solvent-assisted exfoliation, self-exfoliation, mechanical delamination, and chemical exfoliation. In addition, the applications of COF thin films including energy storage, semiconductor devices, membrane-separation, sensors, and drug delivery are summarized. Finally, to accelerate further research, a personal perspective covering their synthetic strategies, mechanisms and applications is presented.