Roof rooftop的問題，透過圖書和論文來找解法和答案更準確安心。 我們找到下列問答集和資訊懶人包

111 Rooftops in New York That You Must Not Miss

為了解決Roof rooftop的問題，作者Adatto, Leslie 這樣論述：

Leslie Adatto has been seeking out New York City rooftops since relocating to Manhattan in 2010. She blogs about New York City rooftops (lookingupwithleslie.com) and organizes two active Meetup groups, The New York Roof Deck and Roof Gardening Meetup Group and Rooftop Drinkers NYC. Leslie earned a B

A in English from UCLA, is a former high school teacher and runs a bicoastal business. Leslie lives, bikes and cooks in the West Village. Born in Queens, raised in Brooklyn, Clay Williams is a lifelong New Yorker who photographs food, drinks and events for The New York Times, Edible Communities maga

zines, and the James Beard Foundation. With his camera in tow, Clay has hung on to the back of food trucks in Paris, trudged through farms in Argentina, and squeezed into tiny kitchens with world famous chefs. When he’s not documenting the food system, he’s at home, cooking dishes inspired by what h

e photographs every day. Clay lives in Sunset Park, Brooklyn, with his wife Tammi, a fellow New York native.

Roof rooftop進入發燒排行的影片

屋頂型太陽能板於不同環境之模擬與分析

為了解決Roof rooftop的問題，作者莊皓翔 這樣論述：

台灣經濟部已訂定在2025年再生能源發電佔比要達到20%的政策目標，且太陽能是再生能源中的首要來源，在近年來也以倍數的規模成長，而隨著太陽能在政策中不斷的提高裝置容量之外，若發電效率也提高可以發電量會有顯著的成長。在家庭能源管理系統(Home Energy Management System, HEMS)配合再生能源系統的情況下可以更有效的降低能源成本，在政府強力推動綠能屋頂全民參與的情況下，最容易接觸到屋頂型太陽能板，在架設太陽能板前若能有效的評估和日後能有效的監測太陽能板的使用情形，如遮蔽、髒汙…等干擾，即可有效的提升太陽能板的發電效率，故本研究想藉此提出一模擬太陽能板於不同環境下的方法

，以解決上述之問題。本研究利用建築資訊模型(Building Information Modeling, BIM)得到需要模擬的外部模型，並利用計算流體力學(Computational Fluid Dynamics, CFD)進行環境模擬，加入氣候環境參數下並計算於太陽熱通量下實際對太陽能板所造成的溫度，即可得知太陽能板因熱損失的發電效率，再加入不同熱源的情形下對太陽能板所造成的溫度，以了解在不同環境下太陽能板的溫度及發電影響。在模擬溫度的準確度上，本研究系統驗證中利用一案例2021年5月11日進行驗證，在進行太陽能板架設前於不同環境狀況下進行模擬，模擬值與實際值誤差僅2.7%，可以有效提供屋

頂型太陽能板架設前的環境評估及後續的發電量追蹤。

The Weight of the Stars

為了解決Roof rooftop的問題，作者Ancrum, K. 這樣論述：

A vivid, evocative YA lesbian romance about how the universe is full of second chancesRyann Bird dreams of traveling across the stars. But a career in space isn't an option for a girl who lives in a trailer park on the "wrong" side of town. So Ryann becomes her circumstances and settles for acting o

ut and skipping school to hang out with her delinquent friends.One day she meets Alexandria: a furious loner who spurns Ryann's offer of friendship. After a horrific accident leaves Alexandria with a broken arm, the girls are brought together despite themselves--and Ryann learns her secret: Alexandr

ia's mother is an astronaut who volunteered for a one-way trip to the edge of the solar system.Every night without fail, Alexandria waits to catch radio signals from her mother. And now it's up to Ryann to lift her onto the roof day after day until the silence between them grows into friendship, and

eventually something more. The Weight of the Stars is the new LGBT young adult romance from K. Ancrum, written with the same style of short, micro-fiction chapters and immediacy that garnered acclaim for her debut, The Wicker King.An Imprint Book"The Weight of the Stars is one of the most gentle, g

racious, and, overall, kind books that I've read all year ... It's a YA romance about girls and stars and friendship and mercy and loss and regret and what we owe each other and what we give away to lift each other up ... This book is starlight on broken concrete, it's flowers on a broken rooftop, a

nd it's a masterpiece." --Seanan McGuire, New York Times bestselling author of Every Heart a Doorway"As bright as it is stellar ... a story with a lush, dark atmosphere; heartbreaking circumstances; bright, new love that blossoms from ugliness; and vividly real, magnetic characters." --Booklist (sta

rred review)"Touches on sexual identity, friendship, nontraditional families, and the price of human space exploration. The characters' resilience and vulnerability are deftly handled ... For readers who are drawn to the unconventional, this will be a satisfying read." --Kirkus Reviews"Their slow-bu

rn romance ... is sweetly, devastatingly understated." - BCCBPRAISE FOR THE WICKER KING"Ancrum delves into the blurry space between reality and madness. A haunting and provocative read that will keep teens riveted." --School Library Journal"Teen fans of moody psychological horror will be entranced."

--Booklist "Give this to readers who like complex, experimental fictions about intense relationships that acquire mythic resonance." --The Bulletin of the Center for Children's Books"An eerie piece of realistic fiction whose characters revel in intense emotions." --Kirkus Reviews"An eerie and mesme

rizing thriller that questions the space where reality and perception overlap, The Wicker King is a spine-tingling read that will have you riveted." --Caleb Roerhrig, author of Last Seen Leaving and White Rabbit K. Ancrum grew up in Chicago Illinois, under the illusory rigor of the Chicago Public

School system. She attended Dominican University to study Fashion Merchandizing, but was lured into getting an English degree after spending too many nights experimenting with hard literary criticism and hanging out with unsavory types, like poetry students. Currently, she lives in River North, Chic

ago, and writes books at work when no one is looking. She is the author of The Wicker King and The Weight of the Stars.

都市農業在永續智慧城市水-糧食-能源鏈結下的協同效用

為了解決Roof rooftop的問題，作者黃安祺 這樣論述：

水、糧食和能源是延續生命體和維繫都市運作的三種最重要資源，三者間的供應與使用息息相關。全球人口的快速增長、集中與都市化，大幅增加對水、糧食和能源需求，並對這些資源存量與使用效率形成巨大壓力。台灣雖然預計未來五十年人口將較目前下降，但都市化的趨勢依然明顯，可預期仍將對水、糧食和能源的供應有極大壓力。因此近來國際間針對水，糧食和能源鏈結關係(water-food-energy nexus)的研究越來越多，亦發展出各種分析工具方法來評估三種資源的供應、消耗量，以及彼此間的交互影響與競合關係，期能探索出資源分配利用的最佳化協同效益。然大部分研究的空間規模尺度都很大，例如從國家、河川流域、地理區域等角

度來進行後驗的總量分析，而從地方上能事前先經過整體規劃再務實執行的機制，卻尚不多見，特別是從都市農業對水、糧食、能源資源在都會區的影響與貢獻的研究極其有限。2020年起全球新冠肺炎流行病暴發後，各種出行流動的管控措施影響了許多商品貨物及糧食的流通與供應，都市農園遂再度成為在地鮮蔬生產能否有效滿足局部自主供應的議題。為落實在地資源鏈結之理念，本研究從水-糧食-能源鏈結的資源使用觀點着手，利用市中心的閒置土地空間，結合在地能源、資源收集與市政水電的併用來進行都市農業生產，並以系統動態模型（System Dynamics Modeling, SDM）方法，計算各資源的入出流量，再從水資源與能源的供給

與消耗面，分析糧食就近生產所需的單位水電消耗量與收成量之間的關連性（關係）。而作物生長受在地氣候影響很大，故本研究先利用類神經網路方法下之自組織映射（Self-organizing Map，SOM），從北台灣歷史氣象資料中聚類找出北台灣的氣候類型，並特別分析臺北市氣候類型在時間分佈上的特徵，再結合台北市屋頂農園實際成功案例，建構台北市都市農園葉菜作物於氣候-水-糧食-能源資源鏈結之系統動態模型，並進一步以2018年氣象資料為模擬背景，發展全年依氣候條件配置葉菜種植（葉萵苣和地瓜葉）的系統動態基礎模式，探討台北市都市農園（屋頂農場）全季節葉菜作物種植生產在氣候與資源間的關聯性以及資源投入與產出間

的利用效率，以提供都市與農業相關部門在規劃發展都市農業時，為未來潛在糧食安全風險提前部署都市地區農園儲備建置時提出策略參考。本研究模型特色在於能隨時間的演進，透過描述資源的連續性、變化和交互行為特徵，有效捕捉水-糧食-能源鏈結間動態串聯。本研究以台北市大安老人中心屋頂農園實際成功的都市農園生產工作與收穫資料為案例基礎，所建構的氣候-水-能源-糧食鏈結模型評估了台北市屋頂農場葉菜作物生產的有效性和資源利用效率，其結果表明，2018年在120平方公尺的栽植面積裡，全年度在地連續種植葉萵苣和地瓜葉的總年產量可達1.001噸，而該年作物生長期間共需水量為1,170.5噸（包含使用596.8 噸的雨水回

收再利用，和213.2 噸的自來水），以及總共645.1千瓦時的能源需求（包括298.4千瓦時太陽能光伏發電和45.8千瓦時的市政電力）。以種植的葉菜類單位面積計算，2018年平均每平方公尺需要9.8噸的澆灌水（5.0 ton/m2 來自雨水回收，以及1.8 ton/m2 的市水供應），以及每平方公尺需要 5.4 kwh的能源需求以啟動澆灌馬達工作（2.5 kwh/m2 來自太陽綠能的收集，以及 0.4 kwh/m2 的市電供應)；再以此單位用量擴展到台北市的建築屋頂的面積，若其中30%的面積（56,602 m2）能施行屋頂農園種植葉萵苣和地瓜葉，其2018年屋頂農園的模擬收穫量得以推估出，除

了當年綠水綠能的收集使用外，另僅需消耗4,460噸的市水和575,000kWh市電的能資源成本，供應周邊4,312人（或1,437個三口之家）的全年鮮蔬食用。本研究分析結果將可提供相關決策單位對都會區鮮蔬葉菜類之糧食供應進行產地的有效調整配置與生產，增加城市居民新鮮農產蔬果的來源，並消除部分糧作因來自外地衍生的”食物里程”與運輸成本，以降低農產品市售價格，且能有效調節天災後的蔬菜供應質量與控制菜價波動，提升都市農業對水、糧食、能源資源的協同效益，期能更符合智慧永續城市的目標。