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In spite of ambitious investments by the Chinese government in renewable energy sources, the country’s investment in coal power accelerated in recent years, raising concerns of massive overcapacity and undermining the central policy goal of promoting cleaner energy. In this paper, we ask why this happened, focusing on policies that incentivized excessive entry in the coal power sector and using a simple economic model to illustrate the policies’ effects. Using coal-power project approval records from 2013 to 2016, we find the approval rate of coal power was about 3 times higher after approval authority was decentralized, with larger effects in regions producing more coal. We estimate that local coal production accounts for an additional 54GW of approved coal power in 2015 (other things equal), which is about 1/4 of total approved capacity in that year.

The climate crisis is the biggest threat to the health, development, and wellbeing of the current and future generations. While there is extensive evidence on the direct impacts of climate change on human livelihood, there is little evidence on how children and young people are affected, and even less discussion and evidence on how the climate crisis could affect violence against children.In this commentary, we review selected research to assess the links between the climate crisis and violence against children.We employ a social-ecological perspective as an overarching framework to organize findings from the literature and call attention to increased violence against children as a specific, yet under-examined, direct and indirect consequence of the climate crisis.Using such a perspective, we examine how the climate crisis exacerbates the risk of violence against children at the continually intersecting and interacting levels of society, community, family, and the individual levels. We propose increased risk of armed conflict, forced displacement, poverty, income inequality, disruptions in critical health and social services, and mental health problems as key mechanisms linking the climate crisis and heightened risk of violence against children. Furthermore, we posit that the climate crisis serves as a threat multiplier, compounding existing vulnerabilities and inequities within populations and having harsher consequences in settings, communities, households, and for children already experiencing adversities.We conclude with a call for urgent efforts from researchers, practitioners, and policymakers to further investigate the specific empirical links between the climate crisis and violence against children and to design, test, implement, fund, and scale evidence-based, rights-based, and child friendly prevention, support, and response strategies to address violence against children.

The Lower Silurian Longmaxi Formation is an organic-rich (black) mudrock that is widely considered to be a potential shale gas reservoir in the southern Sichuan Basin (the Yangtze plate) in Southwest China. A case study is presented to characterise the shale gas reservoir using a workflow to evaluate its characteristics. A typical characterisation of a gas shale reservoir was determined using basset sample analysis (geochemical, petrographical, mineralogical, and petrophysical) through a series of tests. The results show that the Lower Silurian Longmaxi Formation shale reservoir is characterised by organic geochemistry and mineralogical, petrophysical and gas adsorption. Analysis of the data demonstrates that the reservoir properties of the rock in this region are rich and that the bottom group of the Longmaxi Formation has the greatest potential for gas production due to higher thermal maturity, total organic carbon (TOC) enrichment, better porosity and improved fracture potential. These results will provide a basis for further evaluation of the hydrocarbon potential of the Longmaxi Formation shale in the Sichuan Basin and for identifying areas with exploration potential.

Recently, the international trade of various bioenergy commodities has grown rapidly, yet this growth is also hampered by some barriers. The aim of this paper is to obtain an overview of what market actors currently perceive as major opportunities and barriers for the development of international bioenergy trade. The work focuses on three bioenergy commodities: bioethanol, biodiesel and wood pellets. Data were collected through an internet-based questionnaire. The majority of the 141 respondents had an industrial background. Geographically, two-thirds were from (mainly Western) Europe, with other minor contributions from all other continents. Results show that import tariffs and the implementation of sustainability certification systems are perceived as (potentially) major barriers for the trade of bioethanol and biodiesel, while logistics are seen mainly as an obstacle for wood pellets. Development of technical standards was deemed more as an opportunity than a barrier for all commodities. Most important drivers were high fossil fuel prices and climate change mitigation policies. Concluding, to overcome some of the barriers, specific actions will be required by market parties and policy makers. Import tariffs for biofuels could be reduced or abolished, linked to multinational trade agreements and harmonization (including provisions on technical standards and sustainability requirements).

As a valid means to improve building sustainability, envelope and energy consuming systems’ (e.g. HVAC, BMS) commissioning should be performed continually during the whole building lifecycle. ICT-supported lifecycle commissioning of integrated systems is experiencing a rapid growth through international cooperation in Research and Development (R&D). Therefore, the author formulates the following hypothesis for his research: New properties should be constructed matching high energy standards. Furthermore, there is a need to maintain existing buildings regularly to prevent their degradation. If energy consumption of buildings is to be reduced and acceptable comfort levels are to be maintained, then Continual Commissioning (CC) methodologies should be deployed. However, all currently identified CC practices are based on specific skills and tools available to their developers, and without common methodological structure applicable to every system or facility under commissioning. This gap should be covered with formulation of the progressive, flexible and scalable concept called “Modular Continual Commissioning” (mCC). Practical application of this concept will help to save labour, time and costs required for building integrated systems’ operation and commissioning. It is expected that the results of this thesis will be generally applicable and can be used for the further development of Continual Commissioning (CC) processes in various facilities and will improve buildings’ comfort and efficiency.

Commercial bakery products in the United States such as breads, rolls, frozen cakes, pies, pastries, cookies, and crackers consume over $870 million of energy annually. Energy efficiency measures can reduce the energy costs of significant energy processes and increase earnings predictability. This article summarizes key energy efficiency measures relevant to industrial baking. Case study data from bakeries and related facilities worldwide are used to identify savings and cost metrics associated with efficiency measures. While the focus of this paper is on U.S. bakeries, findings can be generalized to bakeries internationally. A discussion of energy management systems is provided and how energy efficiency measures savings can be sustained. Energy and plant managers at bakeries can use this information to cost-effectively reduce energy consumption while utilities and policy makers can apply the findings to energy efficiency program design.

AbstractWith growing demand for internationally traded biomass, the logistic operations required to economically move biomass from the field or forest to end‐ users have become increasingly complex. To design cost effective and sustainable feedstock supply chains, it is important to understand the economics, energy and greenhouse gas (GHG) emissions, their interdependencies, and the related uncertainties of the logistic process operations of international supply chains. This paper presents an approach to assessing lignocellulosic feedstock supply systems at the operational level. For this purpose, the Biomass Logistic Model (BLM) has been linked with the Geographic Information Systems‐based Biomass Intermodal Transportation Model (BIT‐UU) and extended with inter‐continental transport routes. Case studies of herbaceous and woody biomass, produced in the US Midwest and US Southeast, respectively, and shipped to Europe for conversion to Fischer‐Tropsch (FT) diesel are included to demonstrate how intermodal transportation and, in particular, overseas shipping integrates with the bioenergy supply chains. For the cases demonstrated, biomass can be supplied at 99 € Mg−1 to 117 € Mg−1 (dry) and converted to FT diesel at 19 € GJ−1 to 24 € GJ−1 depending on the feedstock type and location, intermediate (chips or pellets) and size of the FT diesel production plant. With the flexibility to change the design of supply chains as well as input variables, many alternative supply chain cases can be assessed. © 2014 Society of Chemical Industry and John Wiley & Sons, Ltd

The protective effects of the proton pump inhibitor lansoprazole on gastric mucosal damage induced by ethanol-HCl or hemorrhagic shock were investigated in the present study. The morphometric analysis of gastric histological sections revealed that lansoprazole dose-dependently reduced mucosal injury evoked by ethanol-HCl (ED50 = 24.3 micromol/kg) or hemorrhagic shock (ED50 = 38.9 micromol/kg), these effects being associated with marked increments of Alcian blue recovery from gastric bound mucus (ED50 = 31.4 micromol/kg and 27.6 micromol/kg, respectively). In addition, lansoprazole inhibited gastric acid secretion from pylorus-ligated rats (ED50 = 9.8 micromol/kg). Further experiments, performed on rats with ethanol-HCl-induced gastric injury, indicated that the protective effects of lansoprazole were not modified by L-365,260, suramin, N(G)-nitro-L-arginine, or systemic ablation of capsaicin-sensitive sensory nerves, whereas they were partly blocked by indomethacin and fully prevented by N-ethyl-maleimide. In addition, lansoprazole did not modify somatostatin concentrations in gastric mucosa. The present results provide evidence that lansoprazole prevents the necrotic damage of gastric mucosa induced by ethanol-HCl or hemorrhagic shock. According to the rank order of ED50 values, these effects appear to depend mainly on the enhancement of the gastric mucus barrier rather than on the reduction of acid secretion. It is also proposed that an increased production of prostaglandins, as well as an increased availability of sulfhydryl compounds at level of gastric mucosa may account for the gastroprotective effects of lansoprazole.