首页> 外文会议>42nd ASES national solar conference 2013 >SOLAR WATER HEATING FOR UNIVERSITIES AND COLLEGES: MEETING A NEED FOR COST-EFFECTIVE GREEN TECHNOLOGIES

【24h】

SOLAR WATER HEATING FOR UNIVERSITIES AND COLLEGES: MEETING A NEED FOR COST-EFFECTIVE GREEN TECHNOLOGIES

机译：高校的太阳能供热系统：满足具有成本效益的绿色技术的需求

获取原文

获取原文并翻译 | 示例

页面导航

摘要
著录项
相似文献
相关主题

摘要

Educational institutions are showing interest in the application of Solar Water Heating (SWH) systems for dormitories and general HVAC as part of their strategy for reducing their carbon fuel consumption. Perennial Energy Consulting, Inc. (PEC) interviewed several educational institutions in the DC/MD/VA area over the past year concerning their efforts to demonstrate SWH and their plans for expanded implementation. There is an interest in installing SWH systems by some universities, but also unfamiliarity with the financial aspects of SWH system applications. PEC is developing a methodology to provide efficient ways of evaluating the costs of SWH and comparisons with sole reliance on electric and natural gas heating.

机译：教育机构对将太阳能热水系统（SWH）用于宿舍和普通HVAC表示出兴趣，这是其减少碳燃料消耗战略的一部分。过去一年中，Perennial Energy Consulting，Inc.（PEC）采访了DC / MD / VA地区的几家教育机构，以说明他们为展示SWH所做的努力以及他们扩大实施的计划。一些大学对安装SWH系统很感兴趣，但对SWH系统应用程序的财务方面也不熟悉。 PEC正在开发一种方法，以提供有效的方式来评估SWH的成本，并仅依靠电和天然气加热进行比较。

著录项

来源
《42nd ASES national solar conference 2013》|2013年|758-762|共5页
会议地点 Baltimore MA(US)
作者
Darrell Blakeway; Saif Islam; Munjed Murad; Peter Lowenthal; Paul Skorochod;
展开▼
作者单位

Perennial Energy Consulting, Inc 608 5th Street, N.E. Washington, DC 20002;

Perennial Energy Consulting, Inc 608 5th Street, N.E. Washington, DC 20002;

Perennial Energy Consulting, Inc 608 5th Street, N.E. Washington, DC 20002;

Consultant to Perennial Energy Consulting 4707 Elmhirst Lane Bethesda, MD 20814;

Consultant to Perennial Energy Consulting 1410 Hamlin Street, NE Washington, DC 20017;

展开▼
会议组织
原文格式 PDF
正文语种 eng
中图分类
关键词

相似文献

外文文献
中文文献
专利

1. Reducing household greenhouse gas emissions from space and water heating through low-carbon technology: Identifying cost-effective approaches [J] . Rafique Annum, Williams A. Prysor Energy and Buildings . 2021,第Octa期

机译：通过低碳技术减少空间和水供暖的家庭温室气体排放：确定具有成本效益的方法
2. The College of Energy and Power Engineering, Inner Mongolia University of Technology,010051Hohhot,China 2 Key Laboratory of Wind Energy and Solar Energy Technology (Inner Mongolia University of Technology), Ministry of Education [J] . Ataman Altug Atici, Mahmut Elpz, Fazil Sen Fresenius environmental bulletin . 2018,第10期

机译：内蒙古工业大学能源与动力工程学院，呼和浩特010051 2教育部风能与太阳能技术重点实验室（内蒙古工业大学）
3. State Key Laboratory Breeding Base of Green Chemistry-Synthesis Technology, College of Chemical Engineering and Materials, Zhejiang University of Technology, Hangzhou 310032, P.R. China [J] . Fengming Zhao, Fei Yan, Yang Qian, International Journal of Electrochemical Science . 2012,第12期

机译：浙江工业大学化工与材料学院绿色化学合成技术国家重点实验室培育基地，杭州310032
4. SOLAR WATER HEATING FOR UNIVERSITIES AND COLLEGES: MEETING A NEED FOR COST-EFFECTIVE GREEN TECHNOLOGIES [C] . Darrell Blakeway, Saif Islam, Munjed Murad, ASES national solar conference . 2013

机译：大学和大学的太阳能热量：满足需要具有成本效益的绿色技术
5. An Evaluation of the Rooftop PV and Solar Water Heating Systems at the NCSU Solar House [D] . Llewellyn, Nicholas Thomas. 2019

机译：NCSU太阳能室屋顶光伏光伏和太阳能供暖系统的评价
6. Estimation of Solar Radiation for Tomato Water Requirement Calculation in Chinese-Style Solar Greenhouses Based on Least Mean Squares Filter [O] . Dapeng Zhang, Tieyan Zhang, Jianwei Ji, 2020

机译：基于最小均方滤波器的中式日光温室番茄需水量太阳辐射估算
7. We conducted experiments using a Solar-Sea-Oasis (SSO) and a microbubble generator (MB) toimprove hypoxic condition at mooring place in Tokyo University of Marine Science and Technology. We looked intoeffects of these apparatuses by computational fluid dynamics (CFD). When we operated SSO, the effect of dissolvedoxygen (DO) supply was only confirmed near the water outlet. This was suggested by computational fluid dynamicsthat water that came out from water outlet rising upward without staying in the bottom was the causes. Then, weconducted experiments using a MB to aerate bottom of the sea more directly. Vertical distributions of DO showedoxygen was supplied horizontally, but DO concentration increased about 0.24 mg L-1 that was lower than SSOexperiment. This was suggested by CFD that water came out from MB generator spread horizontally without stayingnear the MB generator was the cause. Therefore, it is necessary to improve of making the MB water staying morenear the MB generator. [O] . 遠矢亮, 小島諒子, 石丸隆, 2010

机译：我们使用solar-sea-Oasis（ssO）和微泡发生器（mB）进行了实验，以改善东京海洋科技大学系泊处的低氧条件。我们通过计算流体动力学研究了这些能力的影响（ CFD）。当我们操作ssO时，溶解无氧（DO）供应的影响仅在出水口附近得到证实。这是通过计算流体动力学提出的，从出水口出来的水不会停留在底部是然后，我们利用mB进行实验，更直接地对海底进行曝气.DO的垂直分布显示水平供给无氧，但DO浓度增加约0.24 mg L-1，低于ssO nexperiment。这是CFD建议的，水从mB发生器中流出，水平传播而不停留在mB发生器的原因。 mB发电机。
8. Solar Heating and Hot Water System Installed at Alderson Broaddus College, Philippi, West Virginia [R] . Lieblein, S. 1981

机译：太阳能加热和热水系统安装在西弗吉尼亚州腓立比的alderson Broaddus学院

SOLAR WATER HEATING FOR UNIVERSITIES AND COLLEGES: MEETING A NEED FOR COST-EFFECTIVE GREEN TECHNOLOGIES

摘要

著录项

相似文献

相关主题

期刊订阅