Institution
Washington State University
Education•Pullman, Washington, United States•
About: Washington State University is a education organization based out in Pullman, Washington, United States. It is known for research contribution in the topics: Population & Gene. The organization has 26947 authors who have published 57736 publications receiving 2341509 citations. The organization is also known as: WSU & Wazzu.
Topics: Population, Gene, Poison control, Catalysis, Hordeum vulgare
Papers published on a yearly basis
Papers
More filters
••
TL;DR: A brief introduction to lithic analysis can be found in this article, where the authors discuss the basics of stone tool production and debitage attributes of a stone tool and its relationships with other artifacts.
Abstract: 1. A brief introduction to lithic analysis 2. Basics of stone tool production 3. Lithic raw materials 4. Getting started in lithic analysis: identification and classification 5. Flake debitage attributes 6. Approaches to debitage analysis 7. Approaches to stone tool analysis 8. Artifact diversity and site function 9. Lithic analysis and prehistoric sedentism 10. Concluding remarks.
546 citations
••
TL;DR: Recent advances that have contributed to the understanding of how this constellation of structural and biological features allows the HMGA proteins to serve as central 'hubs' of nuclear function are covered.
545 citations
••
TL;DR: A 0–1 mixed integer programming model is presented that simultaneously solves for the location of remanufacturing/distribution facilities, the transshipment, production, and stocking of the optimal quantities of re manufactured products and cores.
Abstract: Recoverable product environments are becoming an increasingly important segment of the overall push in industry towards environmentally conscious manufacturing. Integral to the recoverable product environment is the recoverable manufacturing system that focuses on recovering the product and extending its life through remanufacture or repair. Remanufacturing provides the customer with an opportunity to acquire a product that meets the original product standards at a lower price than a new product. The flow of materials and products in this environment occurs both from the customer to the remanufacturer (reverse flow), and from the remanufacturer to the customer (forward flow). Since most of the products and materials may be conserved, essentially this forms a closed-loop logistics system. We present a 0–1 mixed integer programming model that simultaneously solves for the location of remanufacturing/distribution facilities, the transshipment, production, and stocking of the optimal quantities of remanufactured products and cores. We also discuss the managerial uses of the model for logistics decision-making.
544 citations
••
TL;DR: In this paper, the authors make explicit the human exemptionalism paradigm implicit in traditional sociological thought, and develop an alternative new ecological paradigm which may better serve the field in a post-exuberant age.
Abstract: paradigm which impedes recognition of the societal significance of current ecological realities. Thus, sociology stands in need of a fundamental alteration in its disciplinary paradigm. The objectives of this article are to make explicit the &dquo;Human Exemptionalism Paradigm&dquo; implicit in traditional sociological thought, and to develop an alternative &dquo;New Ecological Paradigm&dquo; which may better serve the field in a post-exuberant age.
544 citations
••
TL;DR: The measurements indicate that well completion emissions are lower than previously estimated; the data also show emissions from pneumatic controllers and equipment leaks are higher than Environmental Protection Agency (EPA) national emission projections.
Abstract: Engineering estimates of methane emissions from natural gas production have led to varied projections of national emissions. This work reports direct measurements of methane emissions at 190 onshore natural gas sites in the United States (150 production sites, 27 well completion flowbacks, 9 well unloadings, and 4 workovers). For well completion flowbacks, which clear fractured wells of liquid to allow gas production, methane emissions ranged from 0.01 Mg to 17 Mg (mean = 1.7 Mg; 95% confidence bounds of 0.67–3.3 Mg), compared with an average of 81 Mg per event in the 2011 EPA national emission inventory from April 2013. Emission factors for pneumatic pumps and controllers as well as equipment leaks were both comparable to and higher than estimates in the national inventory. Overall, if emission factors from this work for completion flowbacks, equipment leaks, and pneumatic pumps and controllers are assumed to be representative of national populations and are used to estimate national emissions, total annual emissions from these source categories are calculated to be 957 Gg of methane (with sampling and measurement uncertainties estimated at ±200 Gg). The estimate for comparable source categories in the EPA national inventory is ∼1,200 Gg. Additional measurements of unloadings and workovers are needed to produce national emission estimates for these source categories. The 957 Gg in emissions for completion flowbacks, pneumatics, and equipment leaks, coupled with EPA national inventory estimates for other categories, leads to an estimated 2,300 Gg of methane emissions from natural gas production (0.42% of gross gas production).
544 citations
Authors
Showing all 27183 results
Name | H-index | Papers | Citations |
---|---|---|---|
Anil K. Jain | 183 | 1016 | 192151 |
Martin Karplus | 163 | 831 | 138492 |
Herbert A. Simon | 157 | 745 | 194597 |
Suvadeep Bose | 154 | 960 | 129071 |
Rajesh Kumar | 149 | 4439 | 140830 |
Kevin Murphy | 146 | 728 | 120475 |
Jonathan D. G. Jones | 129 | 417 | 80908 |
Douglas E. Soltis | 127 | 612 | 67161 |
Peter W. Kalivas | 123 | 428 | 52445 |
Chris Somerville | 122 | 284 | 45742 |
Pamela S. Soltis | 120 | 543 | 61080 |
Yuehe Lin | 118 | 641 | 55399 |
Howard I. Maibach | 116 | 1821 | 60765 |
Jizhong Zhou | 115 | 766 | 48708 |
Farshid Guilak | 110 | 480 | 41327 |