市場調查報告書
商品編碼
1308751
到 2030 年沼氣修復市場預測 - 按技術(變壓吸附 (PSA)、水洗滌器、膜、化學洗滌器、其他技術)、應用和區域進行的全球分析Biogas Upgrading Market Forecasts to 2030 - Global Analysis By Technology (Pressure swing adsorption (PSA), Water scrubber, Membrane, Chemical scrubber and Other Technologies), Application and By Geography |
根據 Stratistics MRC 的數據,預計 2023 年全球沼氣提質市場規模將達到 3.988 億美元,2030 年將達到 20.107 億美元,複合年增長率預計為 25.9%。
沼氣是通過有機底物(例如糞便、污水污泥、城市和工業廢物的有機部分以及能源作物)的厭氧消化產生的。 沼氣的大部分是甲烷和二氧化碳,可用於熱電聯產廠、汽車燃料以及天然氣的替代品。 沼氣的生產和使用具有許多積極的環境影響。 與傳統的糞便管理和垃圾填埋場相比,沼氣減少了向大氣中排放的甲烷。
根據世界沼氣協會(WBA)的數據,沼氣可以減少全球溫室氣體排放10-13%,減少全球食物浪費、工業生產廢物、農業原料和污水。我們可以提供可再生能源。 據歐洲沼氣協會稱,已安裝約18,977座沼氣廠和1,023座生物甲烷廠,總裝機容量為167太瓦時和25億立方米(bcm)。
隨著可再生能源的使用在全球範圍內擴大,對改良沼氣的需求不斷增加。 主要參與者專注於增加可再生能源產量。 替代天然氣的需求導致了建設新沼氣設施的巨額投資。 監管機構有嚴格的排放標準。 這些法律增加了沼氣升級的市場潛力。 該行業受到沼氣升級新技術進步的推動。
政府法規和政策會影響生物能源工廠的生存能力和未來方向。 法規、目標、任務、推動力、稅法和指南是影響生物能源活動的政策工具的一些例子。 每種生物質都有自己的個性,方法和規則的複雜程度也有差異。 這阻礙了市場的拓展。
對可再生能源的需求源於石油和天然氣價格的上漲。 在世界各地廣泛使用的天然氣可以被沼氣技術替代。 擴大高效沼氣生產可能會為市場拓展創造新的機遇。 政府減少有害排放和碳足蹟的努力可以刺激經濟增長。 此外,知名企業大量投資建設新的沼氣設施可以為該行業提供巨大的增長潛力。
將沼氣轉化為精製沼氣的過程成本高昂。 沼氣的質量應與二氧化碳含量低、甲烷含量高的天然空氣相當。 淨化沼氣可以實現這一目標。 這個過程成本高昂,因此應該優化創新。 由於沼氣精煉工藝成本高昂,進一步投資增加產量以滿足不斷增長的需求可能會很難擴大市場。
COVID-19疫情對市場產生了重大影響。 由於運輸問題,生產過程被延誤。 疫情的突然出現導致工業停擺,全球大部分行業的所有製造業完全停止。 因此,對發熱應用產品的需求也受到影響。 工業增長放緩正在減少供暖需求並對沼氣需求產生負面影響。
化學洗滌器領域預計將經歷利潤豐厚的增長。 沼氣 厭氧消化產生沼氣,這是清潔的第一步。 稱為化學洗滌器的設備使用化學品來清除氣流中的污染物。 硫酸、HCl、Hg (CNO) 和 Cl2 是這些系統中最常見的化學品。 這些設備經常用於沼氣修復,因為它們有助於降低能源生產過程中產生的氣體的顆粒物濃度。
由於人口增長和快速城市化,市政和生活污水行業預計在預測期內將以最快的複合年增長率增長。 由於其經濟實惠且易於安裝,市政污水處理廠是生產可再生能源的最大選擇之一。 各國政府正在重點開展旨在提高各地區城市污水處理廠裝機容量的計劃,這可能會增加對該產品的需求。
在預測期內,由於人口爆炸,預計亞太地區將佔據最大的市場份額。 亞太地區擁有龐大的消費基礎,中國和印度等國家在可再生能源生產方面獨立。 有利的法規和政治支持、環境支持、客戶支持、地緣政治支持、農業支持和經濟支持等關鍵因素推動了市場增長。 所有這些因素預計將使全球市場實現跨越式增長。
由於對生物燃料、沼氣和升級沼氣等可再生能源的需求不斷增長,預計歐洲在預測期內將呈現最高的複合年增長率。 歐洲是沼氣生產的關鍵地區,不斷開拓新技術,這可能最終支持市場擴張。 對替代燃料的高需求、嚴格的環境法規以及煉油廠建設投資的增加是推動該地區工業擴張的主要因素。
2023 年 4 月,Anaergia 將為南非百事公司提供廢沼氣解決方案。 Anaerzia 已獲得一份合同,為百事公司位於南非約翰內斯堡的 Simba Chips 工廠的新工廠提供技術、工程和工藝設計,該工廠將把食物垃圾轉化為可再生能源。
2023年2月,Anaasia收購了位於丹麥Tonder的Embo沼氣廠,作為哥本哈根基礎設施合作夥伴(CIP)的先進生物能源基金,該基金在歐洲和北美開發沼氣項目。宣布將其出售給i 。
According to Stratistics MRC, the Global Biogas Upgrading Market is accounted for $398.8 million in 2023 and is expected to reach $2010.7 million by 2030 growing at a CAGR of 25.9% during the forecast period. Anaerobic digestion of organic substrates, such as manure, sewage sludge, organic fractions of municipal and industrial waste, and energy crops, results in the production of biogas. Methane and carbon dioxide make up the majority of biogas, which can be used in combined heat and power plants, as automobile fuel, or as a natural gas alternative. Biogas can be produced and used with a number of positive environmental effects. Compared to conventional manure management or landfills, it decreases the release of methane to the atmosphere.
According to the World Biogas Association (WBA), Biogas can reduce global GHG emissions by 10-13% and provide renewable energy from the world's food waste, industrial production wastes, feedstocks from agriculture, and sewage. According to the European Biogas Association, about 18,977 biogas plants and 1,023 biomethane plants were installed, with a total installed capacity of 167TWh and 2.5 billion cubic meters (bcm).
The demand for upgrading biogas has increased as the use of renewable energy grows globally. The main players are concentrating on raising the amount of renewable energy produced. Huge sums of money have been invested in the construction of new biogas facilities as a result of the need for a natural gas replacement. The regulatory organisations have established strict emission standards. The market potential for upgrading biogas has been boosted by these laws. The industry is being driven by new technological advancements in biogas upgrading.
Government rules and policies may have an impact on a bioenergy plant's viability and future course of action. Regulations, targets, commands, impetuses, tax laws, and guidelines are a few examples of policy tools that can be used to impact bio energy activities. Every biomass is unique, and there are differences in how intricate the methods and rules are for each. This factor is preventing the market from expanding.
The need for renewable energy sources has been sparked by the rising price of oil and gas. Natural gas, which is utilised extensively over the world, can be replaced by biogas technology. High-efficiency biogas production expansion could create new opportunities for market expansion. The government's efforts to lessen harmful emissions and carbon footprints could spur economic growth. Furthermore, sizable investments made by well-known players to build new biogas facilities may offer the industry significant growth potential.
The process of converting biogas into refined biogas is expensive. The quality of biogas must match that of natural air, which has a lower carbon dioxide content and a higher methane content. By purifying biogas, this is accomplished. The innovation needs to be optimised because the procedure is expensive. The high cost of the biogas refining process makes further investment to boost output to meet the rising demand potentially very challenging for the market's expansion.
On the market, the COVID-19 epidemic has had a significant effect. The production process was delayed by the transportation problems. The sudden advent of the pandemic led to an industrial shutdown that completely stopped all manufacturing in the majority of global industry. As a result, it has also affected product demand in applications for heat generation. Slow industrial growth has decreased the need for heating, which has a detrimental impact on the need for biogas.
The chemical scrubber segment is estimated to have a lucrative growth. Biogas Anaerobic digestion produces biogas, which is the first step in cleaning. A device called a chemical scrubber employs chemicals to clean up a gas stream of pollutants. Sulfuric acid, HCl, Hg(CNO), and Cl2 are the most prevalent chemical types found in these systems. As they assist in lowering the particle matter concentration of gases produced during energy production, these devices are frequently employed for biogas upgrading.
The municipal & domestic sewage segment is anticipated to witness the fastest CAGR growth during the forecast period, due to increasing population and rapid urbanization. Municipal wastewater treatment facilities are among the greatest choices for producing renewable energy because of their affordability and simplicity of installation, among other benefits. Various governments are concentrating on programmes that aim to increase installed capacity at municipal wastewater treatment plants throughout various regions, which is likely to increase product demand.
Asia Pacific is projected to hold the largest market share during the forecast period owing to population explosion. It has a sizable consumer base, and nations like China and India are independent in the production of renewable energy. Significant elements include favourable regulatory and political support, environmental support, customer support, geopolitical support, agricultural and economic support is driving market growth. Due to all these factors, the global market is projected to grow exponentially.
Europe is projected to have the highest CAGR over the forecast period, owing to the rising demand for renewables such as biofuels, biogas, and upgraded biogas. It is a significant area for the production of biogas and is constantly developing new technologies, which may eventually support the expansion of the market. High demand for alternative fuels, strict environmental restrictions, and greater investment in refinery construction are key drivers fostering industry expansion in the area.
Some of the key players profiled in the Biogas Upgrading Market include Atlas Copco AB, Condorchem Envitech SL, Pentair Plc, Air Liquide SA, HAASE Umwelttechnik GmbH, Xebec Adsorption Inc., DP CleanTech Co. Ltd., Bright Renewables B.V., DMT International, DVO Inc., Jog Waste to Energy Pvt. Ltd., Nacelle Logistics LLC, Veolia Environment SA, Greenlane Renewables Inc., NeoZeo AB, Carbotech Gas Systems GmbH, Anaergia Inc. and MalmbergGruppen AB.
In April 2023, Anaergia provide PepsiCo with waste-to-biogas solution in South Africa. Anaergia has secured a contract to provide its technologies, engineering and process design for a new facility that will convert food processing waste into renewable energy at PepsiCo's Simba Chips plant in Johannesburg, South Africa.
In February 2023, Anaergia Inc. announced it has sold its Envo Biogas plant in Tønder, Denmark to Copenhagen Infrastructure Partners' (CIP) Advanced Bioenergy Fund I, which is developing biogas projects in Europe and North America.